TSTP Solution File: MGT063+1 by SuperZenon---0.0.1
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- Process Solution
%------------------------------------------------------------------------------
% File : SuperZenon---0.0.1
% Problem : MGT063+1 : TPTP v8.1.0. Released v2.4.0.
% Transfm : none
% Format : tptp:raw
% Command : run_super_zenon -p0 -itptp -om -max-time %d %s
% Computer : n022.cluster.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory : 8042.1875MB
% OS : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit : 600s
% DateTime : Sun Jul 17 22:27:08 EDT 2022
% Result : Theorem 230.64s 230.93s
% Output : Proof 232.73s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.03/0.12 % Problem : MGT063+1 : TPTP v8.1.0. Released v2.4.0.
% 0.03/0.13 % Command : run_super_zenon -p0 -itptp -om -max-time %d %s
% 0.13/0.34 % Computer : n022.cluster.edu
% 0.13/0.34 % Model : x86_64 x86_64
% 0.13/0.34 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.34 % Memory : 8042.1875MB
% 0.13/0.34 % OS : Linux 3.10.0-693.el7.x86_64
% 0.13/0.34 % CPULimit : 300
% 0.13/0.34 % WCLimit : 600
% 0.13/0.34 % DateTime : Thu Jun 9 09:21:04 EDT 2022
% 0.13/0.34 % CPUTime :
% 230.64/230.93 % SZS status Theorem
% 230.64/230.93 (* PROOF-FOUND *)
% 230.64/230.93 (* BEGIN-PROOF *)
% 230.64/230.93 % SZS output start Proof
% 230.64/230.93 1. ((tau) != (tau)) ### NotEqual
% 230.64/230.93 2. (greater (age T_0 T_1) (tau)) (-. (greater (age T_0 T_1) (tau))) ### Axiom
% 230.64/230.93 3. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.64/230.93 4. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 230.64/230.93 5. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.64/230.93 6. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.64/230.93 7. (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T)))))) ### Axiom
% 230.64/230.93 8. (has_endowment T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ### Definition-Pseudo(has_endowment) 7
% 230.64/230.93 9. (has_immunity T_0 T_1) (-. (has_immunity T_0 T_1)) ### Axiom
% 230.64/230.93 10. (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 T_1))) (has_immunity T_0 T_1) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### DisjTree 6 8 9
% 230.64/230.93 11. (All T, (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 T)))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (has_immunity T_0 T_1) ### All 10
% 230.64/230.93 12. (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (has_immunity T_0 T_1) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 11
% 230.64/230.93 13. (-. (-. (has_immunity T_0 T_1))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ### NotNot 12
% 230.64/230.93 14. (-. (is_aligned T_0 T_1)) (is_aligned T_0 T_1) ### Axiom
% 230.64/230.93 15. (positional_advantage T_0 T_1) (-. (positional_advantage T_0 T_1)) ### Axiom
% 230.64/230.93 16. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.64/230.93 17. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.64/230.93 18. (has_immunity T_0 T_3) (-. (has_immunity T_0 T_3)) ### Axiom
% 230.64/230.93 19. (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 T_3))) (has_immunity T_0 T_3) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### DisjTree 17 8 18
% 230.64/230.93 20. (All T, (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 T)))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (has_immunity T_0 T_3) ### All 19
% 230.64/230.93 21. (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (has_immunity T_0 T_3) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 20
% 230.64/230.93 22. (-. (-. (has_immunity T_0 T_3))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ### NotNot 21
% 230.64/230.93 23. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.64/230.93 24. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 230.64/230.93 25. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.64/230.93 26. (is_aligned T_0 T_2) (-. (is_aligned T_0 T_2)) ### Axiom
% 230.64/230.93 27. (-. (is_aligned T_0 T_3)) (is_aligned T_0 T_3) ### Axiom
% 230.64/230.93 28. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_3)) (-. (is_aligned T_0 T_3)) (is_aligned T_0 T_2) ### Equiv 26 27
% 230.64/230.93 29. (-. (-. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_3)))) (is_aligned T_0 T_2) (-. (is_aligned T_0 T_3)) ### NotNot 28
% 230.64/230.93 30. (-. ((organization T_0) /\ (-. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_3))))) (-. (is_aligned T_0 T_3)) (is_aligned T_0 T_2) (organization T_0) ### NotAnd 25 29
% 230.64/230.93 31. (-. (dissimilar T_0 T_2 T_3)) (organization T_0) (is_aligned T_0 T_2) (-. (is_aligned T_0 T_3)) ### Definition-Pseudo(dissimilar) 30
% 230.64/230.93 32. (greater (sigma) (age T_0 T_3)) (-. (greater (sigma) (age T_0 T_3))) ### Axiom
% 230.64/230.93 33. ((sigma) != (sigma)) ### NotEqual
% 230.64/230.93 34. (-. (greater (sigma) (sigma))) (greater (age T_0 T_3) (sigma)) (greater (sigma) (age T_0 T_3)) ### Trans 32 33
% 230.64/230.93 35. (-. ((greater (sigma) (sigma)) /\ (greater (sigma) (sigma)))) (greater (sigma) (age T_0 T_3)) (greater (age T_0 T_3) (sigma)) ### NotAnd 34 34
% 230.64/230.93 36. (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (age T_0 T_3) (sigma)) (greater (sigma) (age T_0 T_3)) ### All 35
% 230.64/230.93 37. ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_2 T_3)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (-. (is_aligned T_0 T_3)) (is_aligned T_0 T_2) (organization T_0) ### Equiv 31 36
% 230.64/230.93 38. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_2 T_3))) (is_aligned T_0 T_2) (-. (is_aligned T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 23 24 37
% 230.64/230.93 39. (All T, (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T_2 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (-. (is_aligned T_0 T_3)) (is_aligned T_0 T_2) ### All 38
% 230.64/230.93 40. (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (is_aligned T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) ### All 39
% 230.64/230.93 41. (greater (tau) (sigma)) (-. (greater (tau) (sigma))) ### Axiom
% 230.64/230.93 42. ((age T_0 T_3) != (age T_0 T_3)) ### Refl(=)
% 230.64/230.93 43. (-. (greater (tau) (age T_0 T_3))) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) ### Trans 41 42
% 230.64/230.93 44. (-. (smaller (age T_0 T_3) (tau))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) ### Definition-Pseudo(smaller) 43
% 230.64/230.93 45. (-. ((smaller (age T_0 T_3) (tau)) \/ ((age T_0 T_3) = (tau)))) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) ### NotOr 44
% 230.64/230.93 46. (-. (smaller_or_equal (age T_0 T_3) (tau))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) ### Definition-Pseudo(smaller_or_equal) 45
% 230.64/230.93 47. (positional_advantage T_0 T_3) (-. (positional_advantage T_0 T_3)) ### Axiom
% 230.64/230.93 48. ((smaller_or_equal (age T_0 T_3) (tau)) => (-. (positional_advantage T_0 T_3))) (positional_advantage T_0 T_3) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) ### Imply 46 47
% 230.64/230.93 49. (((smaller_or_equal (age T_0 T_3) (tau)) => (-. (positional_advantage T_0 T_3))) /\ ((greater (age T_0 T_3) (tau)) => (positional_advantage T_0 T_3))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) (positional_advantage T_0 T_3) ### And 48
% 230.64/230.93 50. (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (positional_advantage T_0 T_3) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) ### All 49
% 230.64/230.93 51. ((hazard_of_mortality T_0 T_3) != (mod2)) ((hazard_of_mortality T_0 T_3) = (mod2)) ### Axiom
% 230.64/230.93 52. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) ((hazard_of_mortality T_0 T_3) != (mod2)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 40 50 51
% 230.64/230.94 53. ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((hazard_of_mortality T_0 T_3) != (mod2)) ### ConjTree 52
% 230.64/230.94 54. ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ((hazard_of_mortality T_0 T_3) != (mod2)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 22 53
% 230.64/230.94 55. (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((hazard_of_mortality T_0 T_3) != (mod2)) ### And 54
% 230.64/230.94 56. ((organization T_0) => (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))))) ((hazard_of_mortality T_0 T_3) != (mod2)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 16 55
% 230.64/230.94 57. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((hazard_of_mortality T_0 T_3) != (mod2)) ### All 56
% 230.64/230.94 58. ((mod1) != (mod1)) ### NotEqual
% 230.64/230.94 59. (-. (greater (hazard_of_mortality T_0 T_3) (mod1))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### Trans 57 58
% 230.64/230.98 60. ((hazard_of_mortality T_0 T_1) != (hazard_of_mortality T_0 T_1)) ### Refl(=)
% 230.64/230.98 61. (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) ((hazard_of_mortality T_0 T_1) = (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) ### TransEq2 59 59 60
% 230.64/230.98 62. (((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (-. (is_aligned T_0 T_1)) ### DisjTree 14 15 61
% 230.64/230.98 63. (positional_advantage T_0 T_1) (-. (positional_advantage T_0 T_1)) ### Axiom
% 230.64/230.98 64. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.64/230.98 65. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 230.64/230.98 66. (greater (age T_0 T_1) (sigma)) (-. (greater (age T_0 T_1) (sigma))) ### Axiom
% 230.64/230.98 67. (is_aligned T_0 T_2) (-. (is_aligned T_0 T_2)) ### Axiom
% 230.64/230.98 68. (is_aligned T_0 T_1) (-. (is_aligned T_0 T_1)) ### Axiom
% 230.64/230.98 69. (-. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_1))) (is_aligned T_0 T_1) (is_aligned T_0 T_2) ### NotEquiv 67 68
% 230.64/230.98 70. ((organization T_0) /\ (-. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_1)))) (is_aligned T_0 T_2) (is_aligned T_0 T_1) ### And 69
% 230.64/230.98 71. (dissimilar T_0 T_2 T_1) (is_aligned T_0 T_1) (is_aligned T_0 T_2) ### Definition-Pseudo(dissimilar) 70
% 230.64/230.98 72. ((greater (age T_0 T_1) (sigma)) <=> (dissimilar T_0 T_2 T_1)) (is_aligned T_0 T_2) (is_aligned T_0 T_1) (greater (age T_0 T_1) (sigma)) ### Equiv 66 71
% 230.64/230.98 73. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T_1) (sigma)) <=> (dissimilar T_0 T_2 T_1))) (greater (age T_0 T_1) (sigma)) (is_aligned T_0 T_1) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 64 65 72
% 230.64/230.98 74. (All T, (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T_2 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (is_aligned T_0 T_1) (greater (age T_0 T_1) (sigma)) ### All 73
% 230.64/230.98 75. (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_1) (sigma)) (is_aligned T_0 T_1) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) ### All 74
% 230.64/230.98 76. (smaller (sigma) (age T_0 T_1)) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (is_aligned T_0 T_1) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### Definition-Pseudo(smaller) 75
% 230.64/230.98 77. ((sigma) != (age T_0 T_1)) ((sigma) = (age T_0 T_1)) ### Axiom
% 230.64/230.98 78. (-. (greater (sigma) (age T_0 T_1))) (greater (sigma) (age T_0 T_1)) ### Axiom
% 230.64/230.98 79. ((smaller (sigma) (age T_0 T_1)) \/ (((sigma) = (age T_0 T_1)) \/ (greater (sigma) (age T_0 T_1)))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_1) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 76 77 78
% 230.64/230.98 80. (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (is_aligned T_0 T_1) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) ### All 79
% 230.64/230.98 81. (positional_advantage T_0 T_1) (-. (positional_advantage T_0 T_1)) ### Axiom
% 230.64/230.98 82. ((low) != (low)) ### NotEqual
% 230.64/230.98 83. ((hazard_of_mortality T_0 T_1) = (mod1)) ((hazard_of_mortality T_0 T_1) != (mod1)) ### Axiom
% 230.64/230.98 84. (-. (greater (hazard_of_mortality T_0 T_1) (low))) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_1) = (mod1)) ### Trans 83 82
% 230.64/230.98 85. ((hazard_of_mortality T_0 T_1) = (low)) ((hazard_of_mortality T_0 T_1) != (low)) ### Axiom
% 230.64/230.98 86. (-. (greater (low) (low))) ((hazard_of_mortality T_0 T_1) = (low)) ((hazard_of_mortality T_0 T_1) = (mod1)) (greater (mod1) (low)) ### TransEq2 82 84 85
% 230.64/230.98 87. ((hazard_of_mortality T_0 T_1) = (mod1)) ((hazard_of_mortality T_0 T_1) != (mod1)) ### Axiom
% 230.64/230.98 88. (-. (greater (low) (mod1))) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_1) = (mod1)) ((hazard_of_mortality T_0 T_1) = (low)) ### TransEq2 82 86 87
% 230.64/230.98 89. (-. (greater (mod1) (mod1))) ((hazard_of_mortality T_0 T_1) = (low)) ((hazard_of_mortality T_0 T_1) = (mod1)) (greater (mod1) (low)) ### Trans 58 88
% 230.64/230.98 90. (-. ((greater (mod1) (mod1)) /\ (greater (mod1) (mod1)))) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_1) = (mod1)) ((hazard_of_mortality T_0 T_1) = (low)) ### NotAnd 89 89
% 230.64/230.98 91. (All Y, (-. ((greater (mod1) Y) /\ (greater Y (mod1))))) ((hazard_of_mortality T_0 T_1) = (low)) ((hazard_of_mortality T_0 T_1) = (mod1)) (greater (mod1) (low)) ### All 90
% 230.64/230.98 92. (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_1) = (mod1)) ((hazard_of_mortality T_0 T_1) = (low)) ### All 91
% 230.64/230.98 93. (((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) ((hazard_of_mortality T_0 T_1) = (low)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (positional_advantage T_0 T_1) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ### DisjTree 80 81 92
% 230.75/231.01 94. (((is_aligned T_0 T_1) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (low))) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) ### DisjTree 62 63 93
% 230.75/231.01 95. ((((is_aligned T_0 T_1) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (low))) /\ ((((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) /\ ((((is_aligned T_0 T_1) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (mod2))) /\ (((-. (is_aligned T_0 T_1)) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (high)))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ### ConjTree 94
% 230.75/231.01 96. ((-. (has_immunity T_0 T_1)) => ((((is_aligned T_0 T_1) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (low))) /\ ((((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) /\ ((((is_aligned T_0 T_1) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (mod2))) /\ (((-. (is_aligned T_0 T_1)) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (high))))))) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 13 95
% 230.75/231.01 97. (((has_immunity T_0 T_1) => ((hazard_of_mortality T_0 T_1) = (very_low))) /\ ((-. (has_immunity T_0 T_1)) => ((((is_aligned T_0 T_1) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (low))) /\ ((((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) /\ ((((is_aligned T_0 T_1) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (mod2))) /\ (((-. (is_aligned T_0 T_1)) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ### And 96
% 230.75/231.01 98. ((organization T_0) => (((has_immunity T_0 T_1) => ((hazard_of_mortality T_0 T_1) = (very_low))) /\ ((-. (has_immunity T_0 T_1)) => ((((is_aligned T_0 T_1) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (low))) /\ ((((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) /\ ((((is_aligned T_0 T_1) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (mod2))) /\ (((-. (is_aligned T_0 T_1)) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (high))))))))) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 5 97
% 230.75/231.01 99. (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ### All 98
% 230.75/231.01 100. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 3 4 99
% 230.75/231.01 101. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ### All 100
% 230.75/231.01 102. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### All 101
% 230.75/231.04 103. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ### All 102
% 230.75/231.04 104. (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### All 103
% 230.75/231.04 105. ((greater (age T_0 T_1) (tau)) => (positional_advantage T_0 T_1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) ### Imply 2 104
% 230.75/231.04 106. (((smaller_or_equal (age T_0 T_1) (tau)) => (-. (positional_advantage T_0 T_1))) /\ ((greater (age T_0 T_1) (tau)) => (positional_advantage T_0 T_1))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### And 105
% 230.75/231.04 107. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) ### All 106
% 230.75/231.05 108. (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### All 107
% 230.75/231.05 109. (-. (greater (tau) (age T_0 T_1))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (sigma) (age T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) ### Trans 1 108
% 230.75/231.05 110. (-. (smaller (age T_0 T_1) (tau))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### Definition-Pseudo(smaller) 109
% 230.75/231.05 111. (-. ((smaller (age T_0 T_1) (tau)) \/ ((age T_0 T_1) = (tau)))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (sigma) (age T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) ### NotOr 110
% 230.75/231.05 112. (-. (smaller_or_equal (age T_0 T_1) (tau))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### Definition-Pseudo(smaller_or_equal) 111
% 230.75/231.05 113. (greater (age T_0 T_1) (tau)) (-. (greater (age T_0 T_1) (tau))) ### Axiom
% 230.75/231.05 114. (-. (positional_advantage T_0 T_1)) (positional_advantage T_0 T_1) ### Axiom
% 230.75/231.05 115. ((greater (age T_0 T_1) (tau)) => (positional_advantage T_0 T_1)) (-. (positional_advantage T_0 T_1)) (greater (age T_0 T_1) (tau)) ### Imply 113 114
% 230.75/231.05 116. ((smaller_or_equal (age T_0 T_1) (tau)) => (-. (positional_advantage T_0 T_1))) ((greater (age T_0 T_1) (tau)) => (positional_advantage T_0 T_1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (sigma) (age T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) ### Imply 112 115
% 230.75/231.05 117. (((smaller_or_equal (age T_0 T_1) (tau)) => (-. (positional_advantage T_0 T_1))) /\ ((greater (age T_0 T_1) (tau)) => (positional_advantage T_0 T_1))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### And 116
% 230.75/231.05 118. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (sigma) (age T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) ### All 117
% 230.75/231.05 119. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### All 118
% 230.75/231.05 120. (-. (smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (sigma) (age T_0 T_3)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### Definition-Pseudo(smaller) 119
% 230.75/231.08 121. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.75/231.08 122. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.75/231.08 123. (has_immunity T_0 zenon_X4) (-. (has_immunity T_0 zenon_X4)) ### Axiom
% 230.75/231.08 124. (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 zenon_X4))) (has_immunity T_0 zenon_X4) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### DisjTree 122 8 123
% 230.75/231.08 125. (All T, (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 T)))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (has_immunity T_0 zenon_X4) ### All 124
% 230.75/231.08 126. (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (has_immunity T_0 zenon_X4) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 125
