%------------------------------------------------------------------------------
% File     : SuperZenon---0.0.1
% Problem  : MGT054+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 : n026.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 22:27:06 EDT 2022

% Result   : Theorem 33.05s 33.27s
% Output   : Proof 33.16s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.03/0.12  % Problem  : MGT054+1 : TPTP v8.1.0. Released v2.4.0.
% 0.03/0.13  % Command  : run_super_zenon -p0 -itptp -om -max-time %d %s
% 0.13/0.33  % Computer : n026.cluster.edu
% 0.13/0.33  % Model    : x86_64 x86_64
% 0.13/0.33  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.33  % Memory   : 8042.1875MB
% 0.13/0.33  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.13/0.33  % CPULimit : 300
% 0.13/0.33  % WCLimit  : 600
% 0.13/0.33  % DateTime : Thu Jun  9 11:04:17 EDT 2022
% 0.13/0.34  % CPUTime  : 
% 33.05/33.27  % SZS status Theorem
% 33.05/33.27  (* PROOF-FOUND *)
% 33.05/33.27  (* BEGIN-PROOF *)
% 33.05/33.27  % SZS output start Proof
% 33.05/33.27  1. (organization T_0) (-. (organization T_0))   ### Axiom
% 33.05/33.27  2. ((age T_0 T_1) = (zero)) ((age T_0 T_1) != (zero))   ### Axiom
% 33.05/33.27  3. (organization T_0) (-. (organization T_0))   ### Axiom
% 33.05/33.27  4. (organization T_0) (-. (organization T_0))   ### Axiom
% 33.05/33.27  5. ((age T_0 T_1) = (zero)) ((age T_0 T_1) != (zero))   ### Axiom
% 33.05/33.27  6. (organization T_0) (-. (organization T_0))   ### Axiom
% 33.05/33.27  7. (is_aligned T_0 T_1) (-. (is_aligned T_0 T_1))   ### Axiom
% 33.05/33.27  8. (organization T_0) (-. (organization T_0))   ### Axiom
% 33.05/33.27  9. (organization T_0) (-. (organization T_0))   ### Axiom
% 33.05/33.27  10. (-. (has_endowment T_0)) (has_endowment T_0)   ### Axiom
% 33.05/33.27  11. (has_immunity T_0 T_2) (-. (has_immunity T_0 T_2))   ### Axiom
% 33.05/33.27  12. (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 T_2))) (has_immunity T_0 T_2) (-. (has_endowment T_0)) (organization T_0)   ### DisjTree 9 10 11
% 33.05/33.27  13. (All T, (((organization T_0) /\ (-. (has_endowment T_0))) => (-. (has_immunity T_0 T)))) (organization T_0) (-. (has_endowment T_0)) (has_immunity T_0 T_2)   ### All 12
% 33.05/33.27  14. (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (has_immunity T_0 T_2) (-. (has_endowment T_0)) (organization T_0)   ### All 13
% 33.05/33.27  15. (-. (has_immunity T_0 T_3)) (has_immunity T_0 T_3)   ### Axiom
% 33.05/33.27  16. (organization T_0) (-. (organization T_0))   ### Axiom
% 33.05/33.27  17. (is_aligned T_0 T_3) (-. (is_aligned T_0 T_3))   ### Axiom
% 33.05/33.27  18. (organization T_0) (-. (organization T_0))   ### Axiom
% 33.05/33.27  19. ((age T_0 T_1) = (zero)) ((age T_0 T_1) != (zero))   ### Axiom
% 33.05/33.27  20. (greater (age T_0 T_2) (sigma)) (-. (greater (age T_0 T_2) (sigma)))   ### Axiom
% 33.05/33.27  21. (is_aligned T_0 T_1) (-. (is_aligned T_0 T_1))   ### Axiom
% 33.05/33.27  22. (is_aligned T_0 T_2) (-. (is_aligned T_0 T_2))   ### Axiom
% 33.05/33.27  23. (-. ((is_aligned T_0 T_1) <=> (is_aligned T_0 T_2))) (is_aligned T_0 T_2) (is_aligned T_0 T_1)   ### NotEquiv 21 22
% 33.05/33.27  24. ((organization T_0) /\ (-. ((is_aligned T_0 T_1) <=> (is_aligned T_0 T_2)))) (is_aligned T_0 T_1) (is_aligned T_0 T_2)   ### And 23
% 33.05/33.27  25. (dissimilar T_0 T_1 T_2) (is_aligned T_0 T_2) (is_aligned T_0 T_1)   ### Definition-Pseudo(dissimilar) 24
% 33.05/33.27  26. ((greater (age T_0 T_2) (sigma)) <=> (dissimilar T_0 T_1 T_2)) (is_aligned T_0 T_1) (is_aligned T_0 T_2) (greater (age T_0 T_2) (sigma))   ### Equiv 20 25
% 33.05/33.27  27. (((organization T_0) /\ ((age T_0 T_1) = (zero))) => ((greater (age T_0 T_2) (sigma)) <=> (dissimilar T_0 T_1 T_2))) (greater (age T_0 T_2) (sigma)) (is_aligned T_0 T_2) (is_aligned T_0 T_1) ((age T_0 T_1) = (zero)) (organization T_0)   ### DisjTree 18 19 26
% 33.05/33.27  28. (All T, (((organization T_0) /\ ((age T_0 T_1) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T_1 T)))) (organization T_0) ((age T_0 T_1) = (zero)) (is_aligned T_0 T_1) (is_aligned T_0 T_2) (greater (age T_0 T_2) (sigma))   ### All 27
% 33.05/33.27  29. (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_2) (sigma)) (is_aligned T_0 T_2) (is_aligned T_0 T_1) ((age T_0 T_1) = (zero)) (organization T_0)   ### All 28
% 33.05/33.27  30. (-. (greater (capability T_0 T_3) (capability T_0 T_2))) (greater (capability T_0 T_3) (capability T_0 T_2))   ### Axiom
