TSTP Solution File: MGT024+1 by SRASS---0.1

View Problem - Process Solution 
%------------------------------------------------------------------------------
% File     : SRASS---0.1
% Problem  : MGT024+1 : TPTP v5.0.0. Released v2.0.0.
% Transfm  : none
% Format   : tptp
% Command  : SRASS -q2 -a 0 10 10 10 -i3 -n60 %s

% Computer : art05.cs.miami.edu
% Model    : i686 i686
% CPU      : Intel(R) Pentium(R) 4 CPU 2.80GHz @ 2793MHz
% Memory   : 2018MB
% OS       : Linux 2.6.26.8-57.fc8
% CPULimit : 300s
% DateTime : Wed Dec 29 16:05:20 EST 2010

% Result   : Theorem 0.89s
% Output   : Solution 0.89s
% Verified : 
% SZS Type : None (Parsing solution fails)
% Syntax   : Number of formulae    : 0

% Comments : 
%------------------------------------------------------------------------------
%----ERROR: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% Reading problem from /tmp/SystemOnTPTP5708/MGT024+1.tptp
% Adding relevance values
% Extracting the conjecture
% Sorting axioms by relevance
% Looking for THM       ... found
% SZS status THM for /tmp/SystemOnTPTP5708/MGT024+1.tptp
% SZS output start Solution for /tmp/SystemOnTPTP5708/MGT024+1.tptp
% TreeLimitedRun: ----------------------------------------------------------
% TreeLimitedRun: /home/graph/tptp/Systems/EP---1.2/eproof --print-statistics -xAuto -tAuto --cpu-limit=60 --proof-time-unlimited --memory-limit=Auto --tstp-in --tstp-out /tmp/SRASS.s.p 
% TreeLimitedRun: CPU time limit is 60s
% TreeLimitedRun: WC  time limit is 120s
% TreeLimitedRun: PID is 5804
% TreeLimitedRun: ----------------------------------------------------------
% PrfWatch: 0.00 CPU 0.00 WC
% # Preprocessing time     : 0.013 s
% # Problem is unsatisfiable (or provable), constructing proof object
% # SZS status Theorem
% # SZS output start CNFRefutation.
% fof(1, axiom,![X1]:![X2]:((environment(X1)&subpopulations(first_movers,efficient_producers,X1,X2))=>in_environment(X1,X2)),file('/tmp/SRASS.s.p', mp_time_point_occur)).
% fof(2, axiom,![X1]:![X2]:((environment(X1)&subpopulations(first_movers,efficient_producers,X1,X2))=>greater(number_of_organizations(X1,X2),zero)),file('/tmp/SRASS.s.p', mp_positive_number_of_organizations)).
% fof(3, axiom,![X1]:![X2]:((environment(X1)&greater_or_equal(X2,equilibrium(X1)))=>~(greater(equilibrium(X1),X2))),file('/tmp/SRASS.s.p', mp_equilibrium)).
% fof(4, axiom,![X1]:![X2]:(((environment(X1)&in_environment(X1,X2))&greater(number_of_organizations(X1,X2),zero))=>((greater(equilibrium(X1),X2)=>decreases(resources(X1,X2)))&(~(greater(equilibrium(X1),X2))=>constant(resources(X1,X2))))),file('/tmp/SRASS.s.p', a3)).
% fof(5, axiom,![X1]:![X2]:((environment(X1)&in_environment(X1,X2))=>((decreases(resources(X1,X2))=>~(decreases(number_of_organizations(X1,X2))))&(constant(resources(X1,X2))=>constant(number_of_organizations(X1,X2))))),file('/tmp/SRASS.s.p', a6)).
% fof(6, axiom,![X1]:![X2]:(((environment(X1)&subpopulations(first_movers,efficient_producers,X1,X2))&constant(number_of_organizations(X1,X2)))=>(((growth_rate(first_movers,X2)=zero&growth_rate(efficient_producers,X2)=zero)|(greater(growth_rate(first_movers,X2),zero)&greater(zero,growth_rate(efficient_producers,X2))))|(greater(growth_rate(efficient_producers,X2),zero)&greater(zero,growth_rate(first_movers,X2))))),file('/tmp/SRASS.s.p', l7)).