% 230.75/231.08 127. (-. (-. (has_immunity T_0 zenon_X4))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ### NotNot 126
% 230.75/231.08 128. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 230.75/231.08 129. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 230.75/231.08 130. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 230.75/231.08 131. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.75/231.08 132. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 230.75/231.08 133. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.75/231.08 134. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.75/231.08 135. (has_immunity T_0 T_5) (-. (has_immunity T_0 T_5)) ### Axiom
% 230.75/231.08 136. (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 T_5))) (has_immunity T_0 T_5) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### DisjTree 134 8 135
% 230.75/231.08 137. (All T, (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 T)))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (has_immunity T_0 T_5) ### All 136
% 230.75/231.08 138. (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (has_immunity T_0 T_5) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 137
% 230.75/231.08 139. (-. (-. (has_immunity T_0 T_5))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ### NotNot 138
% 230.75/231.08 140. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.75/231.08 141. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 230.75/231.08 142. (greater (age T_0 T_5) (sigma)) (-. (greater (age T_0 T_5) (sigma))) ### Axiom
% 230.75/231.08 143. (is_aligned T_0 T_2) (-. (is_aligned T_0 T_2)) ### Axiom
% 230.75/231.08 144. (is_aligned T_0 T_5) (-. (is_aligned T_0 T_5)) ### Axiom
% 230.75/231.08 145. (-. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_5))) (is_aligned T_0 T_5) (is_aligned T_0 T_2) ### NotEquiv 143 144
% 230.75/231.08 146. ((organization T_0) /\ (-. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_5)))) (is_aligned T_0 T_2) (is_aligned T_0 T_5) ### And 145
% 230.75/231.08 147. (dissimilar T_0 T_2 T_5) (is_aligned T_0 T_5) (is_aligned T_0 T_2) ### Definition-Pseudo(dissimilar) 146
% 230.75/231.08 148. ((greater (age T_0 T_5) (sigma)) <=> (dissimilar T_0 T_2 T_5)) (is_aligned T_0 T_2) (is_aligned T_0 T_5) (greater (age T_0 T_5) (sigma)) ### Equiv 142 147
% 230.75/231.08 149. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T_5) (sigma)) <=> (dissimilar T_0 T_2 T_5))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_5) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 140 141 148
% 230.75/231.08 150. (All T, (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T_2 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (is_aligned T_0 T_5) (greater (age T_0 T_5) (sigma)) ### All 149
% 230.75/231.08 151. (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_5) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) ### All 150
% 230.75/231.08 152. (greater (tau) (age T_0 T_5)) (-. (greater (tau) (age T_0 T_5))) ### Axiom
% 230.75/231.08 153. (-. (smaller (age T_0 T_5) (tau))) (greater (tau) (age T_0 T_5)) ### Definition-Pseudo(smaller) 152
% 230.75/231.08 154. (-. ((smaller (age T_0 T_5) (tau)) \/ ((age T_0 T_5) = (tau)))) (greater (tau) (age T_0 T_5)) ### NotOr 153
% 230.75/231.08 155. (-. (smaller_or_equal (age T_0 T_5) (tau))) (greater (tau) (age T_0 T_5)) ### Definition-Pseudo(smaller_or_equal) 154
% 230.75/231.08 156. (positional_advantage T_0 T_5) (-. (positional_advantage T_0 T_5)) ### Axiom
% 230.75/231.08 157. ((smaller_or_equal (age T_0 T_5) (tau)) => (-. (positional_advantage T_0 T_5))) (positional_advantage T_0 T_5) (greater (tau) (age T_0 T_5)) ### Imply 155 156
% 230.75/231.08 158. (((smaller_or_equal (age T_0 T_5) (tau)) => (-. (positional_advantage T_0 T_5))) /\ ((greater (age T_0 T_5) (tau)) => (positional_advantage T_0 T_5))) (greater (tau) (age T_0 T_5)) (positional_advantage T_0 T_5) ### And 157
% 230.75/231.08 159. (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (positional_advantage T_0 T_5) (greater (tau) (age T_0 T_5)) ### All 158
% 230.75/231.08 160. ((hazard_of_mortality T_0 T_5) != (high)) ((hazard_of_mortality T_0 T_5) = (high)) ### Axiom
% 230.75/231.08 161. (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 151 159 160
% 230.85/231.11 162. ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ### ConjTree 161
% 230.85/231.11 163. ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 139 162
% 230.85/231.11 164. (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ### And 163
% 230.85/231.11 165. ((organization T_0) => (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))))) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 133 164
% 230.85/231.11 166. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ### All 165
% 230.85/231.11 167. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### All 166
% 230.85/231.11 168. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 131 132 167
% 230.85/231.12 169. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### All 168
% 230.85/231.12 170. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### All 169
% 230.85/231.12 171. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### All 170
% 230.85/231.12 172. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 230.85/231.12 173. ((high) != (high)) ### NotEqual
% 230.85/231.12 174. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.85/231.12 175. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 230.85/231.12 176. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.85/231.12 177. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 230.85/231.12 178. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 230.85/231.12 179. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 230.85/231.12 180. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 230.85/231.12 181. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.85/231.12 182. (-. (has_immunity T_0 T_3)) (has_immunity T_0 T_3) ### Axiom
% 230.85/231.12 183. (-. (-. (has_immunity T_0 T_3))) (-. (has_immunity T_0 T_3)) ### NotNot 182
% 230.85/231.12 184. (-. (positional_advantage T_0 T_3)) (positional_advantage T_0 T_3) ### Axiom
% 230.85/231.12 185. ((very_low) != (very_low)) ### NotEqual
% 230.85/231.12 186. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.85/231.12 187. (-. (positional_advantage T_0 T_5)) (positional_advantage T_0 T_5) ### Axiom
% 230.85/231.12 188. ((hazard_of_mortality T_0 T_5) != (high)) ((hazard_of_mortality T_0 T_5) = (high)) ### Axiom
% 230.85/231.12 189. (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))) ((hazard_of_mortality T_0 T_5) != (high)) (-. (positional_advantage T_0 T_5)) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 151 187 188
% 230.85/231.12 190. ((hazard_of_mortality T_0 T_5) != (mod1)) ((hazard_of_mortality T_0 T_5) = (mod1)) ### Axiom
% 230.85/231.12 191. (((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) ((hazard_of_mortality T_0 T_5) != (mod1)) ((hazard_of_mortality T_0 T_5) != (high)) (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 151 189 190
% 230.85/231.12 192. ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) ((hazard_of_mortality T_0 T_5) != (high)) ((hazard_of_mortality T_0 T_5) != (mod1)) ### ConjTree 191
% 230.85/231.12 193. ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))) ((hazard_of_mortality T_0 T_5) != (mod1)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 139 192
% 230.85/231.15 194. (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) ((hazard_of_mortality T_0 T_5) != (mod1)) ### And 193
% 230.85/231.15 195. ((organization T_0) => (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))))) ((hazard_of_mortality T_0 T_5) != (mod1)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 186 194
% 230.85/231.15 196. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) ((hazard_of_mortality T_0 T_5) != (mod1)) ### All 195
% 230.85/231.15 197. (-. (greater (very_low) (mod1))) (greater (very_low) (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### Trans 185 196
% 230.85/231.15 198. (smaller (hazard_of_mortality T_0 T_5) (very_low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (very_low) (mod1))) ### Definition-Pseudo(smaller) 197
% 230.85/231.15 199. ((hazard_of_mortality T_0 T_5) = (very_low)) ((very_low) != (hazard_of_mortality T_0 T_5)) ### Sym(=)
% 230.85/231.15 200. ((hazard_of_mortality T_0 T_5) != (hazard_of_mortality T_0 T_5)) ### Refl(=)
% 230.85/231.15 201. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_5))) (greater (mod1) (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### Trans 196 200
% 230.85/231.15 202. ((hazard_of_mortality T_0 T_5) != (hazard_of_mortality T_0 T_5)) ### Refl(=)
% 230.85/231.15 203. (-. (greater (very_low) (hazard_of_mortality T_0 T_5))) ((hazard_of_mortality T_0 T_5) = (very_low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (mod1) (hazard_of_mortality T_0 T_5)) ### TransEq2 185 201 202
% 230.85/231.18 204. (-. (greater (very_low) (very_low))) (greater (mod1) (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((hazard_of_mortality T_0 T_5) = (very_low)) ### TransEq 199 203 185
% 230.85/231.18 205. (-. (greater (low) (mod1))) (greater (low) (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### Trans 82 196
% 230.85/231.18 206. (smaller (hazard_of_mortality T_0 T_5) (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (low) (mod1))) ### Definition-Pseudo(smaller) 205
% 230.85/231.18 207. ((hazard_of_mortality T_0 T_5) != (hazard_of_mortality T_0 T_5)) ### Refl(=)
% 230.85/231.18 208. ((hazard_of_mortality T_0 T_5) != (hazard_of_mortality T_0 T_5)) ### Refl(=)
% 230.85/231.18 209. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.85/231.18 210. (-. (has_immunity T_0 T_5)) (has_immunity T_0 T_5) ### Axiom
% 230.85/231.18 211. (-. (-. (has_immunity T_0 T_5))) (-. (has_immunity T_0 T_5)) ### NotNot 210
% 230.85/231.18 212. ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))) ((hazard_of_mortality T_0 T_5) != (mod1)) ((hazard_of_mortality T_0 T_5) != (high)) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (has_immunity T_0 T_5)) ### Imply 211 192
% 230.85/231.18 213. ((very_low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) = (very_low)) ### Sym(=)
% 230.85/231.18 214. ((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) ((very_low) != (hazard_of_mortality T_0 T_5)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) ((hazard_of_mortality T_0 T_5) != (high)) ((hazard_of_mortality T_0 T_5) != (mod1)) ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))) ### Imply 212 213
% 230.85/231.18 215. (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))))) ((hazard_of_mortality T_0 T_5) != (mod1)) ((hazard_of_mortality T_0 T_5) != (high)) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_5)) ### And 214
% 230.85/231.18 216. ((organization T_0) => (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))))) ((very_low) != (hazard_of_mortality T_0 T_5)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) ((hazard_of_mortality T_0 T_5) != (mod1)) (organization T_0) ### Imply 209 215
% 230.95/231.19 217. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) ((hazard_of_mortality T_0 T_5) != (mod1)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_5)) ### All 216
% 230.95/231.19 218. (-. (greater (low) (hazard_of_mortality T_0 T_5))) (greater (low) (very_low)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) ((hazard_of_mortality T_0 T_5) != (mod1)) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### Trans 82 217
% 230.95/231.19 219. ((hazard_of_mortality T_0 T_5) = (low)) ((low) != (hazard_of_mortality T_0 T_5)) ### Sym(=)
% 230.95/231.19 220. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_5))) ((hazard_of_mortality T_0 T_5) = (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) ((hazard_of_mortality T_0 T_5) != (mod1)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (low) (very_low)) ### TransEq 208 218 219
% 230.95/231.19 221. (-. (greater (hazard_of_mortality T_0 T_5) (low))) (greater (low) (very_low)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) ((hazard_of_mortality T_0 T_5) != (mod1)) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((hazard_of_mortality T_0 T_5) = (low)) ### TransEq 207 220 82
% 230.95/231.19 222. (greater (mod1) (low)) ((hazard_of_mortality T_0 T_5) = (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (low) (very_low)) (-. (greater (hazard_of_mortality T_0 T_5) (low))) ### Trans 221 82
% 230.95/231.19 223. ((hazard_of_mortality T_0 T_5) = (low)) ((hazard_of_mortality T_0 T_5) != (low)) ### Axiom
% 230.95/231.19 224. (-. (greater (low) (low))) (greater (low) (very_low)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((hazard_of_mortality T_0 T_5) = (low)) (greater (mod1) (low)) ### TransEq2 82 222 223
% 230.95/231.19 225. (-. (greater (low) (mod1))) ((very_low) != (hazard_of_mortality T_0 T_5)) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_5) = (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (low) (very_low)) ### TransEq2 224 224 217
% 230.95/231.19 226. (organization T_0) (-. (organization T_0)) ### Axiom
% 230.95/231.19 227. (-. (is_aligned T_0 T_5)) (is_aligned T_0 T_5) ### Axiom
% 230.95/231.19 228. ((hazard_of_mortality T_0 T_5) != (high)) ((hazard_of_mortality T_0 T_5) = (high)) ### Axiom
% 230.95/231.19 229. (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (is_aligned T_0 T_5)) ### DisjTree 227 159 228
% 230.95/231.22 230. ((low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) = (low)) ### Sym(=)
% 230.95/231.22 231. (((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) ((low) != (hazard_of_mortality T_0 T_5)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))) ### DisjTree 229 189 230
% 230.95/231.22 232. ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((low) != (hazard_of_mortality T_0 T_5)) ### ConjTree 231
% 230.95/231.22 233. ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))) ((low) != (hazard_of_mortality T_0 T_5)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (has_immunity T_0 T_5)) ### Imply 211 232
% 230.95/231.22 234. ((very_low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) = (very_low)) ### Sym(=)
% 230.95/231.22 235. ((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) ((very_low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((low) != (hazard_of_mortality T_0 T_5)) ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))) ### Imply 233 234
% 230.95/231.22 236. (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))))) ((low) != (hazard_of_mortality T_0 T_5)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ((very_low) != (hazard_of_mortality T_0 T_5)) ### And 235
% 230.95/231.22 237. ((organization T_0) => (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))))) ((very_low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((low) != (hazard_of_mortality T_0 T_5)) (organization T_0) ### Imply 226 236
% 230.95/231.22 238. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) ((low) != (hazard_of_mortality T_0 T_5)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ((very_low) != (hazard_of_mortality T_0 T_5)) ### All 237
% 230.95/231.22 239. (-. (greater (low) (hazard_of_mortality T_0 T_5))) (greater (low) (very_low)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((low) != (hazard_of_mortality T_0 T_5)) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### Trans 82 238
% 230.95/231.26 240. (-. (greater (low) (low))) (greater (hazard_of_mortality T_0 T_5) (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (low) (very_low)) ### Trans 239 82
% 230.95/231.26 241. ((smaller (hazard_of_mortality T_0 T_5) (low)) \/ (((hazard_of_mortality T_0 T_5) = (low)) \/ (greater (hazard_of_mortality T_0 T_5) (low)))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) ((very_low) != (hazard_of_mortality T_0 T_5)) (-. (greater (low) (mod1))) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### DisjTree 206 225 240
% 230.95/231.26 242. (All Y, ((smaller (hazard_of_mortality T_0 T_5) Y) \/ (((hazard_of_mortality T_0 T_5) = Y) \/ (greater (hazard_of_mortality T_0 T_5) Y)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (low) (mod1))) ((very_low) != (hazard_of_mortality T_0 T_5)) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ### All 241
% 230.95/231.26 243. (-. (greater (very_low) (very_low))) (greater (hazard_of_mortality T_0 T_5) (very_low)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All Y, ((smaller (hazard_of_mortality T_0 T_5) Y) \/ (((hazard_of_mortality T_0 T_5) = Y) \/ (greater (hazard_of_mortality T_0 T_5) Y)))) ### Trans 242 185
% 230.95/231.26 244. ((smaller (hazard_of_mortality T_0 T_5) (very_low)) \/ (((hazard_of_mortality T_0 T_5) = (very_low)) \/ (greater (hazard_of_mortality T_0 T_5) (very_low)))) (All Y, ((smaller (hazard_of_mortality T_0 T_5) Y) \/ (((hazard_of_mortality T_0 T_5) = Y) \/ (greater (hazard_of_mortality T_0 T_5) Y)))) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (mod1) (hazard_of_mortality T_0 T_5)) (-. (greater (very_low) (very_low))) (-. (greater (very_low) (mod1))) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### DisjTree 198 204 243
% 230.95/231.27 245. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (very_low) (mod1))) (-. (greater (very_low) (very_low))) (greater (mod1) (hazard_of_mortality T_0 T_5)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (All Y, ((smaller (hazard_of_mortality T_0 T_5) Y) \/ (((hazard_of_mortality T_0 T_5) = Y) \/ (greater (hazard_of_mortality T_0 T_5) Y)))) ### All 244
% 230.95/231.27 246. (smaller (hazard_of_mortality T_0 T_5) (mod1)) (All Y, ((smaller (hazard_of_mortality T_0 T_5) Y) \/ (((hazard_of_mortality T_0 T_5) = Y) \/ (greater (hazard_of_mortality T_0 T_5) Y)))) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (very_low))) (-. (greater (very_low) (mod1))) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### Definition-Pseudo(smaller) 245
% 230.95/231.27 247. ((hazard_of_mortality T_0 T_5) != (hazard_of_mortality T_0 T_5)) ### Refl(=)
% 230.95/231.27 248. ((hazard_of_mortality T_0 T_5) != (hazard_of_mortality T_0 T_5)) ### Refl(=)
% 230.95/231.27 249. (-. (greater (mod1) (hazard_of_mortality T_0 T_5))) (greater (mod1) (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (low) (very_low)) (-. (greater (low) (hazard_of_mortality T_0 T_5))) ### Trans 58 239
% 230.95/231.27 250. ((hazard_of_mortality T_0 T_5) = (mod1)) ((mod1) != (hazard_of_mortality T_0 T_5)) ### Sym(=)
% 230.95/231.27 251. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_5))) ((hazard_of_mortality T_0 T_5) = (mod1)) (-. (greater (low) (hazard_of_mortality T_0 T_5))) (greater (low) (very_low)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod1) (low)) ### TransEq 248 249 250
% 230.95/231.27 252. (-. (greater (hazard_of_mortality T_0 T_5) (mod1))) (greater (mod1) (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (low) (very_low)) (-. (greater (low) (hazard_of_mortality T_0 T_5))) ((hazard_of_mortality T_0 T_5) = (mod1)) ### TransEq 247 251 58
% 230.95/231.27 253. ((hazard_of_mortality T_0 T_5) = (mod1)) ((hazard_of_mortality T_0 T_5) != (mod1)) ### Axiom
% 230.95/231.27 254. (-. (greater (mod1) (mod1))) ((hazard_of_mortality T_0 T_5) = (mod1)) (-. (greater (low) (hazard_of_mortality T_0 T_5))) (greater (low) (very_low)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod1) (low)) ### TransEq2 58 252 253