% 33.05/33.27  31. (((organization T_0) /\ ((is_aligned T_0 T_3) /\ (-. (is_aligned T_0 T_2)))) => (greater (capability T_0 T_3) (capability T_0 T_2))) (-. (greater (capability T_0 T_3) (capability T_0 T_2))) ((age T_0 T_1) = (zero)) (is_aligned T_0 T_1) (greater (age T_0 T_2) (sigma)) (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_3) (organization T_0)   ### DisjTree 16 17 29 30
% 33.05/33.27  32. (All T, (((organization T_0) /\ ((is_aligned T_0 T_3) /\ (-. (is_aligned T_0 T)))) => (greater (capability T_0 T_3) (capability T_0 T)))) (organization T_0) (is_aligned 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))))) (greater (age T_0 T_2) (sigma)) (is_aligned T_0 T_1) ((age T_0 T_1) = (zero)) (-. (greater (capability T_0 T_3) (capability T_0 T_2)))   ### All 31
% 33.05/33.27  33. (All T0, (All T, (((organization T_0) /\ ((is_aligned T_0 T0) /\ (-. (is_aligned T_0 T)))) => (greater (capability T_0 T0) (capability T_0 T))))) (-. (greater (capability T_0 T_3) (capability T_0 T_2))) ((age T_0 T_1) = (zero)) (is_aligned T_0 T_1) (greater (age T_0 T_2) (sigma)) (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_3) (organization T_0)   ### All 32
% 33.05/33.27  34. (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (organization T_0) (is_aligned 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))))) (greater (age T_0 T_2) (sigma)) (is_aligned T_0 T_1) ((age T_0 T_1) = (zero)) (-. (greater (capability T_0 T_3) (capability T_0 T_2)))   ### All 33
% 33.05/33.27  35. (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))   ### Axiom
% 33.05/33.27  36. (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) ((age T_0 T_1) = (zero)) (is_aligned T_0 T_1) (greater (age T_0 T_2) (sigma)) (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_3) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_immunity T_0 T_3)) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (organization T_0)   ### DisjTree 8 14 15 34 35
% 33.05/33.27  37. ((is_aligned T_0 T_1) <=> (is_aligned T_0 T_3)) (organization T_0) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (-. (has_immunity T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) ((age T_0 T_1) = (zero)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1)   ### Equiv 7 36
% 33.05/33.27  38. (-. (-. ((is_aligned T_0 T_1) <=> (is_aligned T_0 T_3)))) (is_aligned T_0 T_1) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) ((age T_0 T_1) = (zero)) (greater (age T_0 T_2) (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 T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_immunity T_0 T_3)) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (organization T_0)   ### NotNot 37
% 33.05/33.27  39. (-. ((organization T_0) /\ (-. ((is_aligned T_0 T_1) <=> (is_aligned T_0 T_3))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (-. (has_immunity T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) ((age T_0 T_1) = (zero)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1) (organization T_0)   ### NotAnd 6 38
% 33.05/33.30  40. (-. (dissimilar T_0 T_1 T_3)) (organization T_0) (is_aligned T_0 T_1) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) ((age T_0 T_1) = (zero)) (greater (age T_0 T_2) (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 T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_immunity T_0 T_3)) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T)))))   ### Definition-Pseudo(dissimilar) 39
% 33.05/33.30  41. (greater (sigma) (age T_0 T_3)) (-. (greater (sigma) (age T_0 T_3)))   ### Axiom
% 33.05/33.30  42. ((sigma) != (sigma))   ### NotEqual
% 33.05/33.30  43. (-. (greater (sigma) (sigma))) (greater (age T_0 T_3) (sigma)) (greater (sigma) (age T_0 T_3))   ### Trans 41 42
% 33.05/33.30  44. (-. ((greater (sigma) (sigma)) /\ (greater (sigma) (sigma)))) (greater (sigma) (age T_0 T_3)) (greater (age T_0 T_3) (sigma))   ### NotAnd 43 43
% 33.05/33.30  45. (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (age T_0 T_3) (sigma)) (greater (sigma) (age T_0 T_3))   ### All 44
% 33.05/33.30  46. ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_1 T_3)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (-. (has_immunity T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) ((age T_0 T_1) = (zero)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1) (organization T_0)   ### Equiv 40 45
% 33.05/33.30  47. (((organization T_0) /\ ((age T_0 T_1) = (zero))) => ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_1 T_3))) (is_aligned T_0 T_1) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (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 T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_immunity T_0 T_3)) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_1) = (zero)) (organization T_0)   ### DisjTree 4 5 46