% fof(7, conjecture,![X1]:![X2]:(((environment(X1)&subpopulations(first_movers,efficient_producers,X1,X2))&greater_or_equal(X2,equilibrium(X1)))=>(((growth_rate(first_movers,X2)=zero&growth_rate(efficient_producers,X2)=zero)|(greater(growth_rate(first_movers,X2),zero)&greater(zero,growth_rate(efficient_producers,X2))))|(greater(growth_rate(efficient_producers,X2),zero)&greater(zero,growth_rate(first_movers,X2))))),file('/tmp/SRASS.s.p', prove_l6)).
% fof(8, negated_conjecture,~(![X1]:![X2]:(((environment(X1)&subpopulations(first_movers,efficient_producers,X1,X2))&greater_or_equal(X2,equilibrium(X1)))=>(((growth_rate(first_movers,X2)=zero&growth_rate(efficient_producers,X2)=zero)|(greater(growth_rate(first_movers,X2),zero)&greater(zero,growth_rate(efficient_producers,X2))))|(greater(growth_rate(efficient_producers,X2),zero)&greater(zero,growth_rate(first_movers,X2)))))),inference(assume_negation,[status(cth)],[7])).
% fof(9, plain,![X1]:![X2]:((environment(X1)&greater_or_equal(X2,equilibrium(X1)))=>~(greater(equilibrium(X1),X2))),inference(fof_simplification,[status(thm)],[3,theory(equality)])).
% fof(10, plain,![X1]:![X2]:(((environment(X1)&in_environment(X1,X2))&greater(number_of_organizations(X1,X2),zero))=>((greater(equilibrium(X1),X2)=>decreases(resources(X1,X2)))&(~(greater(equilibrium(X1),X2))=>constant(resources(X1,X2))))),inference(fof_simplification,[status(thm)],[4,theory(equality)])).
% fof(11, plain,![X1]:![X2]:((environment(X1)&in_environment(X1,X2))=>((decreases(resources(X1,X2))=>~(decreases(number_of_organizations(X1,X2))))&(constant(resources(X1,X2))=>constant(number_of_organizations(X1,X2))))),inference(fof_simplification,[status(thm)],[5,theory(equality)])).
% fof(12, plain,![X1]:![X2]:((~(environment(X1))|~(subpopulations(first_movers,efficient_producers,X1,X2)))|in_environment(X1,X2)),inference(fof_nnf,[status(thm)],[1])).
% fof(13, plain,![X3]:![X4]:((~(environment(X3))|~(subpopulations(first_movers,efficient_producers,X3,X4)))|in_environment(X3,X4)),inference(variable_rename,[status(thm)],[12])).
% cnf(14,plain,(in_environment(X1,X2)|~subpopulations(first_movers,efficient_producers,X1,X2)|~environment(X1)),inference(split_conjunct,[status(thm)],[13])).
% fof(15, plain,![X1]:![X2]:((~(environment(X1))|~(subpopulations(first_movers,efficient_producers,X1,X2)))|greater(number_of_organizations(X1,X2),zero)),inference(fof_nnf,[status(thm)],[2])).
% fof(16, plain,![X3]:![X4]:((~(environment(X3))|~(subpopulations(first_movers,efficient_producers,X3,X4)))|greater(number_of_organizations(X3,X4),zero)),inference(variable_rename,[status(thm)],[15])).
% cnf(17,plain,(greater(number_of_organizations(X1,X2),zero)|~subpopulations(first_movers,efficient_producers,X1,X2)|~environment(X1)),inference(split_conjunct,[status(thm)],[16])).
% fof(18, plain,![X1]:![X2]:((~(environment(X1))|~(greater_or_equal(X2,equilibrium(X1))))|~(greater(equilibrium(X1),X2))),inference(fof_nnf,[status(thm)],[9])).
% fof(19, plain,![X3]:![X4]:((~(environment(X3))|~(greater_or_equal(X4,equilibrium(X3))))|~(greater(equilibrium(X3),X4))),inference(variable_rename,[status(thm)],[18])).
% cnf(20,plain,(~greater(equilibrium(X1),X2)|~greater_or_equal(X2,equilibrium(X1))|~environment(X1)),inference(split_conjunct,[status(thm)],[19])).
% fof(21, plain,![X1]:![X2]:(((~(environment(X1))|~(in_environment(X1,X2)))|~(greater(number_of_organizations(X1,X2),zero)))|((~(greater(equilibrium(X1),X2))|decreases(resources(X1,X2)))&(greater(equilibrium(X1),X2)|constant(resources(X1,X2))))),inference(fof_nnf,[status(thm)],[10])).