% 231.05/231.29 255. (-. (greater (low) (mod1))) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_5) = (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (low) (very_low)) ### TransEq 239 254 58
% 231.05/231.29 256. (-. (greater (low) (mod1))) (greater (hazard_of_mortality T_0 T_5) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (low) (very_low)) ### Trans 239 58
% 231.05/231.29 257. ((smaller (hazard_of_mortality T_0 T_5) (mod1)) \/ (((hazard_of_mortality T_0 T_5) = (mod1)) \/ (greater (hazard_of_mortality T_0 T_5) (mod1)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (very_low) (mod1))) (-. (greater (very_low) (very_low))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (All Y, ((smaller (hazard_of_mortality T_0 T_5) Y) \/ (((hazard_of_mortality T_0 T_5) = Y) \/ (greater (hazard_of_mortality T_0 T_5) Y)))) ### DisjTree 246 255 256
% 231.05/231.29 258. (All Y, ((smaller (hazard_of_mortality T_0 T_5) Y) \/ (((hazard_of_mortality T_0 T_5) = Y) \/ (greater (hazard_of_mortality T_0 T_5) Y)))) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (very_low))) (-. (greater (very_low) (mod1))) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### All 257
% 231.05/231.29 259. (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (very_low) (mod1))) (-. (greater (very_low) (very_low))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) ### All 258
% 231.05/231.29 260. ((mod2) != (mod2)) ### NotEqual
% 231.05/231.29 261. (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (greater (high) (mod2)) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (very_low))) (-. (greater (very_low) (mod1))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### Trans 259 260
% 231.08/231.32 262. (-. ((greater (low) (low)) /\ (greater (low) (low)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (-. (greater (very_low) (mod1))) (-. (greater (very_low) (very_low))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) ### NotAnd 261 261
% 231.08/231.32 263. (All Y, (-. ((greater (low) Y) /\ (greater Y (low))))) (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (greater (high) (mod2)) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (very_low))) (-. (greater (very_low) (mod1))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### All 262
% 231.08/231.32 264. (-. ((greater (very_low) (very_low)) /\ (greater (very_low) (very_low)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (-. (greater (very_low) (mod1))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (All Y, (-. ((greater (low) Y) /\ (greater Y (low))))) ### NotAnd 263 263
% 231.08/231.32 265. (All Y, (-. ((greater (very_low) Y) /\ (greater Y (very_low))))) (All Y, (-. ((greater (low) Y) /\ (greater Y (low))))) (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (greater (high) (mod2)) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (mod1))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### All 264
% 231.08/231.32 266. (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (-. (greater (very_low) (mod1))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (All Y, (-. ((greater (low) Y) /\ (greater Y (low))))) ### All 265
% 231.08/231.33 267. (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (greater (high) (mod2)) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (mod1))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ### All 266
% 231.08/231.33 268. (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) ### Trans 82 267
% 231.08/231.33 269. (-. (greater (mod1) (mod1))) (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ### Trans 58 268
% 231.08/231.33 270. (-. ((greater (mod1) (mod1)) /\ (greater (mod1) (mod1)))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) ### NotAnd 269 269
% 231.08/231.33 271. (All Y, (-. ((greater (mod1) Y) /\ (greater Y (mod1))))) (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ### All 270
% 231.08/231.36 272. (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) ### All 271
% 231.08/231.36 273. ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_3)) ### Refl(=)
% 231.08/231.36 274. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 T_3) = (mod2)) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ### TransEq2 272 272 273
% 231.08/231.36 275. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (-. (positional_advantage T_0 T_3)) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 40 184 274
% 231.08/231.36 276. ((low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (low)) ### Sym(=)
% 231.08/231.36 277. (((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 40 275 276
% 231.08/231.36 278. ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) ### ConjTree 277
% 231.08/231.38 279. ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (has_immunity T_0 T_3)) ### Imply 183 278
% 231.08/231.38 280. ((very_low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (very_low)) ### Sym(=)
% 231.08/231.38 281. ((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ### Imply 279 280
% 231.08/231.38 282. (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### And 281
% 231.08/231.38 283. ((organization T_0) => (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) (organization T_0) ### Imply 181 282
% 231.17/231.40 284. (organization T_0) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### All 283
% 231.17/231.40 285. (-. (greater (mod1) (hazard_of_mortality T_0 T_3))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (organization T_0) ### Trans 58 284
% 231.17/231.40 286. (-. (greater (high) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (organization T_0) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### Trans 173 285
% 231.17/231.40 287. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (high)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (organization T_0) (greater (high) (mod1)) ### TransEq 180 286 286
% 231.17/231.40 288. (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 zenon_X4) = (high)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### TransEq2 171 287 287
% 231.17/231.40 289. (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (-. (positional_advantage T_0 zenon_X4)) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 178 179 288
% 231.17/231.40 290. (-. (greater (hazard_of_mortality T_0 T_5) (mod1))) (greater (high) (mod1)) ((hazard_of_mortality T_0 T_5) != (mod1)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### Trans 196 58
% 231.17/231.40 291. (-. (greater (hazard_of_mortality T_0 T_5) (mod1))) (greater (high) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ### Trans 167 58
% 231.17/231.43 292. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 231.17/231.43 293. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (organization T_0) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### TransEq 292 285 285
% 231.17/231.43 294. ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (greater (high) (mod1)) ### TransEq2 290 291 293
% 231.17/231.43 295. (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 177 289 294
% 231.17/231.43 296. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 231.17/231.43 297. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.17/231.43 298. ((hazard_of_mortality T_0 T_5) != (mod2)) ((hazard_of_mortality T_0 T_5) = (mod2)) ### Axiom
% 231.17/231.43 299. (((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) ((hazard_of_mortality T_0 T_5) != (mod2)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))) ### DisjTree 229 159 298
% 231.17/231.43 300. ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((hazard_of_mortality T_0 T_5) != (mod2)) ### ConjTree 299
% 231.17/231.45 301. ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))) ((hazard_of_mortality T_0 T_5) != (mod2)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 139 300
% 231.17/231.45 302. (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((hazard_of_mortality T_0 T_5) != (mod2)) ### And 301
% 231.17/231.45 303. ((organization T_0) => (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))))) ((hazard_of_mortality T_0 T_5) != (mod2)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 297 302
% 231.17/231.45 304. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_5) != (high)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((hazard_of_mortality T_0 T_5) != (mod2)) ### All 303
% 231.17/231.45 305. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((hazard_of_mortality T_0 T_5) != (mod2)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 304
% 231.17/231.45 306. (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (greater (high) (mod2)) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((hazard_of_mortality T_0 T_5) != (mod2)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### Trans 305 260
% 231.17/231.45 307. (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (greater (high) (mod2)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ### Trans 167 260
% 231.17/231.45 308. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 231.17/231.47 309. (-. (greater (mod2) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (organization T_0) ### Trans 260 284
% 231.17/231.47 310. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.17/231.47 311. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 231.17/231.47 312. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.17/231.47 313. (-. (positional_advantage T_0 T_3)) (positional_advantage T_0 T_3) ### Axiom
% 231.17/231.47 314. ((mod2) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (mod2)) ### Sym(=)
% 231.17/231.47 315. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) ((mod2) != (hazard_of_mortality T_0 T_3)) (-. (positional_advantage T_0 T_3)) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 40 313 314
% 231.17/231.47 316. ((low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (low)) ### Sym(=)
% 231.17/231.47 317. (((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) ((low) != (hazard_of_mortality T_0 T_3)) ((mod2) != (hazard_of_mortality T_0 T_3)) (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 40 315 316
% 231.17/231.47 318. ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) ((mod2) != (hazard_of_mortality T_0 T_3)) ((low) != (hazard_of_mortality T_0 T_3)) ### ConjTree 317
% 231.17/231.47 319. ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ((low) != (hazard_of_mortality T_0 T_3)) ((mod2) != (hazard_of_mortality T_0 T_3)) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (has_immunity T_0 T_3)) ### Imply 183 318
% 231.17/231.47 320. ((very_low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (very_low)) ### Sym(=)
% 231.17/231.47 321. ((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) ((mod2) != (hazard_of_mortality T_0 T_3)) ((low) != (hazard_of_mortality T_0 T_3)) ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ### Imply 319 320
% 231.17/231.47 322. (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))))) ((low) != (hazard_of_mortality T_0 T_3)) ((mod2) != (hazard_of_mortality T_0 T_3)) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### And 321
% 231.17/231.47 323. ((organization T_0) => (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) ((mod2) != (hazard_of_mortality T_0 T_3)) ((low) != (hazard_of_mortality T_0 T_3)) (organization T_0) ### Imply 312 322
% 231.17/231.47 324. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) ((low) != (hazard_of_mortality T_0 T_3)) ((mod2) != (hazard_of_mortality T_0 T_3)) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### All 323
% 231.25/231.50 325. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((mod2) != (hazard_of_mortality T_0 T_3)) ((low) != (hazard_of_mortality T_0 T_3)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 310 311 324
% 231.25/231.50 326. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((low) != (hazard_of_mortality T_0 T_3)) ((mod2) != (hazard_of_mortality T_0 T_3)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### All 325
% 231.25/231.50 327. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((mod2) != (hazard_of_mortality T_0 T_3)) ((low) != (hazard_of_mortality T_0 T_3)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### All 326
% 231.25/231.50 328. (-. (greater (mod2) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((mod2) != (hazard_of_mortality T_0 T_3)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ### Trans 260 327
% 231.25/231.50 329. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (mod2) (low)) ### TransEq 308 309 328
% 231.25/231.50 330. (greater (mod2) (low)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (greater (high) (mod2)) ### TransEq2 306 307 329
% 231.25/231.51 331. (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (greater (mod2) (low)) (-. (positional_advantage T_0 zenon_X4)) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) ### DisjTree 289 296 330
% 231.25/231.51 332. (-. (greater (hazard_of_mortality T_0 T_5) (low))) (greater (mod1) (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (greater (high) (mod1)) ### Trans 290 82
% 231.25/231.51 333. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 231.25/231.51 334. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 zenon_X4))) ((hazard_of_mortality T_0 zenon_X4) = (low)) (greater (high) (mod1)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod1) (low)) ### TransEq2 332 332 333
% 231.25/231.51 335. ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod1) (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (greater (high) (mod1)) ((hazard_of_mortality T_0 zenon_X4) = (low)) ### TransEq 334 334 284
% 231.25/231.54 336. (((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) (greater (mod2) (low)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) ### DisjTree 295 331 335
% 231.25/231.54 337. ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (greater (mod2) (low)) ### ConjTree 336
% 231.25/231.54 338. ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))) (greater (mod2) (low)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 127 337
% 231.25/231.54 339. (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (greater (mod2) (low)) ### And 338
% 231.25/231.54 340. ((organization T_0) => (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))))) (greater (mod2) (low)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 176 339
% 231.25/231.54 341. (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (greater (mod2) (low)) ### All 340
% 231.25/231.57 342. (greater (mod2) (low)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 341
% 231.25/231.57 343. (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (greater (mod2) (low)) ### All 342
% 231.25/231.57 344. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (greater (mod2) (low)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 174 175 343
% 231.25/231.57 345. (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (greater (mod2) (low)) ### All 344
% 231.35/231.58 346. (greater (mod2) (low)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### All 345
% 231.35/231.58 347. (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### All 346
% 231.35/231.58 348. (-. (greater (low) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### Trans 82 347
% 231.35/231.58 349. (-. (greater (mod1) (hazard_of_mortality T_0 T_3))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### Trans 58 348
% 231.35/231.58 350. (-. (greater (high) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### Trans 173 349
% 231.35/231.58 351. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (high)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### TransEq 172 350 350
% 231.35/231.58 352. (greater (mod2) (low)) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) ((hazard_of_mortality T_0 zenon_X4) = (high)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### TransEq2 171 351 351
% 231.35/231.58 353. (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (greater (mod2) (low)) (-. (positional_advantage T_0 zenon_X4)) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 129 130 352
% 231.35/231.58 354. (-. (greater (hazard_of_mortality T_0 T_5) (mod1))) (greater (mod2) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (greater (high) (mod2)) ### Trans 306 58
% 231.35/231.58 355. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 231.37/231.60 356. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### TransEq 355 349 349
% 231.37/231.60 357. ((age T_0 T_2) = (zero)) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (greater (age T_0 T_5) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (greater (high) (mod2)) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (mod2) (mod1)) ### TransEq2 354 354 356
% 231.37/231.60 358. (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) (greater (mod2) (mod1)) (greater (mod2) (low)) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 128 353 357
% 231.37/231.60 359. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 231.37/231.60 360. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 231.37/231.60 361. (-. (greater (mod2) (hazard_of_mortality T_0 T_3))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### Trans 260 348
% 231.37/231.60 362. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### TransEq 360 361 361
% 231.37/231.61 363. ((age T_0 T_2) = (zero)) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (greater (age T_0 T_5) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (greater (high) (mod2)) ### TransEq2 306 362 362
% 231.37/231.61 364. (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (-. (positional_advantage T_0 zenon_X4)) (greater (mod2) (low)) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) ### DisjTree 353 359 363
% 231.37/231.61 365. (-. (greater (hazard_of_mortality T_0 T_5) (low))) (greater (mod1) (low)) (greater (high) (mod2)) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (mod2) (mod1)) ### Trans 354 82
% 231.37/231.61 366. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 231.37/231.61 367. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (low)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### TransEq 366 348 348
% 231.37/231.61 368. (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (age T_0 T_5) (sigma)) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 zenon_X4) = (low)) (greater (mod2) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (greater (high) (mod2)) (greater (mod1) (low)) ### TransEq2 365 365 367
% 231.37/231.61 369. (((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (greater (mod2) (low)) (greater (mod2) (mod1)) (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) ### DisjTree 358 364 368
% 231.37/231.61 370. ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))) (greater (mod2) (mod1)) (greater (mod2) (low)) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### ConjTree 369
% 231.37/231.61 371. ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (greater (mod2) (low)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 127 370
% 231.37/231.61 372. (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (mod2) (low)) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### And 371
% 231.40/231.64 373. ((organization T_0) => (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (greater (mod2) (low)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 121 372
% 231.40/231.64 374. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (mod2) (low)) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### All 373