% 33.05/33.30  48. (All T, (((organization T_0) /\ ((age T_0 T_1) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T_1 T)))) (organization T_0) ((age T_0 T_1) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (-. (has_immunity T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1)   ### All 47
% 33.05/33.30  49. (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))   ### Axiom
% 33.05/33.30  50. (((organization T_0) /\ ((has_immunity T_0 T_3) /\ (-. (has_immunity T_0 T_2)))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (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 T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_1) = (zero)) (All T, (((organization T_0) /\ ((age T_0 T_1) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T_1 T)))) (organization T_0)   ### DisjTree 3 48 14 49
% 33.05/33.30  51. (All T, (((organization T_0) /\ ((has_immunity T_0 T_3) /\ (-. (has_immunity T_0 T)))) => (greater (hazard_of_mortality T_0 T) (hazard_of_mortality T_0 T_3)))) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T_1) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T_1 T)))) ((age T_0 T_1) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1)   ### All 50
% 33.05/33.30  52. (is_aligned T_0 T_1) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (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 T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_1) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((has_immunity T_0 T_3) /\ (-. (has_immunity T_0 T)))) => (greater (hazard_of_mortality T_0 T) (hazard_of_mortality T_0 T_3))))   ### All 51
% 33.16/33.33  53. (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T)))) (All T, (((organization T_0) /\ ((has_immunity T_0 T_3) /\ (-. (has_immunity T_0 T)))) => (greater (hazard_of_mortality T_0 T) (hazard_of_mortality T_0 T_3)))) (organization T_0) ((age T_0 T_1) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1)   ### All 52
% 33.16/33.33  54. (All T0, (All T, (((organization T_0) /\ ((has_immunity T_0 T0) /\ (-. (has_immunity T_0 T)))) => (greater (hazard_of_mortality T_0 T) (hazard_of_mortality T_0 T0))))) (is_aligned T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (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 T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_1) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T))))   ### All 53
% 33.16/33.33  55. (All T0, (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T0)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T0))))) => (greater (hazard_of_mortality T_0 T0) (hazard_of_mortality T_0 T))))) (organization T_0) ((age T_0 T_1) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1) (All T0, (All T, (((organization T_0) /\ ((has_immunity T_0 T0) /\ (-. (has_immunity T_0 T)))) => (greater (hazard_of_mortality T_0 T) (hazard_of_mortality T_0 T0)))))   ### All 54
% 33.16/33.33  56. (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (is_aligned T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (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 T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_1) = (zero)) (organization T_0) (All T0, (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T0)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T0))))) => (greater (hazard_of_mortality T_0 T0) (hazard_of_mortality T_0 T)))))   ### All 55
% 33.16/33.33  57. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All T0, (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T0)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T0))))) => (greater (hazard_of_mortality T_0 T0) (hazard_of_mortality T_0 T))))) (organization T_0) ((age T_0 T_1) = (zero)) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (greater (age T_0 T_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0))))))   ### All 56
% 33.16/33.33  58. (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (is_aligned T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (age T_0 T_3)) ((age T_0 T_1) = (zero)) (organization T_0) (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T))))))   ### All 57
% 33.16/33.33  59. (((organization T_0) /\ ((age T_0 T_1) = (zero))) => (is_aligned 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)))))) (greater (sigma) (age T_0 T_3)) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (greater (age T_0 T_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) ((age T_0 T_1) = (zero)) (organization T_0)   ### DisjTree 1 2 58