% fof(22, plain,![X3]:![X4]:(((~(environment(X3))|~(in_environment(X3,X4)))|~(greater(number_of_organizations(X3,X4),zero)))|((~(greater(equilibrium(X3),X4))|decreases(resources(X3,X4)))&(greater(equilibrium(X3),X4)|constant(resources(X3,X4))))),inference(variable_rename,[status(thm)],[21])).
% fof(23, plain,![X3]:![X4]:(((~(greater(equilibrium(X3),X4))|decreases(resources(X3,X4)))|((~(environment(X3))|~(in_environment(X3,X4)))|~(greater(number_of_organizations(X3,X4),zero))))&((greater(equilibrium(X3),X4)|constant(resources(X3,X4)))|((~(environment(X3))|~(in_environment(X3,X4)))|~(greater(number_of_organizations(X3,X4),zero))))),inference(distribute,[status(thm)],[22])).
% cnf(24,plain,(constant(resources(X1,X2))|greater(equilibrium(X1),X2)|~greater(number_of_organizations(X1,X2),zero)|~in_environment(X1,X2)|~environment(X1)),inference(split_conjunct,[status(thm)],[23])).
% fof(26, plain,![X1]:![X2]:((~(environment(X1))|~(in_environment(X1,X2)))|((~(decreases(resources(X1,X2)))|~(decreases(number_of_organizations(X1,X2))))&(~(constant(resources(X1,X2)))|constant(number_of_organizations(X1,X2))))),inference(fof_nnf,[status(thm)],[11])).
% fof(27, plain,![X3]:![X4]:((~(environment(X3))|~(in_environment(X3,X4)))|((~(decreases(resources(X3,X4)))|~(decreases(number_of_organizations(X3,X4))))&(~(constant(resources(X3,X4)))|constant(number_of_organizations(X3,X4))))),inference(variable_rename,[status(thm)],[26])).
% fof(28, plain,![X3]:![X4]:(((~(decreases(resources(X3,X4)))|~(decreases(number_of_organizations(X3,X4))))|(~(environment(X3))|~(in_environment(X3,X4))))&((~(constant(resources(X3,X4)))|constant(number_of_organizations(X3,X4)))|(~(environment(X3))|~(in_environment(X3,X4))))),inference(distribute,[status(thm)],[27])).
% cnf(29,plain,(constant(number_of_organizations(X1,X2))|~in_environment(X1,X2)|~environment(X1)|~constant(resources(X1,X2))),inference(split_conjunct,[status(thm)],[28])).
% fof(31, plain,![X1]:![X2]:(((~(environment(X1))|~(subpopulations(first_movers,efficient_producers,X1,X2)))|~(constant(number_of_organizations(X1,X2))))|(((growth_rate(first_movers,X2)=zero&growth_rate(efficient_producers,X2)=zero)|(greater(growth_rate(first_movers,X2),zero)&greater(zero,growth_rate(efficient_producers,X2))))|(greater(growth_rate(efficient_producers,X2),zero)&greater(zero,growth_rate(first_movers,X2))))),inference(fof_nnf,[status(thm)],[6])).
% fof(32, plain,![X3]:![X4]:(((~(environment(X3))|~(subpopulations(first_movers,efficient_producers,X3,X4)))|~(constant(number_of_organizations(X3,X4))))|(((growth_rate(first_movers,X4)=zero&growth_rate(efficient_producers,X4)=zero)|(greater(growth_rate(first_movers,X4),zero)&greater(zero,growth_rate(efficient_producers,X4))))|(greater(growth_rate(efficient_producers,X4),zero)&greater(zero,growth_rate(first_movers,X4))))),inference(variable_rename,[status(thm)],[31])).