% 231.40/231.64 375. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (high) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (sigma) (age T_0 T_3)) (greater (mod2) (low)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 374
% 231.40/231.64 376. (-. (smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (mod2) (low)) (greater (sigma) (age T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### Definition-Pseudo(smaller) 375
% 231.40/231.65 377. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.40/231.65 378. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 231.40/231.65 379. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.40/231.65 380. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 231.40/231.65 381. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.40/231.65 382. (is_aligned T_0 T_2) (-. (is_aligned T_0 T_2)) ### Axiom
% 231.40/231.65 383. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.40/231.65 384. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 231.40/231.65 385. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.40/231.65 386. (is_aligned T_0 T_3) (-. (is_aligned T_0 T_3)) ### Axiom
% 231.40/231.65 387. (is_aligned T_0 T_3) (-. (is_aligned T_0 T_3)) ### Axiom
% 231.40/231.65 388. (-. (positional_advantage T_0 T_3)) (positional_advantage T_0 T_3) ### Axiom
% 231.40/231.65 389. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.40/231.65 390. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.40/231.65 391. (has_immunity T_0 T_2) (-. (has_immunity T_0 T_2)) ### Axiom
% 231.40/231.65 392. (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 T_2))) (has_immunity T_0 T_2) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### DisjTree 390 8 391
% 231.40/231.65 393. (All T, (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 T)))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (has_immunity T_0 T_2) ### All 392
% 231.40/231.65 394. (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (has_immunity T_0 T_2) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 393
% 231.40/231.65 395. (-. (-. (has_immunity T_0 T_2))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ### NotNot 394
% 231.40/231.65 396. (is_aligned T_0 T_2) (-. (is_aligned T_0 T_2)) ### Axiom
% 231.40/231.65 397. ((age T_0 T_2) = (zero)) ((zero) != (age T_0 T_2)) ### Sym(=)
% 231.40/231.65 398. (-. (greater (tau) (age T_0 T_2))) (greater (tau) (zero)) ((age T_0 T_2) = (zero)) ### Trans 1 397
% 231.40/231.65 399. (-. (smaller (age T_0 T_2) (tau))) ((age T_0 T_2) = (zero)) (greater (tau) (zero)) ### Definition-Pseudo(smaller) 398
% 231.40/231.65 400. (-. ((smaller (age T_0 T_2) (tau)) \/ ((age T_0 T_2) = (tau)))) (greater (tau) (zero)) ((age T_0 T_2) = (zero)) ### NotOr 399
% 231.40/231.65 401. (-. (smaller_or_equal (age T_0 T_2) (tau))) ((age T_0 T_2) = (zero)) (greater (tau) (zero)) ### Definition-Pseudo(smaller_or_equal) 400
% 231.40/231.65 402. (positional_advantage T_0 T_2) (-. (positional_advantage T_0 T_2)) ### Axiom
% 231.40/231.65 403. ((smaller_or_equal (age T_0 T_2) (tau)) => (-. (positional_advantage T_0 T_2))) (positional_advantage T_0 T_2) (greater (tau) (zero)) ((age T_0 T_2) = (zero)) ### Imply 401 402
% 231.40/231.65 404. (((smaller_or_equal (age T_0 T_2) (tau)) => (-. (positional_advantage T_0 T_2))) /\ ((greater (age T_0 T_2) (tau)) => (positional_advantage T_0 T_2))) ((age T_0 T_2) = (zero)) (greater (tau) (zero)) (positional_advantage T_0 T_2) ### And 403
% 231.40/231.65 405. (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (positional_advantage T_0 T_2) (greater (tau) (zero)) ((age T_0 T_2) = (zero)) ### All 404
% 231.40/231.65 406. ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_3)) ### Refl(=)
% 231.40/231.65 407. ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_3)) ### Refl(=)
% 231.40/231.65 408. ((hazard_of_mortality T_0 T_2) = (mod2)) ((mod2) != (hazard_of_mortality T_0 T_2)) ### Sym(=)
% 231.40/231.65 409. ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ((hazard_of_mortality T_0 T_3) = (mod2)) ((hazard_of_mortality T_0 T_2) = (mod2)) ### TransEq 406 407 408
% 231.40/231.65 410. (((is_aligned T_0 T_2) /\ (-. (positional_advantage T_0 T_2))) => ((hazard_of_mortality T_0 T_2) = (mod2))) ((hazard_of_mortality T_0 T_3) = (mod2)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ((age T_0 T_2) = (zero)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (is_aligned T_0 T_2) ### DisjTree 396 405 409
% 231.40/231.65 411. ((((is_aligned T_0 T_2) /\ (positional_advantage T_0 T_2)) => ((hazard_of_mortality T_0 T_2) = (low))) /\ ((((-. (is_aligned T_0 T_2)) /\ (positional_advantage T_0 T_2)) => ((hazard_of_mortality T_0 T_2) = (mod1))) /\ ((((is_aligned T_0 T_2) /\ (-. (positional_advantage T_0 T_2))) => ((hazard_of_mortality T_0 T_2) = (mod2))) /\ (((-. (is_aligned T_0 T_2)) /\ (-. (positional_advantage T_0 T_2))) => ((hazard_of_mortality T_0 T_2) = (high)))))) (is_aligned T_0 T_2) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ((hazard_of_mortality T_0 T_3) = (mod2)) ### ConjTree 410
% 231.40/231.65 412. ((-. (has_immunity T_0 T_2)) => ((((is_aligned T_0 T_2) /\ (positional_advantage T_0 T_2)) => ((hazard_of_mortality T_0 T_2) = (low))) /\ ((((-. (is_aligned T_0 T_2)) /\ (positional_advantage T_0 T_2)) => ((hazard_of_mortality T_0 T_2) = (mod1))) /\ ((((is_aligned T_0 T_2) /\ (-. (positional_advantage T_0 T_2))) => ((hazard_of_mortality T_0 T_2) = (mod2))) /\ (((-. (is_aligned T_0 T_2)) /\ (-. (positional_advantage T_0 T_2))) => ((hazard_of_mortality T_0 T_2) = (high))))))) ((hazard_of_mortality T_0 T_3) = (mod2)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ((age T_0 T_2) = (zero)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (is_aligned T_0 T_2) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 395 411
% 231.40/231.65 413. (((has_immunity T_0 T_2) => ((hazard_of_mortality T_0 T_2) = (very_low))) /\ ((-. (has_immunity T_0 T_2)) => ((((is_aligned T_0 T_2) /\ (positional_advantage T_0 T_2)) => ((hazard_of_mortality T_0 T_2) = (low))) /\ ((((-. (is_aligned T_0 T_2)) /\ (positional_advantage T_0 T_2)) => ((hazard_of_mortality T_0 T_2) = (mod1))) /\ ((((is_aligned T_0 T_2) /\ (-. (positional_advantage T_0 T_2))) => ((hazard_of_mortality T_0 T_2) = (mod2))) /\ (((-. (is_aligned T_0 T_2)) /\ (-. (positional_advantage T_0 T_2))) => ((hazard_of_mortality T_0 T_2) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (is_aligned T_0 T_2) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ((hazard_of_mortality T_0 T_3) = (mod2)) ### And 412
% 231.40/231.68 414. ((organization T_0) => (((has_immunity T_0 T_2) => ((hazard_of_mortality T_0 T_2) = (very_low))) /\ ((-. (has_immunity T_0 T_2)) => ((((is_aligned T_0 T_2) /\ (positional_advantage T_0 T_2)) => ((hazard_of_mortality T_0 T_2) = (low))) /\ ((((-. (is_aligned T_0 T_2)) /\ (positional_advantage T_0 T_2)) => ((hazard_of_mortality T_0 T_2) = (mod1))) /\ ((((is_aligned T_0 T_2) /\ (-. (positional_advantage T_0 T_2))) => ((hazard_of_mortality T_0 T_2) = (mod2))) /\ (((-. (is_aligned T_0 T_2)) /\ (-. (positional_advantage T_0 T_2))) => ((hazard_of_mortality T_0 T_2) = (high))))))))) ((hazard_of_mortality T_0 T_3) = (mod2)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ((age T_0 T_2) = (zero)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (is_aligned T_0 T_2) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 389 413
% 231.40/231.68 415. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (is_aligned T_0 T_2) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ((hazard_of_mortality T_0 T_3) = (mod2)) ### All 414
% 231.40/231.68 416. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ((age T_0 T_2) = (zero)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (is_aligned T_0 T_2) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (positional_advantage T_0 T_3)) (is_aligned T_0 T_3) ### DisjTree 387 388 415
% 231.40/231.68 417. (is_aligned T_0 T_3) (-. (is_aligned T_0 T_3)) ### Axiom
% 231.40/231.68 418. ((hazard_of_mortality T_0 T_3) = (low)) ((low) != (hazard_of_mortality T_0 T_3)) ### Sym(=)
% 231.40/231.68 419. (-. (greater (mod1) (hazard_of_mortality T_0 T_3))) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_3) = (low)) ### Trans 58 418
% 231.40/231.68 420. (-. (greater (mod1) (mod2))) ((hazard_of_mortality T_0 T_3) = (mod2)) ((hazard_of_mortality T_0 T_3) = (low)) (greater (mod1) (low)) ### TransEq 419 419 260
% 231.40/231.68 421. (-. (greater (mod1) (mod1))) (greater (mod2) (mod1)) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_3) = (low)) ((hazard_of_mortality T_0 T_3) = (mod2)) ### Trans 420 58
% 231.40/231.68 422. (-. ((greater (mod1) (mod1)) /\ (greater (mod1) (mod1)))) ((hazard_of_mortality T_0 T_3) = (mod2)) ((hazard_of_mortality T_0 T_3) = (low)) (greater (mod1) (low)) (greater (mod2) (mod1)) ### NotAnd 421 421
% 231.40/231.68 423. (All Y, (-. ((greater (mod1) Y) /\ (greater Y (mod1))))) (greater (mod2) (mod1)) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_3) = (low)) ((hazard_of_mortality T_0 T_3) = (mod2)) ### All 422
% 231.40/231.68 424. (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((hazard_of_mortality T_0 T_3) = (mod2)) ((hazard_of_mortality T_0 T_3) = (low)) (greater (mod1) (low)) (greater (mod2) (mod1)) ### All 423
% 231.40/231.68 425. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (greater (mod2) (mod1)) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_3) = (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (is_aligned T_0 T_3) ### DisjTree 417 50 424
% 231.40/231.68 426. (((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (is_aligned T_0 T_2) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (is_aligned T_0 T_3) ### DisjTree 386 416 425
% 231.40/231.68 427. ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))) (is_aligned T_0 T_3) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ((age T_0 T_2) = (zero)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (is_aligned T_0 T_2) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) ### ConjTree 426
% 231.48/231.71 428. ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (is_aligned T_0 T_2) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (is_aligned T_0 T_3) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 22 427
% 231.48/231.71 429. (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (is_aligned T_0 T_3) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ((age T_0 T_2) = (zero)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (is_aligned T_0 T_2) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) ### And 428
% 231.48/231.71 430. ((organization T_0) => (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))))) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (is_aligned T_0 T_2) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (is_aligned T_0 T_3) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 385 429
% 231.48/231.71 431. (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (is_aligned T_0 T_3) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ((age T_0 T_2) = (zero)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (is_aligned T_0 T_2) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) ### All 430
% 231.48/231.72 432. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (is_aligned T_0 T_3) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 383 384 431
% 231.48/231.72 433. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_3)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (is_aligned T_0 T_2) ### Equiv 382 432
% 231.48/231.72 434. (-. (-. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_3)))) (is_aligned T_0 T_2) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### NotNot 433
% 231.48/231.72 435. (-. ((organization T_0) /\ (-. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_3))))) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (is_aligned T_0 T_2) (organization T_0) ### NotAnd 381 434
% 231.48/231.72 436. (-. (dissimilar T_0 T_2 T_3)) (organization T_0) (is_aligned T_0 T_2) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) ### Definition-Pseudo(dissimilar) 435
% 231.48/231.72 437. (-. (greater (age T_0 T_3) (sigma))) (greater (age T_0 T_3) (sigma)) ### Axiom
% 231.48/231.72 438. ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_2 T_3)) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (is_aligned T_0 T_2) (organization T_0) ### Equiv 436 437
% 231.48/231.75 439. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_2 T_3))) (is_aligned T_0 T_2) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 379 380 438
% 231.48/231.75 440. (All T, (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T_2 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (is_aligned T_0 T_2) ### All 439
% 231.48/231.75 441. (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) ### All 440
% 231.48/231.75 442. (-. (greater (age T_0 T_3) (sigma))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 377 378 441
% 231.48/231.75 443. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (-. (greater (age T_0 T_3) (sigma))) ### All 442
% 231.48/231.76 444. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (greater (age T_0 T_3) (sigma))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### All 443
% 231.48/231.76 445. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### All 444
% 231.48/231.76 446. (greater (sigma) (age T_0 T_3)) (-. (greater (sigma) (age T_0 T_3))) ### Axiom
% 231.48/231.76 447. (-. ((greater (age T_0 T_3) (sigma)) /\ (greater (sigma) (age T_0 T_3)))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ### NotAnd 445 446
% 231.48/231.76 448. (All Y, (-. ((greater (age T_0 T_3) Y) /\ (greater Y (age T_0 T_3))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### All 447
% 231.48/231.76 449. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (tau) (sigma)) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ### All 448
% 231.48/231.76 450. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (greater (tau) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### All 449
% 231.56/231.79 451. (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) (greater (tau) (zero)) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (greater (high) (mod1)) (greater (high) (mod2)) (greater (low) (very_low)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### DisjTree 120 376 450
% 231.56/231.79 452. (smaller (age T_0 T_3) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) (greater (low) (very_low)) (greater (high) (mod2)) (greater (high) (mod1)) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (greater (tau) (zero)) (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) ### Definition-Pseudo(smaller) 451
% 231.56/231.79 453. (greater (age T_0 T_1) (tau)) (-. (greater (age T_0 T_1) (tau))) ### Axiom
% 231.56/231.79 454. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.56/231.79 455. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 231.56/231.79 456. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.56/231.79 457. (-. (is_aligned T_0 T_1)) (is_aligned T_0 T_1) ### Axiom
% 231.56/231.79 458. (positional_advantage T_0 T_1) (-. (positional_advantage T_0 T_1)) ### Axiom
% 231.56/231.79 459. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.56/231.79 460. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 231.56/231.79 461. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.56/231.79 462. (is_aligned T_0 T_2) (-. (is_aligned T_0 T_2)) ### Axiom
% 231.56/231.79 463. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.56/231.79 464. (is_aligned T_0 T_3) (-. (is_aligned T_0 T_3)) ### Axiom
% 231.56/231.79 465. (is_aligned T_0 T_3) (-. (is_aligned T_0 T_3)) ### Axiom
% 231.56/231.79 466. (-. (positional_advantage T_0 T_3)) (positional_advantage T_0 T_3) ### Axiom
% 231.56/231.79 467. ((hazard_of_mortality T_0 T_3) != (mod2)) ((hazard_of_mortality T_0 T_3) = (mod2)) ### Axiom
% 231.56/231.79 468. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) ((hazard_of_mortality T_0 T_3) != (mod2)) (-. (positional_advantage T_0 T_3)) (is_aligned T_0 T_3) ### DisjTree 465 466 467
% 231.56/231.79 469. (is_aligned T_0 T_3) (-. (is_aligned T_0 T_3)) ### Axiom
% 231.56/231.79 470. ((age T_0 T_3) = (sigma)) ((sigma) != (age T_0 T_3)) ### Sym(=)
% 231.56/231.79 471. (-. (greater (tau) (age T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ### Trans 1 470
% 231.56/231.79 472. (-. (smaller (age T_0 T_3) (tau))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) ### Definition-Pseudo(smaller) 471
% 231.56/231.79 473. (-. ((smaller (age T_0 T_3) (tau)) \/ ((age T_0 T_3) = (tau)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ### NotOr 472
% 231.56/231.79 474. (-. (smaller_or_equal (age T_0 T_3) (tau))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) ### Definition-Pseudo(smaller_or_equal) 473
% 231.56/231.79 475. (positional_advantage T_0 T_3) (-. (positional_advantage T_0 T_3)) ### Axiom
% 231.56/231.79 476. ((smaller_or_equal (age T_0 T_3) (tau)) => (-. (positional_advantage T_0 T_3))) (positional_advantage T_0 T_3) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ### Imply 474 475
% 231.56/231.79 477. (((smaller_or_equal (age T_0 T_3) (tau)) => (-. (positional_advantage T_0 T_3))) /\ ((greater (age T_0 T_3) (tau)) => (positional_advantage T_0 T_3))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (positional_advantage T_0 T_3) ### And 476
% 231.56/231.79 478. (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (positional_advantage T_0 T_3) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ### All 477
% 231.56/231.79 479. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (greater (mod2) (mod1)) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_3) = (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (is_aligned T_0 T_3) ### DisjTree 469 478 424
% 231.56/231.79 480. (((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 T_3) != (mod2)) (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (is_aligned T_0 T_3) ### DisjTree 464 468 479
% 231.56/231.79 481. ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))) (is_aligned T_0 T_3) ((hazard_of_mortality T_0 T_3) != (mod2)) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ### ConjTree 480
% 231.56/231.79 482. ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 T_3) != (mod2)) (is_aligned T_0 T_3) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 22 481
% 231.56/231.80 483. (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (is_aligned T_0 T_3) ((hazard_of_mortality T_0 T_3) != (mod2)) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ### And 482
% 231.56/231.80 484. ((organization T_0) => (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 T_3) != (mod2)) (is_aligned T_0 T_3) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 463 483
% 231.56/231.80 485. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (is_aligned T_0 T_3) ((hazard_of_mortality T_0 T_3) != (mod2)) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ### All 484
% 231.56/231.80 486. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 T_3) != (mod2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (is_aligned T_0 T_2) ### Equiv 462 485
% 231.56/231.80 487. (-. (-. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_3)))) (is_aligned T_0 T_2) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (mod2)) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ### NotNot 486
