TSTP Solution File: MGT063-1 by SPASS---3.9
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- Process Solution
%------------------------------------------------------------------------------
% File : SPASS---3.9
% Problem : MGT063-1 : TPTP v8.1.0. Released v2.4.0.
% Transfm : none
% Format : tptp
% Command : run_spass %d %s
% Computer : n029.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 22:26:30 EDT 2022
% Result : Unsatisfiable 0.56s 0.75s
% Output : Refutation 0.56s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.10/0.12 % Problem : MGT063-1 : TPTP v8.1.0. Released v2.4.0.
% 0.10/0.12 % Command : run_spass %d %s
% 0.13/0.33 % Computer : n029.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 12:03:37 EDT 2022
% 0.13/0.33 % CPUTime :
% 0.56/0.75
% 0.56/0.75 SPASS V 3.9
% 0.56/0.75 SPASS beiseite: Proof found.
% 0.56/0.75 % SZS status Theorem
% 0.56/0.75 Problem: /export/starexec/sandbox2/benchmark/theBenchmark.p
% 0.56/0.75 SPASS derived 2701 clauses, backtracked 312 clauses, performed 5 splits and kept 1353 clauses.
% 0.56/0.75 SPASS allocated 77635 KBytes.
% 0.56/0.75 SPASS spent 0:00:00.41 on the problem.
% 0.56/0.75 0:00:00.04 for the input.
% 0.56/0.75 0:00:00.00 for the FLOTTER CNF translation.
% 0.56/0.75 0:00:00.03 for inferences.
% 0.56/0.75 0:00:00.00 for the backtracking.
% 0.56/0.75 0:00:00.30 for the reduction.
% 0.56/0.75
% 0.56/0.75
% 0.56/0.75 Here is a proof with depth 5, length 151 :
% 0.56/0.75 % SZS output start Refutation
% 0.56/0.75 8[0:Inp] organization(u) || has_immunity(u,v)* -> has_endowment(u).
% 0.56/0.75 9[0:Inp] || dissimilar(u,v,w)* -> organization(u).
% 0.56/0.75 11[0:Inp] || is_aligned(u,v) is_aligned(u,w) dissimilar(u,w,v)* -> .
% 0.56/0.75 13[0:Inp] organization(u) || is_aligned(u,v) -> is_aligned(u,w) dissimilar(u,v,w)*.
% 0.56/0.75 16[0:Inp] organization(u) || equal(age(u,v),zero)** -> is_aligned(u,v).
% 0.56/0.75 17[0:Inp] organization(u) || greater(age(u,v),sigma) equal(age(u,w),zero) -> dissimilar(u,w,v)*.
% 0.56/0.75 18[0:Inp] organization(u) || equal(age(u,v),zero) dissimilar(u,v,w)* -> greater(age(u,w),sigma).
% 0.56/0.75 19[0:Inp] robust_position(u) || positional_advantage(u,v) smaller_or_equal(age(u,v),tau)* -> .
% 0.56/0.75 20[0:Inp] robust_position(u) || greater(age(u,v),tau)*l -> positional_advantage(u,v).
% 0.56/0.75 27[0:Inp] organization(u) || positional_advantage(u,v) -> is_aligned(u,v) has_immunity(u,v) equal(hazard_of_mortality(u,v),mod1)**.
% 0.56/0.75 28[0:Inp] organization(u) || is_aligned(u,v) -> positional_advantage(u,v) has_immunity(u,v) equal(hazard_of_mortality(u,v),mod2)**.
% 0.56/0.75 29[0:Inp] organization(u) || -> positional_advantage(u,v) is_aligned(u,v) has_immunity(u,v) equal(hazard_of_mortality(u,v),high)**.
% 0.56/0.75 33[0:Inp] || -> greater(high,mod2)*l.
% 0.56/0.75 35[0:Inp] || -> greater(mod2,mod1)*l.
% 0.56/0.75 36[0:Inp] || -> organization(sk3)*.
% 0.56/0.75 37[0:Inp] || -> robust_position(sk3)*.
% 0.56/0.75 38[0:Inp] || has_endowment(sk3)* -> .
% 0.56/0.75 39[0:Inp] || -> equal(age(sk3,sk4),zero)**.
% 0.56/0.75 41[0:Inp] || -> greater(tau,zero)*l.
% 0.56/0.75 42[0:Inp] || -> smaller(sigma,tau)*.