% 33.16/33.33  60. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_1) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) (greater (sigma) (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 59
% 33.16/33.34  61. (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)))))) (greater (sigma) (age T_0 T_3)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (greater (age T_0 T_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) ((age T_0 T_1) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T)))   ### All 60
% 33.16/33.34  62. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_1) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (greater (sigma) (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 X, (All Y, (-. ((greater X Y) /\ (greater Y X)))))   ### All 61
% 33.16/33.34  63. (smaller (age T_0 T_3) (sigma)) (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 T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (greater (age T_0 T_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) ((age T_0 T_1) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T))))   ### Definition-Pseudo(smaller) 62
% 33.16/33.34  64. (organization T_0) (-. (organization T_0))   ### Axiom
% 33.16/33.34  65. ((age T_0 T_1) = (zero)) ((age T_0 T_1) != (zero))   ### Axiom
% 33.16/33.34  66. (organization T_0) (-. (organization T_0))   ### Axiom
% 33.16/33.34  67. (organization T_0) (-. (organization T_0))   ### Axiom
% 33.16/33.34  68. ((age T_0 T_1) = (zero)) ((age T_0 T_1) != (zero))   ### Axiom
% 33.16/33.34  69. (-. (greater (age T_0 T_3) (sigma))) (greater (age T_0 T_3) (sigma))   ### Axiom
% 33.16/33.34  70. ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_1 T_3)) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (-. (has_immunity T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) ((age T_0 T_1) = (zero)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1) (organization T_0)   ### Equiv 40 69
% 33.16/33.34  71. (((organization T_0) /\ ((age T_0 T_1) = (zero))) => ((greater (age T_0 T_3) (sigma)) <=> (dissimilar T_0 T_1 T_3))) (is_aligned T_0 T_1) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (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 T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_immunity T_0 T_3)) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_1) = (zero)) (organization T_0)   ### DisjTree 67 68 70
% 33.16/33.34  72. (All T, (((organization T_0) /\ ((age T_0 T_1) = (zero))) => ((greater (age T_0 T) (sigma)) <=> (dissimilar T_0 T_1 T)))) (organization T_0) ((age T_0 T_1) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (-. (has_immunity T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1)   ### All 71
% 33.16/33.34  73. (is_aligned T_0 T_1) (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T_3)) /\ (greater (capability T_0 T_3) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (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 T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_immunity T_0 T_3)) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_1) = (zero)) (organization T_0)   ### All 72
% 33.16/33.38  74. (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T)))) (organization T_0) ((age T_0 T_1) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (-. (has_immunity T_0 T_3)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1)   ### All 73
% 33.16/33.38  75. (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))   ### Axiom
% 33.16/33.38  76. (((organization T_0) /\ ((has_immunity T_0 T_3) /\ (-. (has_immunity T_0 T_2)))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (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 T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_1) = (zero)) (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T)))) (organization T_0)   ### DisjTree 66 74 14 75
% 33.16/33.38  77. (All T, (((organization T_0) /\ ((has_immunity T_0 T_3) /\ (-. (has_immunity T_0 T)))) => (greater (hazard_of_mortality T_0 T) (hazard_of_mortality T_0 T_3)))) (organization T_0) (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T_2)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T_2))))) => (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T)))) ((age T_0 T_1) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1)   ### All 76