% 231.56/231.82 488. (-. ((organization T_0) /\ (-. ((is_aligned T_0 T_2) <=> (is_aligned T_0 T_3))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 T_3) != (mod2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (is_aligned T_0 T_2) (organization T_0) ### NotAnd 461 487
% 231.56/231.82 489. (-. (dissimilar T_0 T_2 T_3)) (organization T_0) (is_aligned T_0 T_2) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (mod2)) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ### Definition-Pseudo(dissimilar) 488
% 231.56/231.82 490. (-. (greater (age T_0 T_3) (sigma))) (greater (age T_0 T_3) (sigma)) ### Axiom
% 231.56/231.82 491. ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_2 T_3)) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 T_3) != (mod2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (is_aligned T_0 T_2) (organization T_0) ### Equiv 489 490
% 231.56/231.82 492. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_2 T_3))) (is_aligned T_0 T_2) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (mod2)) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 459 460 491
% 231.56/231.82 493. (All T, (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T_2 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 T_3) != (mod2)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (is_aligned T_0 T_2) ### All 492
% 231.56/231.82 494. (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((hazard_of_mortality T_0 T_3) != (mod2)) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) ### All 493
% 231.56/231.85 495. (-. (greater (hazard_of_mortality T_0 T_3) (mod1))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### Trans 494 58
% 231.56/231.85 496. ((hazard_of_mortality T_0 T_1) != (hazard_of_mortality T_0 T_1)) ### Refl(=)
% 231.56/231.85 497. (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) ((hazard_of_mortality T_0 T_1) = (mod1)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) ### TransEq2 495 495 496
% 231.56/231.85 498. (((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (-. (is_aligned T_0 T_1)) ### DisjTree 457 458 497
% 231.56/231.85 499. (positional_advantage T_0 T_1) (-. (positional_advantage T_0 T_1)) ### Axiom
% 231.56/231.85 500. (((is_aligned T_0 T_1) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (low))) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) (((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) ### DisjTree 498 499 93
% 231.56/231.85 501. ((((is_aligned T_0 T_1) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (low))) /\ ((((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) /\ ((((is_aligned T_0 T_1) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (mod2))) /\ (((-. (is_aligned T_0 T_1)) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (high)))))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ### ConjTree 500
% 231.56/231.86 502. ((-. (has_immunity T_0 T_1)) => ((((is_aligned T_0 T_1) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (low))) /\ ((((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) /\ ((((is_aligned T_0 T_1) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (mod2))) /\ (((-. (is_aligned T_0 T_1)) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (high))))))) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 13 501
% 231.56/231.86 503. (((has_immunity T_0 T_1) => ((hazard_of_mortality T_0 T_1) = (very_low))) /\ ((-. (has_immunity T_0 T_1)) => ((((is_aligned T_0 T_1) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (low))) /\ ((((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) /\ ((((is_aligned T_0 T_1) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (mod2))) /\ (((-. (is_aligned T_0 T_1)) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ### And 502
% 231.56/231.86 504. ((organization T_0) => (((has_immunity T_0 T_1) => ((hazard_of_mortality T_0 T_1) = (very_low))) /\ ((-. (has_immunity T_0 T_1)) => ((((is_aligned T_0 T_1) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (low))) /\ ((((-. (is_aligned T_0 T_1)) /\ (positional_advantage T_0 T_1)) => ((hazard_of_mortality T_0 T_1) = (mod1))) /\ ((((is_aligned T_0 T_1) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (mod2))) /\ (((-. (is_aligned T_0 T_1)) /\ (-. (positional_advantage T_0 T_1))) => ((hazard_of_mortality T_0 T_1) = (high))))))))) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 456 503
% 231.56/231.86 505. (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ### All 504
% 231.68/231.89 506. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (is_aligned T_0 T_2) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 505
% 231.68/231.89 507. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 454 455 506
% 231.68/231.89 508. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All Y, ((smaller (sigma) Y) \/ (((sigma) = Y) \/ (greater (sigma) Y)))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ### All 507
% 231.68/231.89 509. (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (positional_advantage T_0 T_1) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### All 508
% 231.68/231.89 510. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (positional_advantage T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### All 509
% 231.68/231.90 511. ((greater (age T_0 T_1) (tau)) => (positional_advantage T_0 T_1)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_1) (tau)) ### Imply 453 510
% 231.68/231.90 512. (((smaller_or_equal (age T_0 T_1) (tau)) => (-. (positional_advantage T_0 T_1))) /\ ((greater (age T_0 T_1) (tau)) => (positional_advantage T_0 T_1))) (greater (age T_0 T_1) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### And 511
% 231.68/231.90 513. (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_1) (tau)) ### All 512
% 231.68/231.90 514. ((age T_0 T_3) = (sigma)) ((age T_0 T_3) != (sigma)) ### Axiom
% 231.68/231.90 515. (-. (greater (sigma) (sigma))) (greater (age T_0 T_1) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### TransEq2 33 513 514
% 231.68/231.90 516. (-. ((greater (sigma) (sigma)) /\ (greater (sigma) (sigma)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_1) (tau)) ### NotAnd 515 515
% 231.71/231.91 517. (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (age T_0 T_1) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((sigma) != (age T_0 T_1)) (-. (greater (sigma) (age T_0 T_1))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### All 516
% 231.71/231.91 518. (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (-. (greater (sigma) (age T_0 T_1))) ((sigma) != (age T_0 T_1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_1) (tau)) ### All 517
% 231.71/231.91 519. (-. (greater (tau) (age T_0 T_1))) (greater (age T_0 T_1) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### Trans 1 518
% 231.71/231.91 520. (-. (smaller (age T_0 T_1) (tau))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_1) (tau)) ### Definition-Pseudo(smaller) 519
% 231.71/231.91 521. (-. ((smaller (age T_0 T_1) (tau)) \/ ((age T_0 T_1) = (tau)))) (greater (age T_0 T_1) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### NotOr 520
% 231.71/231.93 522. (-. (smaller_or_equal (age T_0 T_1) (tau))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_1) (tau)) ### Definition-Pseudo(smaller_or_equal) 521
% 231.71/231.93 523. ((smaller_or_equal (age T_0 T_1) (tau)) => (-. (positional_advantage T_0 T_1))) ((greater (age T_0 T_1) (tau)) => (positional_advantage T_0 T_1)) (greater (age T_0 T_1) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### Imply 522 115
% 231.71/231.93 524. (((smaller_or_equal (age T_0 T_1) (tau)) => (-. (positional_advantage T_0 T_1))) /\ ((greater (age T_0 T_1) (tau)) => (positional_advantage T_0 T_1))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_1) (tau)) ### And 523
% 231.71/231.93 525. (greater (age T_0 T_1) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### All 524
% 231.71/231.93 526. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_1))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_1) (tau)) ### All 525
% 231.73/231.96 527. (-. (smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_1) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### Definition-Pseudo(smaller) 526
% 231.73/231.96 528. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.73/231.96 529. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 231.73/231.96 530. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 231.73/231.96 531. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 231.73/231.96 532. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 231.73/231.96 533. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.73/231.96 534. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 231.73/231.96 535. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.73/231.96 536. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 231.73/231.96 537. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 231.73/231.96 538. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 231.73/231.96 539. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 231.73/231.96 540. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.73/231.96 541. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 231.73/231.96 542. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.73/231.96 543. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.73/231.96 544. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 231.73/231.96 545. (-. (greater (age T_0 T_3) (sigma))) (greater (age T_0 T_3) (sigma)) ### Axiom
% 231.73/231.96 546. ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_2 T_3)) (-. (greater (age T_0 T_3) (sigma))) (-. (is_aligned T_0 T_3)) (is_aligned T_0 T_2) (organization T_0) ### Equiv 31 545
% 231.73/231.96 547. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_2 T_3))) (is_aligned T_0 T_2) (-. (is_aligned T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 543 544 546
% 231.73/231.96 548. (All T, (((organization T_0) /\ ((age T_0 T_2) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T_2 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (-. (is_aligned T_0 T_3)) (is_aligned T_0 T_2) ### All 547
% 231.73/231.96 549. (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (is_aligned T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) ### All 548
% 231.73/231.96 550. ((mod2) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (mod2)) ### Sym(=)
% 231.73/231.96 551. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) ((mod2) != (hazard_of_mortality T_0 T_3)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 549 478 550
% 231.73/231.96 552. ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ((mod2) != (hazard_of_mortality T_0 T_3)) ### ConjTree 551
% 231.73/231.96 553. ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ((mod2) != (hazard_of_mortality T_0 T_3)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (has_immunity T_0 T_3)) ### Imply 183 552
% 231.73/231.96 554. ((very_low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (very_low)) ### Sym(=)
% 231.73/231.96 555. ((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ((mod2) != (hazard_of_mortality T_0 T_3)) ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ### Imply 553 554
% 231.73/231.97 556. (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))))) ((mod2) != (hazard_of_mortality T_0 T_3)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### And 555
% 231.73/231.97 557. ((organization T_0) => (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ((mod2) != (hazard_of_mortality T_0 T_3)) (organization T_0) ### Imply 542 556
% 231.73/231.97 558. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) ((mod2) != (hazard_of_mortality T_0 T_3)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### All 557
% 231.73/231.97 559. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ((mod2) != (hazard_of_mortality T_0 T_3)) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### All 558
% 231.73/231.97 560. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((mod2) != (hazard_of_mortality T_0 T_3)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 540 541 559
% 231.73/231.97 561. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ((mod2) != (hazard_of_mortality T_0 T_3)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### All 560
% 231.73/231.97 562. (-. (greater (high) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### Trans 173 561
% 231.73/232.00 563. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (high)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (high) (mod2)) ### TransEq 539 562 562
% 231.73/232.00 564. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((hazard_of_mortality T_0 zenon_X4) = (high)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ### TransEq2 167 563 563
% 231.73/232.00 565. (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (-. (positional_advantage T_0 zenon_X4)) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 537 538 564
% 231.73/232.00 566. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 231.73/232.00 567. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 231.73/232.00 568. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) ### Trans 567 560
% 231.73/232.00 569. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (high) (mod2)) ### TransEq2 307 307 568
% 231.81/232.03 570. (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (-. (positional_advantage T_0 zenon_X4)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) ### DisjTree 565 566 569
% 231.81/232.03 571. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 231.81/232.03 572. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.81/232.03 573. (-. (positional_advantage T_0 T_3)) (positional_advantage T_0 T_3) ### Axiom
% 231.81/232.03 574. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (-. (positional_advantage T_0 T_3)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 549 573 274
% 231.81/232.03 575. ((low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (low)) ### Sym(=)
% 231.81/232.03 576. (((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 549 574 575
% 231.81/232.03 577. ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) ### ConjTree 576
% 231.81/232.03 578. ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (has_immunity T_0 T_3)) ### Imply 183 577
% 231.81/232.04 579. ((very_low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (very_low)) ### Sym(=)
% 231.81/232.04 580. ((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ### Imply 578 579
% 231.81/232.04 581. (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### And 580
% 231.81/232.04 582. ((organization T_0) => (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) (organization T_0) ### Imply 572 581
% 231.81/232.07 583. (organization T_0) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### All 582
% 231.81/232.07 584. (-. (greater (mod1) (hazard_of_mortality T_0 T_3))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (organization T_0) ### Trans 58 583
% 231.81/232.07 585. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (organization T_0) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### TransEq 571 584 584
% 231.81/232.07 586. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (organization T_0) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ### All 585
% 231.81/232.07 587. ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (high) (mod1)) ### TransEq2 291 586 586
% 231.81/232.07 588. (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 536 570 587
% 231.81/232.07 589. (organization T_0) (-. (organization T_0)) ### Axiom
% 231.81/232.07 590. (-. (positional_advantage T_0 T_3)) (positional_advantage T_0 T_3) ### Axiom
% 231.81/232.07 591. ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_3)) ### Refl(=)
% 231.81/232.07 592. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 T_3) = (mod2)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (-. (greater (very_low) (mod1))) (-. (greater (very_low) (very_low))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (greater (high) (mod2)) ### TransEq2 261 261 591
% 231.81/232.07 593. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (greater (high) (mod2)) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (very_low))) (-. (greater (very_low) (mod1))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (-. (positional_advantage T_0 T_3)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 549 590 592
% 231.81/232.07 594. ((low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (low)) ### Sym(=)
% 231.81/232.07 595. (((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (-. (greater (very_low) (mod1))) (-. (greater (very_low) (very_low))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (greater (high) (mod2)) (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 549 593 594
% 231.87/232.11 596. ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (very_low))) (-. (greater (very_low) (mod1))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) ### ConjTree 595
% 231.87/232.11 597. ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (-. (greater (very_low) (mod1))) (-. (greater (very_low) (very_low))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (greater (high) (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (has_immunity T_0 T_3)) ### Imply 183 596
% 231.87/232.11 598. ((very_low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (very_low)) ### Sym(=)
% 231.87/232.11 599. ((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (very_low))) (-. (greater (very_low) (mod1))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ### Imply 597 598
% 231.87/232.11 600. (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (-. (greater (very_low) (mod1))) (-. (greater (very_low) (very_low))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (greater (high) (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### And 599
% 231.87/232.13 601. ((organization T_0) => (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (greater (high) (mod2)) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (very_low))) (-. (greater (very_low) (mod1))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) (organization T_0) ### Imply 589 600
% 231.87/232.13 602. (organization T_0) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (-. (greater (very_low) (mod1))) (-. (greater (very_low) (very_low))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (greater (high) (mod2)) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### All 601
% 231.87/232.13 603. (-. ((greater (very_low) (very_low)) /\ (greater (very_low) (very_low)))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (greater (high) (mod2)) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (mod1))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) (organization T_0) ### NotAnd 602 602
% 231.87/232.13 604. (All Y, (-. ((greater (very_low) Y) /\ (greater Y (very_low))))) (organization T_0) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (-. (greater (very_low) (mod1))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) (greater (high) (mod2)) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### All 603
% 231.87/232.14 605. (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (greater (high) (mod2)) (-. (greater (low) (mod1))) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (-. (greater (very_low) (mod1))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) (organization T_0) ### All 604