% 0.56/0.75 43[0:Inp] || -> smaller_or_equal(age(sk3,sk5),sigma)*.
% 0.56/0.75 44[0:Inp] || -> greater(age(sk3,sk6),sigma)*l.
% 0.56/0.75 45[0:Inp] || -> smaller_or_equal(age(sk3,sk6),tau)*.
% 0.56/0.75 46[0:Inp] || -> greater(age(sk3,sk7),tau)*l.
% 0.56/0.75 47[0:Inp] || equal(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk4)) smaller(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk6)) smaller(hazard_of_mortality(sk3,sk7),hazard_of_mortality(sk3,sk5))* -> .
% 0.56/0.75 48[0:Inp] || smaller_or_equal(u,v) -> equal(u,v) smaller(u,v)*.
% 0.56/0.75 49[0:Inp] || smaller(u,v)* -> smaller_or_equal(u,v).
% 0.56/0.75 50[0:Inp] || equal(u,v) -> smaller_or_equal(u,v)*.
% 0.56/0.75 54[0:Inp] || smaller(u,v)* -> greater(v,u).
% 0.56/0.75 55[0:Inp] || greater(u,v) -> smaller(v,u)*.
% 0.56/0.75 56[0:Inp] || greater(u,v)*+ greater(v,u)* -> .
% 0.56/0.75 57[0:Inp] || greater(u,v)* greater(v,w)* -> greater(u,w)*.
% 0.56/0.75 58[0:Inp] || -> greater(u,v) equal(u,v) smaller(u,v)*.
% 0.56/0.75 60[0:MRR:18.0,9.1] || equal(age(u,v),zero) dissimilar(u,v,w)* -> greater(age(u,w),sigma).
% 0.56/0.75 62[0:Res:37.0,19.0] || positional_advantage(sk3,u) smaller_or_equal(age(sk3,u),tau)* -> .
% 0.56/0.75 65[0:Res:36.0,27.0] || positional_advantage(sk3,u) -> has_immunity(sk3,u) is_aligned(sk3,u) equal(hazard_of_mortality(sk3,u),mod1)**.
% 0.56/0.75 66[0:Res:36.0,28.0] || is_aligned(sk3,u) -> has_immunity(sk3,u) positional_advantage(sk3,u) equal(hazard_of_mortality(sk3,u),mod2)**.
% 0.56/0.75 67[0:Res:36.0,29.0] || -> has_immunity(sk3,u) is_aligned(sk3,u) positional_advantage(sk3,u) equal(hazard_of_mortality(sk3,u),high)**.
% 0.56/0.75 69[0:Res:36.0,13.0] || is_aligned(sk3,u) -> is_aligned(sk3,v) dissimilar(sk3,u,v)*.
% 0.56/0.75 73[0:Res:36.0,8.0] || has_immunity(sk3,u)* -> has_endowment(sk3).
% 0.56/0.75 74[0:Res:42.0,54.0] || -> greater(tau,sigma)*l.
% 0.56/0.75 75[0:Res:42.0,49.0] || -> smaller_or_equal(sigma,tau)*.
% 0.56/0.75 78[0:Res:45.0,19.1] robust_position(sk3) || positional_advantage(sk3,sk6)* -> .
% 0.56/0.75 80[0:Res:43.0,48.0] || -> equal(age(sk3,sk5),sigma) smaller(age(sk3,sk5),sigma)*.
% 0.56/0.75 81[0:Res:39.0,60.0] || dissimilar(sk3,sk4,u)* -> greater(age(sk3,u),sigma).
% 0.56/0.75 82[0:Res:39.0,17.1] organization(sk3) || greater(age(sk3,u),sigma) -> dissimilar(sk3,sk4,u)*.
% 0.56/0.75 83[0:Res:39.0,16.1] organization(sk3) || -> is_aligned(sk3,sk4)*.
% 0.56/0.75 90[0:Res:41.0,55.0] || -> smaller(zero,tau)*.
% 0.56/0.75 96[0:Res:46.0,20.1] robust_position(sk3) || -> positional_advantage(sk3,sk7)*.
% 0.56/0.75 101[0:Res:44.0,17.2] organization(sk3) || equal(age(sk3,u),zero) -> dissimilar(sk3,u,sk6)*.
% 0.56/0.75 110[0:MRR:73.1,38.0] || has_immunity(sk3,u)* -> .