% 33.16/33.38  78. (All T0, (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T0)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T0))))) => (greater (hazard_of_mortality T_0 T0) (hazard_of_mortality T_0 T))))) (is_aligned T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (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 T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_1) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((has_immunity T_0 T_3) /\ (-. (has_immunity T_0 T)))) => (greater (hazard_of_mortality T_0 T) (hazard_of_mortality T_0 T_3))))   ### All 77
% 33.16/33.38  79. (All T0, (All T, (((organization T_0) /\ ((has_immunity T_0 T0) /\ (-. (has_immunity T_0 T)))) => (greater (hazard_of_mortality T_0 T) (hazard_of_mortality T_0 T0))))) (organization T_0) ((age T_0 T_1) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability 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_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1) (All T0, (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T0)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T0))))) => (greater (hazard_of_mortality T_0 T0) (hazard_of_mortality T_0 T)))))   ### All 78
% 33.16/33.38  80. (All X, (All T0, (All T, (((organization X) /\ ((age X T0) = (zero))) => ((greater (age X T) (sigma)) <=> (dissimilar X T0 T)))))) (All T0, (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T0)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T0))))) => (greater (hazard_of_mortality T_0 T0) (hazard_of_mortality T_0 T))))) (is_aligned T_0 T_1) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_1) = (zero)) (organization T_0) (All T0, (All T, (((organization T_0) /\ ((has_immunity T_0 T0) /\ (-. (has_immunity T_0 T)))) => (greater (hazard_of_mortality T_0 T) (hazard_of_mortality T_0 T0)))))   ### All 79
% 33.16/33.38  81. (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (organization T_0) ((age T_0 T_1) = (zero)) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (greater (age T_0 T_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (is_aligned T_0 T_1) (All T0, (All T, (((organization T_0) /\ ((-. (has_immunity T_0 T0)) /\ ((-. (has_immunity T_0 T)) /\ (greater (capability T_0 T) (capability T_0 T0))))) => (greater (hazard_of_mortality T_0 T0) (hazard_of_mortality 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 80
% 33.16/33.38  82. (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (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 T_1) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) ((age T_0 T_1) = (zero)) (organization T_0) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0))))))   ### All 81
% 33.16/33.39  83. (((organization T_0) /\ ((age T_0 T_1) = (zero))) => (is_aligned T_0 T_1)) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (greater (age T_0 T_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (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)))))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) ((age T_0 T_1) = (zero)) (organization T_0)   ### DisjTree 64 65 82
% 33.16/33.39  84. (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T))) (organization T_0) ((age T_0 T_1) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (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_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (greater (age T_0 T_3) (sigma))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0))))))   ### All 83
% 33.16/33.39  85. ((age T_0 T_3) = (sigma)) ((age T_0 T_3) != (sigma))   ### Axiom
% 33.16/33.39  86. (-. (greater (sigma) (sigma))) ((age T_0 T_3) = (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (greater (age T_0 T_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (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)))))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) ((age T_0 T_1) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T)))   ### TransEq2 42 84 85
% 33.16/33.39  87. (-. ((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_1) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (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_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) ((age T_0 T_3) = (sigma))   ### NotAnd 86 86
% 33.16/33.39  88. (All Y, (-. ((greater (sigma) Y) /\ (greater Y (sigma))))) ((age T_0 T_3) = (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (greater (age T_0 T_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (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)))))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) ((age T_0 T_1) = (zero)) (organization T_0) (All T, (((organization T_0) /\ ((age T_0 T) = (zero))) => (is_aligned T_0 T)))   ### All 87
% 33.16/33.39  89. (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_1) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (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_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) ((age T_0 T_3) = (sigma))   ### All 88