% 231.87/232.14 606. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (greater (very_low) (mod1))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (-. (greater (low) (mod1))) (greater (high) (mod2)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (greater (high) (mod1)) ((hazard_of_mortality T_0 zenon_X4) = (low)) ### TransEq 334 334 605
% 231.87/232.14 607. ((hazard_of_mortality T_0 zenon_X4) = (low)) (greater (high) (mod1)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (greater (high) (mod2)) (-. (greater (low) (mod1))) (greater (low) (very_low)) (-. (greater (low) (low))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ### Trans 82 606
% 231.87/232.14 608. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (low) (low))) (greater (low) (very_low)) (greater (high) (mod2)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (greater (high) (mod1)) ((hazard_of_mortality T_0 zenon_X4) = (low)) ### Trans 607 82
% 231.87/232.14 609. (-. ((greater (low) (low)) /\ (greater (low) (low)))) ((hazard_of_mortality T_0 zenon_X4) = (low)) (greater (high) (mod1)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (greater (high) (mod2)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ### NotAnd 608 608
% 231.95/232.17 610. (All Y, (-. ((greater (low) Y) /\ (greater Y (low))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (high) (mod2)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (greater (high) (mod1)) ((hazard_of_mortality T_0 zenon_X4) = (low)) ### All 609
% 231.95/232.17 611. ((hazard_of_mortality T_0 zenon_X4) = (low)) (greater (high) (mod1)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (greater (high) (mod2)) (greater (low) (very_low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ### All 610
% 231.95/232.17 612. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (low) (very_low)) (greater (high) (mod2)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (greater (high) (mod1)) ((hazard_of_mortality T_0 zenon_X4) = (low)) ### All 611
% 231.95/232.17 613. (((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) ### DisjTree 588 570 612
% 231.95/232.17 614. ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) ### ConjTree 613
% 231.96/232.18 615. ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 127 614
% 231.96/232.18 616. (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) ### And 615
% 231.96/232.18 617. ((organization T_0) => (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 535 616
% 231.96/232.21 618. (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) ### All 617
% 231.96/232.21 619. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 618
% 231.96/232.21 620. (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 533 534 619
% 231.96/232.21 621. (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ### All 620
% 232.01/232.21 622. ((age T_0 T_3) = (sigma)) ((age T_0 T_3) != (sigma)) ### Axiom
% 232.01/232.21 623. (-. (greater (sigma) (sigma))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### TransEq2 33 621 622
% 232.01/232.21 624. (-. ((greater (sigma) (sigma)) /\ (greater (sigma) (sigma)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ### NotAnd 623 623
% 232.01/232.21 625. (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### All 624
% 232.01/232.21 626. (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ### All 625
% 232.01/232.21 627. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### All 626
% 232.01/232.22 628. (-. (greater (low) (hazard_of_mortality T_0 T_3))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### Trans 82 627
% 232.01/232.22 629. (-. (greater (mod1) (hazard_of_mortality T_0 T_3))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### Trans 58 628
% 232.01/232.22 630. (-. (greater (high) (hazard_of_mortality T_0 T_3))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### Trans 173 629
% 232.01/232.22 631. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (high)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### TransEq 532 630 630
% 232.01/232.22 632. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) ((hazard_of_mortality T_0 zenon_X4) = (high)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### TransEq2 171 631 631
% 232.03/232.24 633. (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (-. (positional_advantage T_0 zenon_X4)) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 530 531 632
% 232.03/232.24 634. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.03/232.24 635. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### TransEq 634 629 629
% 232.03/232.24 636. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (greater (high) (mod2)) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (mod2) (mod1)) ### TransEq2 354 354 635
% 232.03/232.24 637. (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 529 633 636
% 232.03/232.25 638. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 232.03/232.25 639. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.03/232.25 640. (-. (greater (mod2) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### Trans 260 628
% 232.03/232.25 641. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### TransEq 639 640 640
% 232.03/232.25 642. (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (age T_0 T_5) (sigma)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (greater (high) (mod2)) ### TransEq2 306 641 641
% 232.03/232.25 643. (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (greater (mod2) (low)) (-. (positional_advantage T_0 zenon_X4)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) ### DisjTree 633 638 642
% 232.03/232.25 644. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.03/232.25 645. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### TransEq 644 628 628
% 232.03/232.26 646. ((age T_0 T_2) = (zero)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (age T_0 T_5) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((hazard_of_mortality T_0 zenon_X4) = (low)) (greater (mod2) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (greater (high) (mod2)) (greater (mod1) (low)) ### TransEq2 365 365 645
% 232.03/232.26 647. (((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) (greater (mod2) (low)) (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod2) (mod1)) (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) ### DisjTree 637 643 646
% 232.03/232.26 648. ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### ConjTree 647
% 232.03/232.26 649. ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 127 648
% 232.03/232.28 650. (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### And 649
% 232.03/232.28 651. ((organization T_0) => (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 528 650
% 232.03/232.28 652. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### All 651
% 232.03/232.29 653. (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (age T_0 T_5)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (age T_0 T_5) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (high) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (mod1) (low)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 652
% 232.03/232.29 654. (-. (smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (high) (mod2)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (greater (mod1) (low)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_5) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (age T_0 T_5)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### Definition-Pseudo(smaller) 653
% 232.03/232.29 655. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.03/232.29 656. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 232.03/232.29 657. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.03/232.29 658. (-. (positional_advantage T_0 T_3)) (positional_advantage T_0 T_3) ### Axiom
% 232.03/232.29 659. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (positional_advantage T_0 T_3)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 549 658 415
% 232.03/232.29 660. ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) (-. (positional_advantage T_0 T_3)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ### ConjTree 659
% 232.03/232.29 661. ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (positional_advantage T_0 T_3)) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 22 660
% 232.03/232.32 662. (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (-. (positional_advantage T_0 T_3)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ### And 661
% 232.03/232.32 663. ((organization T_0) => (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (positional_advantage T_0 T_3)) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 657 662
% 232.03/232.32 664. (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (-. (positional_advantage T_0 T_3)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) ### All 663
% 232.03/232.32 665. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (positional_advantage T_0 T_3)) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 664
% 232.03/232.32 666. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (greater (age T_0 T_3) (sigma))) (-. (positional_advantage T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 655 656 665
% 232.13/232.32 667. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (positional_advantage T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ### All 666
% 232.13/232.32 668. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) (-. (positional_advantage T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### All 667
% 232.13/232.32 669. ((smaller_or_equal (age T_0 T_3) (tau)) => (-. (positional_advantage T_0 T_3))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ### Imply 474 668
% 232.13/232.32 670. (((smaller_or_equal (age T_0 T_3) (tau)) => (-. (positional_advantage T_0 T_3))) /\ ((greater (age T_0 T_3) (tau)) => (positional_advantage T_0 T_3))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### And 669
% 232.13/232.32 671. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ### All 670
% 232.13/232.32 672. ((age T_0 T_3) = (sigma)) ((age T_0 T_3) != (sigma)) ### Axiom
% 232.13/232.32 673. (-. (greater (sigma) (sigma))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### TransEq2 33 671 672
% 232.13/232.35 674. (-. ((greater (sigma) (sigma)) /\ (greater (sigma) (sigma)))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ### NotAnd 673 673
% 232.13/232.35 675. (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### All 674
% 232.13/232.35 676. (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (greater (tau) (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) ### All 675
% 232.13/232.35 677. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (zero)) ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_2)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ### All 676
% 232.13/232.35 678. (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) (greater (tau) (zero)) (greater (mod2) (low)) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (greater (high) (mod1)) (greater (low) (very_low)) (greater (high) (mod2)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_1) (tau)) ### DisjTree 527 654 677
% 232.13/232.36 679. ((smaller (age T_0 T_3) (sigma)) \/ ((age T_0 T_3) = (sigma))) (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) (greater (tau) (zero)) (greater (tau) (age T_0 T_5)) (greater (age T_0 T_5) (sigma)) (greater (high) (mod1)) (greater (high) (mod2)) (greater (low) (very_low)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### Or 452 678
% 232.13/232.36 680. (smaller (age T_0 T_5) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) (greater (low) (very_low)) (greater (high) (mod2)) (greater (high) (mod1)) (greater (age T_0 T_5) (sigma)) (greater (tau) (zero)) (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) ((smaller (age T_0 T_3) (sigma)) \/ ((age T_0 T_3) = (sigma))) ### Definition-Pseudo(smaller) 679
% 232.13/232.36 681. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.13/232.36 682. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 232.13/232.36 683. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 232.13/232.36 684. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 232.13/232.36 685. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.13/232.36 686. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 232.13/232.36 687. (greater (low) (very_low)) (-. (greater (low) (very_low))) ### Axiom
% 232.13/232.36 688. (-. (greater (very_low) (low))) (greater (low) (very_low)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((hazard_of_mortality T_0 T_5) = (low)) (greater (mod1) (low)) (-. (greater (low) (mod1))) ### TransEq 225 224 82
% 232.13/232.36 689. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.13/232.36 690. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.13/232.36 691. (-. (is_aligned T_0 T_5)) (is_aligned T_0 T_5) ### Axiom
% 232.13/232.36 692. ((age T_0 T_5) = (tau)) ((age T_0 T_5) != (tau)) ### Axiom
% 232.13/232.36 693. (-. ((smaller (age T_0 T_5) (tau)) \/ ((age T_0 T_5) = (tau)))) ((age T_0 T_5) = (tau)) ### NotOr 692
% 232.13/232.36 694. (-. (smaller_or_equal (age T_0 T_5) (tau))) ((age T_0 T_5) = (tau)) ### Definition-Pseudo(smaller_or_equal) 693
% 232.13/232.36 695. (positional_advantage T_0 T_5) (-. (positional_advantage T_0 T_5)) ### Axiom
% 232.13/232.36 696. ((smaller_or_equal (age T_0 T_5) (tau)) => (-. (positional_advantage T_0 T_5))) (positional_advantage T_0 T_5) ((age T_0 T_5) = (tau)) ### Imply 694 695
% 232.13/232.36 697. (((smaller_or_equal (age T_0 T_5) (tau)) => (-. (positional_advantage T_0 T_5))) /\ ((greater (age T_0 T_5) (tau)) => (positional_advantage T_0 T_5))) ((age T_0 T_5) = (tau)) (positional_advantage T_0 T_5) ### And 696
% 232.13/232.36 698. (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (positional_advantage T_0 T_5) ((age T_0 T_5) = (tau)) ### All 697
% 232.13/232.36 699. ((hazard_of_mortality T_0 T_5) != (high)) ((hazard_of_mortality T_0 T_5) = (high)) ### Axiom
% 232.13/232.36 700. (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (-. (is_aligned T_0 T_5)) ### DisjTree 691 698 699
% 232.13/232.36 701. ((low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) = (low)) ### Sym(=)
% 232.13/232.36 702. (((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) ((low) != (hazard_of_mortality T_0 T_5)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) ((hazard_of_mortality T_0 T_5) != (high)) (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))) ### DisjTree 700 189 701
% 232.13/232.36 703. ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((low) != (hazard_of_mortality T_0 T_5)) ### ConjTree 702
% 232.20/232.39 704. ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))) ((low) != (hazard_of_mortality T_0 T_5)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (has_immunity T_0 T_5)) ### Imply 211 703
% 232.20/232.39 705. ((very_low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) = (very_low)) ### Sym(=)
% 232.20/232.39 706. ((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) ((very_low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((low) != (hazard_of_mortality T_0 T_5)) ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))) ### Imply 704 705
% 232.20/232.39 707. (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))))) ((low) != (hazard_of_mortality T_0 T_5)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) ((hazard_of_mortality T_0 T_5) != (high)) ((very_low) != (hazard_of_mortality T_0 T_5)) ### And 706
% 232.20/232.39 708. ((organization T_0) => (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))))) ((very_low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((low) != (hazard_of_mortality T_0 T_5)) (organization T_0) ### Imply 690 707
% 232.20/232.39 709. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) ((low) != (hazard_of_mortality T_0 T_5)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) ((hazard_of_mortality T_0 T_5) != (high)) ((very_low) != (hazard_of_mortality T_0 T_5)) ### All 708
% 232.20/232.39 710. ((hazard_of_mortality T_0 T_5) != (hazard_of_mortality T_0 T_5)) ### Refl(=)
% 232.20/232.39 711. ((hazard_of_mortality T_0 T_5) != (hazard_of_mortality T_0 T_5)) ### Refl(=)
% 232.20/232.39 712. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_5))) (greater (hazard_of_mortality T_0 T_5) (low)) ((very_low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### Trans 711 709
% 232.20/232.39 713. (-. (greater (hazard_of_mortality T_0 T_5) (mod1))) ((hazard_of_mortality T_0 T_5) = (mod1)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) ((hazard_of_mortality T_0 T_5) != (high)) ((very_low) != (hazard_of_mortality T_0 T_5)) (greater (hazard_of_mortality T_0 T_5) (low)) ### TransEq 710 712 58
% 232.20/232.42 714. ((hazard_of_mortality T_0 T_5) = (mod1)) ((hazard_of_mortality T_0 T_5) != (mod1)) ### Axiom
% 232.20/232.42 715. (-. (greater (mod1) (mod1))) (greater (hazard_of_mortality T_0 T_5) (low)) ((very_low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((hazard_of_mortality T_0 T_5) = (mod1)) ### TransEq2 58 713 714
% 232.20/232.42 716. (-. (greater (low) (mod1))) ((hazard_of_mortality T_0 T_5) = (mod1)) (greater (hazard_of_mortality T_0 T_5) (low)) ((very_low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### TransEq 709 715 715
% 232.20/232.42 717. (((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) ((very_low) != (hazard_of_mortality T_0 T_5)) (greater (hazard_of_mortality T_0 T_5) (low)) (-. (greater (low) (mod1))) ((hazard_of_mortality T_0 T_5) != (high)) (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 151 189 716
% 232.20/232.42 718. ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (low) (mod1))) (greater (hazard_of_mortality T_0 T_5) (low)) ((very_low) != (hazard_of_mortality T_0 T_5)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### ConjTree 717
% 232.20/232.42 719. ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) ((very_low) != (hazard_of_mortality T_0 T_5)) (greater (hazard_of_mortality T_0 T_5) (low)) (-. (greater (low) (mod1))) ((hazard_of_mortality T_0 T_5) != (high)) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (has_immunity T_0 T_5)) ### Imply 211 718
% 232.20/232.42 720. ((very_low) != (hazard_of_mortality T_0 T_5)) ((hazard_of_mortality T_0 T_5) = (very_low)) ### Sym(=)
% 232.20/232.42 721. ((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (organization T_0) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (low) (mod1))) (greater (hazard_of_mortality T_0 T_5) (low)) ((very_low) != (hazard_of_mortality T_0 T_5)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))) ### Imply 719 720
% 232.20/232.44 722. (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high)))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) ((very_low) != (hazard_of_mortality T_0 T_5)) (greater (hazard_of_mortality T_0 T_5) (low)) (-. (greater (low) (mod1))) ((hazard_of_mortality T_0 T_5) != (high)) (organization T_0) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### And 721