% 0.56/0.75 111[0:MRR:83.0,36.0] || -> is_aligned(sk3,sk4)*.
% 0.56/0.75 112[0:MRR:96.0,37.0] || -> positional_advantage(sk3,sk7)*.
% 0.56/0.75 113[0:MRR:78.0,37.0] || positional_advantage(sk3,sk6)* -> .
% 0.56/0.75 115[0:MRR:101.0,36.0] || equal(age(sk3,u),zero) -> dissimilar(sk3,u,sk6)*.
% 0.56/0.75 116[0:MRR:67.0,110.0] || -> positional_advantage(sk3,u) is_aligned(sk3,u) equal(hazard_of_mortality(sk3,u),high)**.
% 0.56/0.75 117[0:MRR:65.1,110.0] || positional_advantage(sk3,u) -> is_aligned(sk3,u) equal(hazard_of_mortality(sk3,u),mod1)**.
% 0.56/0.75 118[0:MRR:66.1,110.0] || is_aligned(sk3,u) -> positional_advantage(sk3,u) equal(hazard_of_mortality(sk3,u),mod2)**.
% 0.56/0.75 120[0:MRR:82.0,36.0] || greater(age(sk3,u),sigma) -> dissimilar(sk3,sk4,u)*.
% 0.56/0.75 122[0:Res:39.0,115.0] || -> dissimilar(sk3,sk4,sk6)*.
% 0.56/0.75 137[0:Res:90.0,49.0] || -> smaller_or_equal(zero,tau)*.
% 0.56/0.75 147[0:SpL:39.0,62.1] || positional_advantage(sk3,sk4)* smaller_or_equal(zero,tau) -> .
% 0.56/0.75 149[0:MRR:147.1,137.0] || positional_advantage(sk3,sk4)* -> .
% 0.56/0.75 171[0:Res:80.1,54.0] || -> equal(age(sk3,sk5),sigma) greater(sigma,age(sk3,sk5))*r.
% 0.56/0.75 205[0:Res:122.0,11.2] || is_aligned(sk3,sk6)* is_aligned(sk3,sk4) -> .
% 0.56/0.75 209[0:MRR:205.1,111.0] || is_aligned(sk3,sk6)* -> .
% 0.56/0.75 219[0:Res:58.2,49.0] || -> greater(u,v) equal(u,v) smaller_or_equal(u,v)*.
% 0.56/0.75 220[0:MRR:219.1,50.0] || -> greater(u,v) smaller_or_equal(u,v)*.
% 0.56/0.75 221[0:Res:220.1,62.1] || positional_advantage(sk3,u) -> greater(age(sk3,u),tau)*l.
% 0.56/0.75 242[1:Spt:171.0] || -> equal(age(sk3,sk5),sigma)**.
% 0.56/0.75 247[1:SpL:242.0,62.1] || positional_advantage(sk3,sk5)* smaller_or_equal(sigma,tau) -> .
% 0.56/0.75 255[1:MRR:247.1,75.0] || positional_advantage(sk3,sk5)* -> .
% 0.56/0.75 264[0:Res:120.1,11.2] || greater(age(sk3,u),sigma)*l is_aligned(sk3,u) is_aligned(sk3,sk4) -> .
% 0.56/0.75 265[0:MRR:264.2,111.0] || greater(age(sk3,u),sigma)*l is_aligned(sk3,u) -> .
% 0.56/0.75 268[0:Res:69.2,81.0] || is_aligned(sk3,sk4) -> is_aligned(sk3,u) greater(age(sk3,u),sigma)*l.
% 0.56/0.75 276[0:MRR:268.0,111.0] || -> is_aligned(sk3,u) greater(age(sk3,u),sigma)*l.
% 0.56/0.75 279[1:SpR:242.0,276.1] || -> is_aligned(sk3,sk5)* greater(sigma,sigma).
% 0.56/0.75 312[0:NCh:57.2,57.0,265.0,221.1] || greater(tau,sigma) is_aligned(sk3,u) positional_advantage(sk3,u)* -> .
% 0.56/0.75 317[0:MRR:312.0,74.0] || is_aligned(sk3,u) positional_advantage(sk3,u)* -> .
% 0.56/0.75 318[0:MRR:117.1,317.0] || positional_advantage(sk3,u) -> equal(hazard_of_mortality(sk3,u),mod1)**.