% 33.16/33.39  90. (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) ((age T_0 T_3) = (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (greater (age T_0 T_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (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)))))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) ((age T_0 T_1) = (zero)) (organization T_0) (All X, (All Y, (-. ((greater X Y) /\ (greater Y X)))))   ### All 89
% 33.16/33.39  91. ((smaller (age T_0 T_3) (sigma)) \/ ((age T_0 T_3) = (sigma))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (organization T_0) ((age T_0 T_1) = (zero)) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (greater (age T_0 T_2) (sigma)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (-. (has_endowment T_0)) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (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)))))   ### Or 63 90
% 33.16/33.39  92. (smaller_or_equal (age T_0 T_3) (sigma)) (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 T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (-. (has_endowment T_0)) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (greater (age T_0 T_2) (sigma)) (-. (greater (hazard_of_mortality T_0 T_2) (hazard_of_mortality T_0 T_3))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) ((age T_0 T_1) = (zero)) (organization T_0) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T))))   ### Definition-Pseudo(smaller_or_equal) 91
% 33.16/33.39  93. (-. (((organization T_0) /\ ((-. (has_endowment T_0)) /\ (((age T_0 T_1) = (zero)) /\ ((smaller_or_equal (age T_0 T_3) (sigma)) /\ ((greater (age T_0 T_2) (sigma)) /\ (greater (sigma) (zero))))))) => (greater (hazard_of_mortality T_0 T_2) (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) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (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)))))   ### ConjTree 92
% 33.16/33.39  94. (-. (All T2, (((organization T_0) /\ ((-. (has_endowment T_0)) /\ (((age T_0 T_1) = (zero)) /\ ((smaller_or_equal (age T_0 T_3) (sigma)) /\ ((greater (age T_0 T2) (sigma)) /\ (greater (sigma) (zero))))))) => (greater (hazard_of_mortality T_0 T2) (hazard_of_mortality T_0 T_3))))) (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 T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T))))   ### NotAllEx 93
% 33.16/33.39  95. (-. (All T1, (All T2, (((organization T_0) /\ ((-. (has_endowment T_0)) /\ (((age T_0 T_1) = (zero)) /\ ((smaller_or_equal (age T_0 T1) (sigma)) /\ ((greater (age T_0 T2) (sigma)) /\ (greater (sigma) (zero))))))) => (greater (hazard_of_mortality T_0 T2) (hazard_of_mortality T_0 T1)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (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)))))   ### NotAllEx 94
% 33.16/33.39  96. (-. (All T0, (All T1, (All T2, (((organization T_0) /\ ((-. (has_endowment T_0)) /\ (((age T_0 T0) = (zero)) /\ ((smaller_or_equal (age T_0 T1) (sigma)) /\ ((greater (age T_0 T2) (sigma)) /\ (greater (sigma) (zero))))))) => (greater (hazard_of_mortality T_0 T2) (hazard_of_mortality T_0 T1))))))) (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 T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T))))   ### NotAllEx 95
% 33.16/33.39  97. (-. (All X, (All T0, (All T1, (All T2, (((organization X) /\ ((-. (has_endowment X)) /\ (((age X T0) = (zero)) /\ ((smaller_or_equal (age X T1) (sigma)) /\ ((greater (age X T2) (sigma)) /\ (greater (sigma) (zero))))))) => (greater (hazard_of_mortality X T2) (hazard_of_mortality X T1)))))))) (All X, (All T, (((organization X) /\ ((age X T) = (zero))) => (is_aligned X T)))) (All X, (All T0, (All T, (((organization X) /\ ((-. (has_immunity X T0)) /\ ((-. (has_immunity X T)) /\ (greater (capability X T) (capability X T0))))) => (greater (hazard_of_mortality X T0) (hazard_of_mortality X T)))))) (All X, (All T0, (All T, (((organization X) /\ ((has_immunity X T0) /\ (-. (has_immunity X T)))) => (greater (hazard_of_mortality X T) (hazard_of_mortality X T0)))))) (All X, (All T0, (All T, (((organization X) /\ ((is_aligned X T0) /\ (-. (is_aligned X T)))) => (greater (capability X T0) (capability X T)))))) (All X, (All T, (((organization X) /\ (-. (has_endowment X))) => (-. (has_immunity X T))))) (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)))))   ### NotAllEx 96
% 33.16/33.39  % SZS output end Proof
% 33.16/33.39  (* END-PROOF *)
%------------------------------------------------------------------------------