% 232.20/232.44 723. ((organization T_0) => (((has_immunity T_0 T_5) => ((hazard_of_mortality T_0 T_5) = (very_low))) /\ ((-. (has_immunity T_0 T_5)) => ((((is_aligned T_0 T_5) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (low))) /\ ((((-. (is_aligned T_0 T_5)) /\ (positional_advantage T_0 T_5)) => ((hazard_of_mortality T_0 T_5) = (mod1))) /\ ((((is_aligned T_0 T_5) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (mod2))) /\ (((-. (is_aligned T_0 T_5)) /\ (-. (positional_advantage T_0 T_5))) => ((hazard_of_mortality T_0 T_5) = (high))))))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (low) (mod1))) (greater (hazard_of_mortality T_0 T_5) (low)) ((very_low) != (hazard_of_mortality T_0 T_5)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) ### Imply 689 722
% 232.20/232.44 724. (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) ((very_low) != (hazard_of_mortality T_0 T_5)) (greater (hazard_of_mortality T_0 T_5) (low)) (-. (greater (low) (mod1))) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### All 723
% 232.20/232.44 725. (-. (greater (very_low) (low))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (low) (mod1))) (greater (hazard_of_mortality T_0 T_5) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) ### Trans 724 82
% 232.20/232.44 726. ((smaller (hazard_of_mortality T_0 T_5) (low)) \/ (((hazard_of_mortality T_0 T_5) = (low)) \/ (greater (hazard_of_mortality T_0 T_5) (low)))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (very_low) (low))) (-. (greater (low) (mod1))) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### DisjTree 206 688 725
% 232.20/232.46 727. (All Y, ((smaller (hazard_of_mortality T_0 T_5) Y) \/ (((hazard_of_mortality T_0 T_5) = Y) \/ (greater (hazard_of_mortality T_0 T_5) Y)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (low) (mod1))) (-. (greater (very_low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ### All 726
% 232.20/232.46 728. (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (very_low) (low))) (-. (greater (low) (mod1))) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### All 727
% 232.20/232.46 729. (greater (mod1) (low)) (-. (greater (mod1) (low))) ### Axiom
% 232.20/232.46 730. (-. ((greater (low) (mod1)) /\ (greater (mod1) (low)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (-. (greater (very_low) (low))) (greater (low) (very_low)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) ### NotAnd 728 729
% 232.20/232.46 731. (All Y, (-. ((greater (low) Y) /\ (greater Y (low))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (low) (very_low)) (-. (greater (very_low) (low))) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### All 730
% 232.20/232.46 732. (-. ((greater (low) (very_low)) /\ (greater (very_low) (low)))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All Y, (-. ((greater (low) Y) /\ (greater Y (low))))) (greater (low) (very_low)) ### NotAnd 687 731
% 232.20/232.46 733. (greater (low) (very_low)) (All Y, (-. ((greater (low) Y) /\ (greater Y (low))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) ### All 732
% 232.20/232.47 734. (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) ### All 733
% 232.20/232.47 735. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_5) != (high)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ### All 734
% 232.20/232.47 736. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ### All 735
% 232.20/232.47 737. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 685 686 736
% 232.20/232.47 738. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ### All 737
% 232.30/232.50 739. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_5) != (high)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) ### All 738
% 232.30/232.50 740. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.30/232.50 741. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.30/232.50 742. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 232.30/232.50 743. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 232.30/232.50 744. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 232.30/232.50 745. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.30/232.50 746. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.30/232.50 747. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 232.30/232.50 748. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.30/232.50 749. (-. (positional_advantage T_0 T_3)) (positional_advantage T_0 T_3) ### Axiom
% 232.30/232.50 750. (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) ((age T_0 T_2) = (zero)) (is_aligned T_0 T_2) (greater (age T_0 T_5) (sigma)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ### Trans 734 260
% 232.30/232.50 751. ((hazard_of_mortality T_0 T_3) != (hazard_of_mortality T_0 T_3)) ### Refl(=)
% 232.30/232.50 752. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 T_3) = (mod2)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (greater (age T_0 T_5) (sigma)) (is_aligned T_0 T_2) ((age T_0 T_2) = (zero)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) ### TransEq2 750 750 751
% 232.30/232.50 753. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (-. (positional_advantage T_0 T_3)) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 40 749 752
% 232.30/232.50 754. ((low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (low)) ### Sym(=)
% 232.30/232.50 755. (((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 40 753 754
% 232.30/232.53 756. ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) ### ConjTree 755
% 232.34/232.53 757. ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (has_immunity T_0 T_3)) ### Imply 183 756
% 232.34/232.53 758. ((very_low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (very_low)) ### Sym(=)
% 232.34/232.53 759. ((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ### Imply 757 758
% 232.34/232.53 760. (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))))) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### And 759
% 232.34/232.53 761. ((organization T_0) => (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_2) = (zero)) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) (organization T_0) ### Imply 748 760
% 232.34/232.53 762. (organization T_0) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) ((age T_0 T_2) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### All 761
% 232.34/232.53 763. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 746 747 762
% 232.34/232.53 764. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) ((low) != (hazard_of_mortality T_0 T_3)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### All 763
% 232.35/232.56 765. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((low) != (hazard_of_mortality T_0 T_3)) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### All 764
% 232.35/232.56 766. (-. (greater (mod1) (hazard_of_mortality T_0 T_3))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ### Trans 58 765
% 232.35/232.56 767. (-. (greater (high) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### Trans 173 766
% 232.35/232.56 768. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (high)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (high) (mod1)) ### TransEq 745 767 767
% 232.35/232.57 769. (greater (high) (mod1)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((hazard_of_mortality T_0 zenon_X4) = (high)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### TransEq2 739 768 768
% 232.35/232.57 770. (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (high) (mod1)) (-. (positional_advantage T_0 zenon_X4)) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 743 744 769
% 232.35/232.57 771. (-. (greater (hazard_of_mortality T_0 T_5) (mod1))) (greater (high) (mod1)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### Trans 739 58
% 232.35/232.57 772. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.35/232.57 773. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### TransEq 772 766 766
% 232.35/232.59 774. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod1)) ### TransEq2 771 771 773
% 232.35/232.59 775. (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) (greater (high) (mod1)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 742 770 774
% 232.35/232.59 776. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 232.35/232.59 777. (-. (greater (hazard_of_mortality T_0 T_5) (mod2))) (greater (high) (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### Trans 739 260
% 232.35/232.59 778. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.35/232.59 779. (-. (greater (mod2) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ### Trans 260 765
% 232.35/232.60 780. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (greater (mod2) (low)) ### TransEq 778 779 328
% 232.42/232.60 781. (greater (mod2) (low)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) ### TransEq2 777 777 780
% 232.42/232.60 782. (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (greater (mod2) (low)) (-. (positional_advantage T_0 zenon_X4)) (greater (high) (mod1)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) ### DisjTree 770 776 781
% 232.42/232.60 783. (-. (greater (hazard_of_mortality T_0 T_5) (low))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod1)) ### Trans 771 82
% 232.42/232.62 784. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.42/232.62 785. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 zenon_X4))) ((hazard_of_mortality T_0 zenon_X4) = (low)) (greater (high) (mod1)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### TransEq2 783 783 784
% 232.42/232.62 786. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod1)) ((hazard_of_mortality T_0 zenon_X4) = (low)) ### TransEq 785 785 765
% 232.42/232.62 787. (((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) (greater (mod2) (low)) (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (high) (mod1)) (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) ### DisjTree 775 782 786
% 232.42/232.62 788. ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))) (greater (high) (mod1)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### ConjTree 787
% 232.42/232.63 789. ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 127 788
% 232.42/232.63 790. (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### And 789
% 232.42/232.64 791. ((organization T_0) => (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 741 790
% 232.42/232.64 792. (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### All 791
% 232.42/232.64 793. (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 792
% 232.42/232.64 794. (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### All 793
% 232.42/232.66 795. (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 794
% 232.42/232.66 796. (-. (greater (low) (hazard_of_mortality T_0 T_3))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### Trans 82 795
% 232.42/232.66 797. (-. (greater (mod1) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Trans 58 796
% 232.42/232.66 798. (-. (greater (high) (hazard_of_mortality T_0 T_3))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### Trans 173 797
% 232.42/232.66 799. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (high)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### TransEq 740 798 798
% 232.49/232.67 800. (greater (high) (mod1)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) ((hazard_of_mortality T_0 zenon_X4) = (high)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### TransEq2 739 799 799
% 232.49/232.67 801. (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (mod2) (low)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod1)) (-. (positional_advantage T_0 zenon_X4)) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 683 684 800
% 232.49/232.67 802. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.49/232.67 803. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### TransEq 802 797 797
% 232.49/232.67 804. (greater (mod2) (low)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod1)) ### TransEq2 771 771 803
% 232.49/232.67 805. (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) (greater (high) (mod1)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 682 801 804
% 232.49/232.67 806. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 232.49/232.67 807. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.49/232.67 808. (-. (greater (mod2) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Trans 260 796
% 232.49/232.67 809. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### TransEq 807 808 808
% 232.49/232.67 810. (greater (mod2) (low)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (sigma) (age T_0 T_3)) (greater (high) (mod1)) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) ### TransEq2 777 777 809
% 232.49/232.67 811. (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (-. (positional_advantage T_0 zenon_X4)) (greater (high) (mod1)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) ### DisjTree 801 806 810
% 232.49/232.70 812. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.49/232.70 813. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (low)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### TransEq 812 796 796
% 232.49/232.70 814. (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) ((hazard_of_mortality T_0 zenon_X4) = (low)) (greater (high) (mod1)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### TransEq2 783 783 813
% 232.49/232.70 815. (((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (mod2) (low)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod1)) (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) ### DisjTree 805 811 814
% 232.49/232.70 816. ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))) (greater (high) (mod1)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### ConjTree 815
% 232.49/232.71 817. ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (greater (mod2) (low)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 127 816
% 232.49/232.71 818. (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### And 817
% 232.49/232.71 819. ((organization T_0) => (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (greater (mod2) (low)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### Imply 681 818
% 232.49/232.71 820. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### All 819
% 232.49/232.71 821. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (greater (mod2) (low)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (organization T_0) ### All 820
% 232.49/232.71 822. (-. (smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5))) (organization T_0) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (high) (mod1)) (greater (sigma) (age T_0 T_3)) (greater (high) (mod2)) (greater (mod2) (low)) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### Definition-Pseudo(smaller) 821
% 232.49/232.71 823. (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) (greater (tau) (zero)) (greater (low) (very_low)) ((age T_0 T_5) = (tau)) (greater (age T_0 T_5) (sigma)) (greater (mod2) (low)) (greater (high) (mod2)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (sigma) (age T_0 T_3)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### DisjTree 120 822 450
% 232.49/232.71 824. (smaller (age T_0 T_3) (sigma)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (high) (mod1)) (greater (high) (mod2)) (greater (mod2) (low)) (greater (age T_0 T_5) (sigma)) ((age T_0 T_5) = (tau)) (greater (low) (very_low)) (greater (tau) (zero)) (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) ### Definition-Pseudo(smaller) 823
% 232.49/232.74 825. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.49/232.74 826. (-. (has_immunity T_0 zenon_X4)) (has_immunity T_0 zenon_X4) ### Axiom
% 232.49/232.74 827. (-. (-. (has_immunity T_0 zenon_X4))) (-. (has_immunity T_0 zenon_X4)) ### NotNot 826
% 232.49/232.74 828. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 232.49/232.74 829. (-. (is_aligned T_0 zenon_X4)) (is_aligned T_0 zenon_X4) ### Axiom
% 232.49/232.74 830. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 232.49/232.74 831. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.49/232.74 832. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.49/232.74 833. ((age T_0 T_2) = (zero)) ((age T_0 T_2) != (zero)) ### Axiom
% 232.49/232.74 834. (organization T_0) (-. (organization T_0)) ### Axiom
% 232.49/232.74 835. (-. (positional_advantage T_0 T_3)) (positional_advantage T_0 T_3) ### Axiom
% 232.49/232.74 836. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (-. (positional_advantage T_0 T_3)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 549 835 752
% 232.49/232.74 837. (-. (positional_advantage T_0 T_3)) (positional_advantage T_0 T_3) ### Axiom
% 232.49/232.74 838. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (greater (mod2) (mod1)) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_3) = (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (positional_advantage T_0 T_3)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 549 837 424
% 232.49/232.74 839. (greater (mod1) (low)) (-. (greater (mod1) (low))) ### Axiom
% 232.49/232.74 840. ((hazard_of_mortality T_0 T_3) = (mod2)) ((hazard_of_mortality T_0 T_3) != (mod2)) ### Axiom
% 232.49/232.74 841. (-. (greater (hazard_of_mortality T_0 T_3) (mod1))) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 T_3) = (mod2)) ### Trans 840 58
% 232.49/232.74 842. ((hazard_of_mortality T_0 T_3) = (mod1)) ((hazard_of_mortality T_0 T_3) != (mod1)) ### Axiom
% 232.49/232.74 843. (-. (greater (low) (mod1))) ((hazard_of_mortality T_0 T_3) = (low)) ((hazard_of_mortality T_0 T_3) = (mod1)) ((hazard_of_mortality T_0 T_3) = (mod2)) (greater (mod2) (mod1)) ### TransEq2 82 841 842
% 232.49/232.74 844. (-. ((greater (mod1) (low)) /\ (greater (low) (mod1)))) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 T_3) = (mod2)) ((hazard_of_mortality T_0 T_3) = (mod1)) ((hazard_of_mortality T_0 T_3) = (low)) (greater (mod1) (low)) ### NotAnd 839 843
% 232.49/232.74 845. (All Y, (-. ((greater (mod1) Y) /\ (greater Y (mod1))))) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_3) = (low)) ((hazard_of_mortality T_0 T_3) = (mod1)) ((hazard_of_mortality T_0 T_3) = (mod2)) (greater (mod2) (mod1)) ### All 844
% 232.49/232.74 846. (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 T_3) = (mod2)) ((hazard_of_mortality T_0 T_3) = (mod1)) ((hazard_of_mortality T_0 T_3) = (low)) (greater (mod1) (low)) ### All 845
% 232.49/232.74 847. (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (greater (mod1) (low)) ((hazard_of_mortality T_0 T_3) = (low)) ((hazard_of_mortality T_0 T_3) = (mod1)) (greater (mod2) (mod1)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 549 478 846
% 232.49/232.74 848. (((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) ((hazard_of_mortality T_0 T_3) = (low)) (greater (mod1) (low)) (greater (mod2) (mod1)) (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) ### DisjTree 479 838 847
% 232.49/232.74 849. (((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ### DisjTree 549 836 848
% 232.59/232.77 850. ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) ### ConjTree 849
% 232.59/232.77 851. ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (-. (has_immunity T_0 T_3)) ### Imply 183 850
% 232.59/232.77 852. ((very_low) != (hazard_of_mortality T_0 T_3)) ((hazard_of_mortality T_0 T_3) = (very_low)) ### Sym(=)
% 232.59/232.77 853. ((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))) ### Imply 851 852
% 232.59/232.77 854. (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high)))))))) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### And 853