% 0.56/0.75 319[0:MRR:118.1,317.1] || is_aligned(sk3,u) -> equal(hazard_of_mortality(sk3,u),mod2)**.
% 0.56/0.75 335[0:Res:35.0,56.0] || greater(mod1,mod2)*r -> .
% 0.56/0.75 342[0:Res:276.1,56.0] || greater(sigma,age(sk3,u))*r -> is_aligned(sk3,u).
% 0.56/0.75 487[0:SpL:318.1,47.2] || positional_advantage(sk3,sk7) equal(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk4)) smaller(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk6))* smaller(mod1,hazard_of_mortality(sk3,sk5)) -> .
% 0.56/0.75 494[0:Res:58.2,47.2] || equal(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk4)) smaller(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk6))* -> greater(hazard_of_mortality(sk3,sk7),hazard_of_mortality(sk3,sk5)) equal(hazard_of_mortality(sk3,sk7),hazard_of_mortality(sk3,sk5)).
% 0.56/0.75 497[0:MRR:487.0,112.0] || equal(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk4)) smaller(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk6))* smaller(mod1,hazard_of_mortality(sk3,sk5)) -> .
% 0.56/0.75 1235[1:SpL:242.0,342.0] || greater(sigma,sigma) -> is_aligned(sk3,sk5)*.
% 0.56/0.75 1240[1:MRR:1235.0,279.1] || -> is_aligned(sk3,sk5)*.
% 0.56/0.75 1915[2:Spt:494.3] || -> equal(hazard_of_mortality(sk3,sk7),hazard_of_mortality(sk3,sk5))**.
% 0.56/0.75 1927[2:SpR:1915.0,318.1] || positional_advantage(sk3,sk7) -> equal(hazard_of_mortality(sk3,sk5),mod1)**.
% 0.56/0.75 1935[2:MRR:1927.0,112.0] || -> equal(hazard_of_mortality(sk3,sk5),mod1)**.
% 0.56/0.75 1957[2:SpR:1935.0,319.1] || is_aligned(sk3,sk5)* -> equal(mod2,mod1).
% 0.56/0.75 1964[2:MRR:1957.0,1240.0] || -> equal(mod2,mod1)**.
% 0.56/0.75 1965[2:Rew:1964.0,35.0] || -> greater(mod1,mod1)*.
% 0.56/0.75 1969[2:Rew:1964.0,335.0] || greater(mod1,mod1)* -> .
% 0.56/0.75 2183[2:MRR:1969.0,1965.0] || -> .
% 0.56/0.76 2210[2:Spt:2183.0,494.3,1915.0] || equal(hazard_of_mortality(sk3,sk7),hazard_of_mortality(sk3,sk5))** -> .
% 0.56/0.76 2211[2:Spt:2183.0,494.0,494.1,494.2] || equal(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk4)) smaller(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk6))* -> greater(hazard_of_mortality(sk3,sk7),hazard_of_mortality(sk3,sk5)).
% 0.56/0.76 2343[2:SpL:318.1,2210.0] || positional_advantage(sk3,sk7) equal(hazard_of_mortality(sk3,sk5),mod1)** -> .
% 0.56/0.76 2349[2:MRR:2343.0,112.0] || equal(hazard_of_mortality(sk3,sk5),mod1)** -> .
% 0.56/0.76 2378[2:SpL:28.4,2349.0] organization(sk3) || is_aligned(sk3,sk5) equal(mod2,mod1) -> positional_advantage(sk3,sk5)* has_immunity(sk3,sk5).
% 0.56/0.76 2381[2:SSi:2378.0,37.0,36.0] || is_aligned(sk3,sk5) equal(mod2,mod1) -> positional_advantage(sk3,sk5)* has_immunity(sk3,sk5).
% 0.56/0.76 2382[2:MRR:2381.0,2381.2,2381.3,1240.0,255.0,110.0] || equal(mod2,mod1)** -> .
% 0.56/0.76 2404[3:Spt:47.0] || equal(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk4))** -> .
% 0.56/0.76 2405[3:SpL:319.1,2404.0] || is_aligned(sk3,sk5) equal(hazard_of_mortality(sk3,sk4),mod2)** -> .
% 0.56/0.76 2413[3:MRR:2405.0,1240.0] || equal(hazard_of_mortality(sk3,sk4),mod2)** -> .
% 0.56/0.76 2417[3:SpL:28.4,2413.0] organization(sk3) || is_aligned(sk3,sk4) equal(mod2,mod2) -> positional_advantage(sk3,sk4)* has_immunity(sk3,sk4).
% 0.56/0.76 2424[3:Obv:2417.2] organization(sk3) || is_aligned(sk3,sk4) -> positional_advantage(sk3,sk4)* has_immunity(sk3,sk4).
% 0.56/0.76 2425[3:SSi:2424.0,37.0,36.0] || is_aligned(sk3,sk4) -> positional_advantage(sk3,sk4)* has_immunity(sk3,sk4).
% 0.56/0.76 2426[3:MRR:2425.0,2425.1,2425.2,111.0,149.0,110.0] || -> .
% 0.56/0.76 2427[3:Spt:2426.0,47.0,2404.0] || -> equal(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk4))**.
% 0.56/0.76 2428[3:Spt:2426.0,47.1,47.2] || smaller(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk6)) smaller(hazard_of_mortality(sk3,sk7),hazard_of_mortality(sk3,sk5))* -> .
% 0.56/0.76 2434[3:Rew:2427.0,497.2,2427.0,497.1,2427.0,497.0] || equal(hazard_of_mortality(sk3,sk4),hazard_of_mortality(sk3,sk4)) smaller(hazard_of_mortality(sk3,sk4),hazard_of_mortality(sk3,sk6))* smaller(mod1,hazard_of_mortality(sk3,sk4)) -> .
% 0.56/0.76 2435[3:Obv:2434.0] || smaller(hazard_of_mortality(sk3,sk4),hazard_of_mortality(sk3,sk6))* smaller(mod1,hazard_of_mortality(sk3,sk4)) -> .
% 0.56/0.76 2476[3:SpR:2427.0,319.1] || is_aligned(sk3,sk5) -> equal(hazard_of_mortality(sk3,sk4),mod2)**.
% 0.56/0.76 2483[3:MRR:2476.0,1240.0] || -> equal(hazard_of_mortality(sk3,sk4),mod2)**.
% 0.56/0.76 2490[3:Rew:2483.0,2435.0] || smaller(mod2,hazard_of_mortality(sk3,sk6))* smaller(mod1,hazard_of_mortality(sk3,sk4)) -> .
% 0.56/0.76 2508[3:Rew:2483.0,2490.1] || smaller(mod2,hazard_of_mortality(sk3,sk6))* smaller(mod1,mod2) -> .
% 0.56/0.76 2582[3:SpL:116.2,2508.0] || smaller(mod2,high)* smaller(mod1,mod2) -> positional_advantage(sk3,sk6) is_aligned(sk3,sk6).
% 0.56/0.76 2591[3:MRR:2582.2,2582.3,113.0,209.0] || smaller(mod2,high)* smaller(mod1,mod2) -> .
% 0.56/0.76 2595[3:Res:55.1,2591.0] || greater(high,mod2) smaller(mod1,mod2)* -> .
% 0.56/0.76 2596[3:MRR:2595.0,33.0] || smaller(mod1,mod2)* -> .
% 0.56/0.76 2597[3:Res:58.2,2596.0] || -> greater(mod1,mod2)*r equal(mod2,mod1).
% 0.56/0.76 2602[3:MRR:2597.0,2597.1,335.0,2382.0] || -> .
% 0.56/0.76 2603[1:Spt:2602.0,171.0,242.0] || equal(age(sk3,sk5),sigma)** -> .
% 0.56/0.76 2604[1:Spt:2602.0,171.1] || -> greater(sigma,age(sk3,sk5))*r.
% 0.56/0.76 2619[1:Res:2604.0,342.0] || -> is_aligned(sk3,sk5)*.
% 0.56/0.76 2712[2:Spt:47.0] || equal(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk4))** -> .
% 0.56/0.76 2713[2:SpL:319.1,2712.0] || is_aligned(sk3,sk5) equal(hazard_of_mortality(sk3,sk4),mod2)** -> .
% 0.56/0.76 2721[2:MRR:2713.0,2619.0] || equal(hazard_of_mortality(sk3,sk4),mod2)** -> .
% 0.56/0.76 2725[2:SpL:28.4,2721.0] organization(sk3) || is_aligned(sk3,sk4) equal(mod2,mod2) -> positional_advantage(sk3,sk4)* has_immunity(sk3,sk4).