% 232.59/232.78 855. ((organization T_0) => (((has_immunity T_0 T_3) => ((hazard_of_mortality T_0 T_3) = (very_low))) /\ ((-. (has_immunity T_0 T_3)) => ((((is_aligned T_0 T_3) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (low))) /\ ((((-. (is_aligned T_0 T_3)) /\ (positional_advantage T_0 T_3)) => ((hazard_of_mortality T_0 T_3) = (mod1))) /\ ((((is_aligned T_0 T_3) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (mod2))) /\ (((-. (is_aligned T_0 T_3)) /\ (-. (positional_advantage T_0 T_3))) => ((hazard_of_mortality T_0 T_3) = (high))))))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (organization T_0) ### Imply 834 854
% 232.59/232.78 856. (organization T_0) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) ((age T_0 T_2) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (is_aligned T_0 T_2) (All T0, (All T, (((organization T_0) /\ ((age T_0 T0) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T0 T))))) ((very_low) != (hazard_of_mortality T_0 T_3)) ### All 855
% 232.59/232.78 857. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (is_aligned T_0 T_2) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_2) = (zero)) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (organization T_0) ### All 856
% 232.59/232.78 858. (((organization T_0) /\ ((age T_0 T_2) = (zero))) => (is_aligned T_0 T_2)) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) ### DisjTree 832 833 857
% 232.62/232.81 859. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (-. (greater (age T_0 T_3) (sigma))) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) ### All 858
% 232.62/232.81 860. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (-. (greater (age T_0 T_3) (sigma))) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### All 859
% 232.62/232.81 861. ((age T_0 T_3) = (sigma)) ((age T_0 T_3) != (sigma)) ### Axiom
% 232.62/232.81 862. (-. (greater (sigma) (sigma))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### TransEq2 33 860 861
% 232.62/232.81 863. (-. ((greater (sigma) (sigma)) /\ (greater (sigma) (sigma)))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### NotAnd 862 862
% 232.62/232.81 864. (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### All 863
% 232.62/232.81 865. (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) ((very_low) != (hazard_of_mortality T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) ### All 864
% 232.62/232.81 866. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((very_low) != (hazard_of_mortality T_0 T_3)) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### All 865
% 232.62/232.81 867. (-. (greater (low) (hazard_of_mortality T_0 T_3))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### Trans 82 866
% 232.62/232.81 868. (-. (greater (mod1) (hazard_of_mortality T_0 T_3))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### Trans 58 867
% 232.62/232.81 869. (-. (greater (high) (hazard_of_mortality T_0 T_3))) (greater (high) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### Trans 173 868
% 232.62/232.82 870. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (high)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (high) (mod1)) ### TransEq 831 869 869
% 232.62/232.82 871. (greater (high) (mod1)) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((hazard_of_mortality T_0 zenon_X4) = (high)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### TransEq2 739 870 870
% 232.62/232.82 872. (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (greater (high) (mod1)) (-. (positional_advantage T_0 zenon_X4)) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 829 830 871
% 232.62/232.82 873. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.62/232.82 874. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### TransEq 873 868 868
% 232.66/232.83 875. (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 zenon_X4) = (mod1)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod1)) ### TransEq2 771 771 874
% 232.66/232.83 876. (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) (greater (high) (mod1)) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (-. (is_aligned T_0 zenon_X4)) ### DisjTree 828 872 875
% 232.66/232.83 877. (-. (positional_advantage T_0 zenon_X4)) (positional_advantage T_0 zenon_X4) ### Axiom
% 232.66/232.83 878. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.66/232.83 879. (-. (greater (mod2) (hazard_of_mortality T_0 T_3))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### Trans 260 867
% 232.66/232.83 880. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (greater (high) (mod2)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### TransEq 878 879 879
% 232.66/232.83 881. (greater (mod2) (low)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) ((hazard_of_mortality T_0 zenon_X4) = (mod2)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) ### TransEq2 777 777 880
% 232.67/232.85 882. (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (greater (mod2) (low)) (-. (positional_advantage T_0 zenon_X4)) (greater (high) (mod1)) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) ### DisjTree 872 877 881
% 232.67/232.85 883. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.67/232.85 884. (-. (greater (hazard_of_mortality T_0 zenon_X4) (hazard_of_mortality T_0 T_3))) ((hazard_of_mortality T_0 zenon_X4) = (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (high) (mod2)) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### TransEq 883 867 867
% 232.67/232.85 885. (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((hazard_of_mortality T_0 zenon_X4) = (low)) (greater (high) (mod1)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### TransEq2 783 783 884
% 232.67/232.85 886. (((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) (greater (mod2) (low)) (((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (greater (high) (mod1)) (((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) ### DisjTree 876 882 885
% 232.67/232.85 887. ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))) (greater (high) (mod1)) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ### ConjTree 886
% 232.67/232.85 888. ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (greater (high) (mod1)) (-. (has_immunity T_0 zenon_X4)) ### Imply 827 887
% 232.67/232.85 889. (-. (greater (hazard_of_mortality T_0 T_5) (very_low))) (greater (high) (mod1)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ### Trans 783 185
% 232.67/232.85 890. ((hazard_of_mortality T_0 zenon_X4) != (hazard_of_mortality T_0 zenon_X4)) ### Refl(=)
% 232.67/232.85 891. (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 zenon_X4))) ((hazard_of_mortality T_0 zenon_X4) = (very_low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod1)) ### TransEq2 889 889 890
% 232.67/232.85 892. (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (greater (high) (mod1)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((hazard_of_mortality T_0 zenon_X4) = (very_low)) ### TransEq 891 891 866
% 232.67/232.88 893. ((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) (greater (high) (mod1)) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))) ### Imply 888 892
% 232.67/232.88 894. (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high)))))))) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (organization T_0) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (greater (high) (mod1)) ### And 893
% 232.67/232.88 895. ((organization T_0) => (((has_immunity T_0 zenon_X4) => ((hazard_of_mortality T_0 zenon_X4) = (very_low))) /\ ((-. (has_immunity T_0 zenon_X4)) => ((((is_aligned T_0 zenon_X4) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (low))) /\ ((((-. (is_aligned T_0 zenon_X4)) /\ (positional_advantage T_0 zenon_X4)) => ((hazard_of_mortality T_0 zenon_X4) = (mod1))) /\ ((((is_aligned T_0 zenon_X4) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (mod2))) /\ (((-. (is_aligned T_0 zenon_X4)) /\ (-. (positional_advantage T_0 zenon_X4))) => ((hazard_of_mortality T_0 zenon_X4) = (high))))))))) (greater (high) (mod1)) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) (organization T_0) ### Imply 825 894
% 232.67/232.89 896. (All T, ((organization T_0) => (((has_immunity T_0 T) => ((hazard_of_mortality T_0 T) = (very_low))) /\ ((-. (has_immunity T_0 T)) => ((((is_aligned T_0 T) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (low))) /\ ((((-. (is_aligned T_0 T)) /\ (positional_advantage T_0 T)) => ((hazard_of_mortality T_0 T) = (mod1))) /\ ((((is_aligned T_0 T) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (mod2))) /\ (((-. (is_aligned T_0 T)) /\ (-. (positional_advantage T_0 T))) => ((hazard_of_mortality T_0 T) = (high)))))))))) (organization T_0) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (greater (high) (mod2)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (greater (high) (mod1)) ### All 895
% 232.67/232.89 897. (greater (high) (mod1)) (greater (mod2) (mod1)) ((age T_0 T_3) = (sigma)) (greater (tau) (sigma)) (-. (greater (hazard_of_mortality T_0 T_5) (hazard_of_mortality T_0 T_3))) (greater (high) (mod2)) ((age T_0 T_2) = (zero)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (age T_0 T_5) (sigma)) (greater (mod1) (low)) ((age T_0 T_5) = (tau)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (low) (very_low)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) (organization T_0) ### All 896
% 232.67/232.89 898. (-. (smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5))) (organization T_0) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (greater (low) (very_low)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) ((age T_0 T_5) = (tau)) (greater (mod1) (low)) (greater (age T_0 T_5) (sigma)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ((age T_0 T_2) = (zero)) (greater (high) (mod2)) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (greater (mod2) (mod1)) (greater (high) (mod1)) ### Definition-Pseudo(smaller) 897
% 232.67/232.89 899. (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) (greater (tau) (zero)) (greater (high) (mod1)) (greater (high) (mod2)) (greater (age T_0 T_5) (sigma)) ((age T_0 T_5) = (tau)) (greater (low) (very_low)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) ((age T_0 T_3) = (sigma)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (greater (age T_0 T_1) (tau)) ### DisjTree 527 898 677
% 232.67/232.89 900. ((smaller (age T_0 T_3) (sigma)) \/ ((age T_0 T_3) = (sigma))) (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) (greater (tau) (zero)) (greater (low) (very_low)) ((age T_0 T_5) = (tau)) (greater (age T_0 T_5) (sigma)) (greater (mod2) (low)) (greater (high) (mod2)) (greater (high) (mod1)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### Or 824 899
% 232.67/232.89 901. ((smaller (age T_0 T_5) (tau)) \/ ((age T_0 T_5) = (tau))) ((smaller (age T_0 T_3) (sigma)) \/ ((age T_0 T_3) = (sigma))) (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) (greater (tau) (zero)) (greater (age T_0 T_5) (sigma)) (greater (high) (mod1)) (greater (high) (mod2)) (greater (low) (very_low)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### Or 680 900
% 232.67/232.89 902. (smaller_or_equal (age T_0 T_5) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (tau) (sigma)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) (greater (low) (very_low)) (greater (high) (mod2)) (greater (high) (mod1)) (greater (age T_0 T_5) (sigma)) (greater (tau) (zero)) (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) ((smaller (age T_0 T_3) (sigma)) \/ ((age T_0 T_3) = (sigma))) ### Definition-Pseudo(smaller_or_equal) 901
% 232.67/232.89 903. (smaller_or_equal (age T_0 T_3) (sigma)) (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) (greater (tau) (zero)) (greater (age T_0 T_5) (sigma)) (greater (high) (mod1)) (greater (high) (mod2)) (greater (low) (very_low)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (tau) (sigma)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (smaller_or_equal (age T_0 T_5) (tau)) ### Definition-Pseudo(smaller_or_equal) 902
% 232.67/232.89 904. (smaller (sigma) (tau)) (smaller_or_equal (age T_0 T_5) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (organization T_0) ((age T_0 T_2) = (zero)) (-. (All T, ((organization T_0) /\ (((smaller_or_equal (age T_0 T) (eta)) => (has_immunity T_0 T)) /\ ((greater (age T_0 T) (eta)) => (-. (has_immunity T_0 T))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) (greater (low) (very_low)) (greater (high) (mod2)) (greater (high) (mod1)) (greater (age T_0 T_5) (sigma)) (greater (tau) (zero)) (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) (smaller_or_equal (age T_0 T_3) (sigma)) ### Definition-Pseudo(smaller) 903
% 232.73/232.91 905. (-. (has_endowment T_0)) (smaller_or_equal (age T_0 T_3) (sigma)) (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) (greater (tau) (zero)) (greater (age T_0 T_5) (sigma)) (greater (high) (mod1)) (greater (high) (mod2)) (greater (low) (very_low)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (age T_0 T_1) (tau)) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (All T, (((smaller_or_equal (age T_0 T) (tau)) => (-. (positional_advantage T_0 T))) /\ ((greater (age T_0 T) (tau)) => (positional_advantage T_0 T)))) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) ((age T_0 T_2) = (zero)) (organization T_0) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (smaller_or_equal (age T_0 T_5) (tau)) (smaller (sigma) (tau)) ### Definition-Pseudo(has_endowment) 904
% 232.73/232.91 906. (robust_position T_0) (smaller (sigma) (tau)) (smaller_or_equal (age T_0 T_5) (tau)) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (organization T_0) ((age T_0 T_2) = (zero)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (greater (age T_0 T_1) (tau)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) (greater (low) (very_low)) (greater (high) (mod2)) (greater (high) (mod1)) (greater (age T_0 T_5) (sigma)) (greater (tau) (zero)) (-. ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))) (smaller_or_equal (age T_0 T_3) (sigma)) (-. (has_endowment T_0)) ### Definition-Pseudo(robust_position) 905
% 232.73/232.91 907. (-. (((organization T_0) /\ ((robust_position T_0) /\ ((-. (has_endowment T_0)) /\ (((age T_0 T_2) = (zero)) /\ ((greater (sigma) (zero)) /\ ((greater (tau) (zero)) /\ ((smaller (sigma) (tau)) /\ ((smaller_or_equal (age T_0 T_3) (sigma)) /\ ((greater (age T_0 T_5) (sigma)) /\ ((smaller_or_equal (age T_0 T_5) (tau)) /\ (greater (age T_0 T_1) (tau)))))))))))) => ((smaller (hazard_of_mortality T_0 T_1) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2)))))) (greater (high) (mod1)) (greater (high) (mod2)) (greater (low) (very_low)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### ConjTree 906
% 232.73/232.91 908. (-. (All T3, (((organization T_0) /\ ((robust_position T_0) /\ ((-. (has_endowment T_0)) /\ (((age T_0 T_2) = (zero)) /\ ((greater (sigma) (zero)) /\ ((greater (tau) (zero)) /\ ((smaller (sigma) (tau)) /\ ((smaller_or_equal (age T_0 T_3) (sigma)) /\ ((greater (age T_0 T_5) (sigma)) /\ ((smaller_or_equal (age T_0 T_5) (tau)) /\ (greater (age T_0 T3) (tau)))))))))))) => ((smaller (hazard_of_mortality T_0 T3) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T_5)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) (greater (low) (very_low)) (greater (high) (mod2)) (greater (high) (mod1)) ### NotAllEx 907
% 232.73/232.91 909. (-. (All T2, (All T3, (((organization T_0) /\ ((robust_position T_0) /\ ((-. (has_endowment T_0)) /\ (((age T_0 T_2) = (zero)) /\ ((greater (sigma) (zero)) /\ ((greater (tau) (zero)) /\ ((smaller (sigma) (tau)) /\ ((smaller_or_equal (age T_0 T_3) (sigma)) /\ ((greater (age T_0 T2) (sigma)) /\ ((smaller_or_equal (age T_0 T2) (tau)) /\ (greater (age T_0 T3) (tau)))))))))))) => ((smaller (hazard_of_mortality T_0 T3) (hazard_of_mortality T_0 T_3)) /\ ((smaller (hazard_of_mortality T_0 T_3) (hazard_of_mortality T_0 T2)) /\ ((hazard_of_mortality T_0 T_3) = (hazard_of_mortality T_0 T_2)))))))) (greater (high) (mod1)) (greater (high) (mod2)) (greater (low) (very_low)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### NotAllEx 908
% 232.73/232.92 910. (-. (All T1, (All T2, (All T3, (((organization T_0) /\ ((robust_position T_0) /\ ((-. (has_endowment T_0)) /\ (((age T_0 T_2) = (zero)) /\ ((greater (sigma) (zero)) /\ ((greater (tau) (zero)) /\ ((smaller (sigma) (tau)) /\ ((smaller_or_equal (age T_0 T1) (sigma)) /\ ((greater (age T_0 T2) (sigma)) /\ ((smaller_or_equal (age T_0 T2) (tau)) /\ (greater (age T_0 T3) (tau)))))))))))) => ((smaller (hazard_of_mortality T_0 T3) (hazard_of_mortality T_0 T1)) /\ ((smaller (hazard_of_mortality T_0 T1) (hazard_of_mortality T_0 T2)) /\ ((hazard_of_mortality T_0 T1) = (hazard_of_mortality T_0 T_2))))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) (greater (low) (very_low)) (greater (high) (mod2)) (greater (high) (mod1)) ### NotAllEx 909
% 232.73/232.92 911. (-. (All T0, (All T1, (All T2, (All T3, (((organization T_0) /\ ((robust_position T_0) /\ ((-. (has_endowment T_0)) /\ (((age T_0 T0) = (zero)) /\ ((greater (sigma) (zero)) /\ ((greater (tau) (zero)) /\ ((smaller (sigma) (tau)) /\ ((smaller_or_equal (age T_0 T1) (sigma)) /\ ((greater (age T_0 T2) (sigma)) /\ ((smaller_or_equal (age T_0 T2) (tau)) /\ (greater (age T_0 T3) (tau)))))))))))) => ((smaller (hazard_of_mortality T_0 T3) (hazard_of_mortality T_0 T1)) /\ ((smaller (hazard_of_mortality T_0 T1) (hazard_of_mortality T_0 T2)) /\ ((hazard_of_mortality T_0 T1) = (hazard_of_mortality T_0 T0)))))))))) (greater (high) (mod1)) (greater (high) (mod2)) (greater (low) (very_low)) (greater (mod2) (low)) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (greater (mod1) (low)) (greater (mod2) (mod1)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) ### NotAllEx 910
% 232.73/232.92 912. (-. (All X, (All T0, (All T1, (All T2, (All T3, (((organization X) /\ ((robust_position X) /\ ((-. (has_endowment X)) /\ (((age X T0) = (zero)) /\ ((greater (sigma) (zero)) /\ ((greater (tau) (zero)) /\ ((smaller (sigma) (tau)) /\ ((smaller_or_equal (age X T1) (sigma)) /\ ((greater (age X T2) (sigma)) /\ ((smaller_or_equal (age X T2) (tau)) /\ (greater (age X T3) (tau)))))))))))) => ((smaller (hazard_of_mortality X T3) (hazard_of_mortality X T1)) /\ ((smaller (hazard_of_mortality X T1) (hazard_of_mortality X T2)) /\ ((hazard_of_mortality X T1) = (hazard_of_mortality X T0))))))))))) (All X, (All T, ((organization X) => (((has_immunity X T) => ((hazard_of_mortality X T) = (very_low))) /\ ((-. (has_immunity X T)) => ((((is_aligned X T) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (low))) /\ ((((-. (is_aligned X T)) /\ (positional_advantage X T)) => ((hazard_of_mortality X T) = (mod1))) /\ ((((is_aligned X T) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (mod2))) /\ (((-. (is_aligned X T)) /\ (-. (positional_advantage X T))) => ((hazard_of_mortality X T) = (high))))))))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (mod2) (mod1)) (greater (mod1) (low)) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X))))) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All X, (All Y, ((smaller X Y) \/ ((X = Y) \/ (greater X Y))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (greater (mod2) (low)) (greater (low) (very_low)) (greater (high) (mod2)) (greater (high) (mod1)) ### NotAllEx 911
% 232.73/232.92 % SZS output end Proof
% 232.73/232.92 (* END-PROOF *)
%------------------------------------------------------------------------------