% 0.56/0.76 2732[2:Obv:2725.2] organization(sk3) || is_aligned(sk3,sk4) -> positional_advantage(sk3,sk4)* has_immunity(sk3,sk4).
% 0.56/0.76 2733[2:SSi:2732.0,37.0,36.0] || is_aligned(sk3,sk4) -> positional_advantage(sk3,sk4)* has_immunity(sk3,sk4).
% 0.56/0.76 2734[2:MRR:2733.0,2733.1,2733.2,111.0,149.0,110.0] || -> .
% 0.56/0.76 2735[2:Spt:2734.0,47.0,2712.0] || -> equal(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk4))**.
% 0.56/0.76 2736[2:Spt:2734.0,47.1,47.2] || smaller(hazard_of_mortality(sk3,sk5),hazard_of_mortality(sk3,sk6)) smaller(hazard_of_mortality(sk3,sk7),hazard_of_mortality(sk3,sk5))* -> .
% 0.56/0.76 2738[2:Rew:2735.0,497.2,2735.0,497.1,2735.0,497.0] || equal(hazard_of_mortality(sk3,sk4),hazard_of_mortality(sk3,sk4)) smaller(hazard_of_mortality(sk3,sk4),hazard_of_mortality(sk3,sk6))* smaller(mod1,hazard_of_mortality(sk3,sk4)) -> .
% 0.56/0.76 2739[2:Obv:2738.0] || smaller(hazard_of_mortality(sk3,sk4),hazard_of_mortality(sk3,sk6))* smaller(mod1,hazard_of_mortality(sk3,sk4)) -> .
% 0.56/0.76 2764[2:SpR:2735.0,319.1] || is_aligned(sk3,sk5) -> equal(hazard_of_mortality(sk3,sk4),mod2)**.
% 0.56/0.76 2771[2:MRR:2764.0,2619.0] || -> equal(hazard_of_mortality(sk3,sk4),mod2)**.
% 0.56/0.76 2776[2:Rew:2771.0,2739.0] || smaller(mod2,hazard_of_mortality(sk3,sk6))* smaller(mod1,hazard_of_mortality(sk3,sk4)) -> .
% 0.56/0.76 2789[2:Rew:2771.0,2776.1] || smaller(mod2,hazard_of_mortality(sk3,sk6))* smaller(mod1,mod2) -> .
% 0.56/0.76 2836[2:SpL:116.2,2789.0] || smaller(mod2,high)* smaller(mod1,mod2) -> positional_advantage(sk3,sk6) is_aligned(sk3,sk6).
% 0.56/0.76 2845[2:MRR:2836.2,2836.3,113.0,209.0] || smaller(mod2,high)* smaller(mod1,mod2) -> .
% 0.56/0.76 2848[2:Res:55.1,2845.0] || greater(high,mod2) smaller(mod1,mod2)* -> .
% 0.56/0.76 2849[2:MRR:2848.0,33.0] || smaller(mod1,mod2)* -> .
% 0.56/0.76 2850[2:Res:58.2,2849.0] || -> greater(mod1,mod2)*r equal(mod2,mod1).
% 0.56/0.76 2854[2:MRR:2850.0,335.0] || -> equal(mod2,mod1)**.
% 0.56/0.76 2881[2:Rew:2854.0,35.0] || -> greater(mod1,mod1)*.
% 0.56/0.76 2886[2:Rew:2854.0,335.0] || greater(mod1,mod1)* -> .
% 0.56/0.76 3082[2:MRR:2886.0,2881.0] || -> .
% 0.56/0.76 % SZS output end Refutation
% 0.56/0.76 Formulae used in the proof : assumption_1_46 definition_2_47 definition_2_49 definition_2_51 assumption_13_54 assumption_15_55 assumption_15_56 definition_4_57 definition_4_58 assumption_17_65 assumption_17_66 assumption_17_67 assumption_18d_71 assumption_19_73 theorem_9_74 theorem_9_75 theorem_9_76 theorem_9_77 theorem_9_79 theorem_9_80 theorem_9_81 theorem_9_82 theorem_9_83 theorem_9_84 theorem_9_85 definition_smaller_or_equal_1 definition_smaller_or_equal_2 definition_smaller_or_equal_3 definition_smaller_7 definition_smaller_8 meaning_postulate_greater_strict_9 meaning_postulate_greater_transitive_10 meaning_postulate_greater_comparable_11
% 0.56/0.76
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