% fof(33, plain,![X3]:![X4]:(((((greater(growth_rate(efficient_producers,X4),zero)|(greater(growth_rate(first_movers,X4),zero)|growth_rate(first_movers,X4)=zero))|((~(environment(X3))|~(subpopulations(first_movers,efficient_producers,X3,X4)))|~(constant(number_of_organizations(X3,X4)))))&((greater(zero,growth_rate(first_movers,X4))|(greater(growth_rate(first_movers,X4),zero)|growth_rate(first_movers,X4)=zero))|((~(environment(X3))|~(subpopulations(first_movers,efficient_producers,X3,X4)))|~(constant(number_of_organizations(X3,X4))))))&(((greater(growth_rate(efficient_producers,X4),zero)|(greater(zero,growth_rate(efficient_producers,X4))|growth_rate(first_movers,X4)=zero))|((~(environment(X3))|~(subpopulations(first_movers,efficient_producers,X3,X4)))|~(constant(number_of_organizations(X3,X4)))))&((greater(zero,growth_rate(first_movers,X4))|(greater(zero,growth_rate(efficient_producers,X4))|growth_rate(first_movers,X4)=zero))|((~(environment(X3))|~(subpopulations(first_movers,efficient_producers,X3,X4)))|~(constant(number_of_organizations(X3,X4)))))))&((((greater(growth_rate(efficient_producers,X4),zero)|(greater(growth_rate(first_movers,X4),zero)|growth_rate(efficient_producers,X4)=zero))|((~(environment(X3))|~(subpopulations(first_movers,efficient_producers,X3,X4)))|~(constant(number_of_organizations(X3,X4)))))&((greater(zero,growth_rate(first_movers,X4))|(greater(growth_rate(first_movers,X4),zero)|growth_rate(efficient_producers,X4)=zero))|((~(environment(X3))|~(subpopulations(first_movers,efficient_producers,X3,X4)))|~(constant(number_of_organizations(X3,X4))))))&(((greater(growth_rate(efficient_producers,X4),zero)|(greater(zero,growth_rate(efficient_producers,X4))|growth_rate(efficient_producers,X4)=zero))|((~(environment(X3))|~(subpopulations(first_movers,efficient_producers,X3,X4)))|~(constant(number_of_organizations(X3,X4)))))&((greater(zero,growth_rate(first_movers,X4))|(greater(zero,growth_rate(efficient_producers,X4))|growth_rate(efficient_producers,X4)=zero))|((~(environment(X3))|~(subpopulations(first_movers,efficient_producers,X3,X4)))|~(constant(number_of_organizations(X3,X4)))))))),inference(distribute,[status(thm)],[32])).
% cnf(34,plain,(growth_rate(efficient_producers,X2)=zero|greater(zero,growth_rate(efficient_producers,X2))|greater(zero,growth_rate(first_movers,X2))|~constant(number_of_organizations(X1,X2))|~subpopulations(first_movers,efficient_producers,X1,X2)|~environment(X1)),inference(split_conjunct,[status(thm)],[33])).
% cnf(35,plain,(growth_rate(efficient_producers,X2)=zero|greater(zero,growth_rate(efficient_producers,X2))|greater(growth_rate(efficient_producers,X2),zero)|~constant(number_of_organizations(X1,X2))|~subpopulations(first_movers,efficient_producers,X1,X2)|~environment(X1)),inference(split_conjunct,[status(thm)],[33])).
% cnf(36,plain,(growth_rate(efficient_producers,X2)=zero|greater(growth_rate(first_movers,X2),zero)|greater(zero,growth_rate(first_movers,X2))|~constant(number_of_organizations(X1,X2))|~subpopulations(first_movers,efficient_producers,X1,X2)|~environment(X1)),inference(split_conjunct,[status(thm)],[33])).
% cnf(38,plain,(growth_rate(first_movers,X2)=zero|greater(zero,growth_rate(efficient_producers,X2))|greater(zero,growth_rate(first_movers,X2))|~constant(number_of_organizations(X1,X2))|~subpopulations(first_movers,efficient_producers,X1,X2)|~environment(X1)),inference(split_conjunct,[status(thm)],[33])).
% cnf(39,plain,(growth_rate(first_movers,X2)=zero|greater(zero,growth_rate(efficient_producers,X2))|greater(growth_rate(efficient_producers,X2),zero)|~constant(number_of_organizations(X1,X2))|~subpopulations(first_movers,efficient_producers,X1,X2)|~environment(X1)),inference(split_conjunct,[status(thm)],[33])).
% cnf(40,plain,(growth_rate(first_movers,X2)=zero|greater(growth_rate(first_movers,X2),zero)|greater(zero,growth_rate(first_movers,X2))|~constant(number_of_organizations(X1,X2))|~subpopulations(first_movers,efficient_producers,X1,X2)|~environment(X1)),inference(split_conjunct,[status(thm)],[33])).
% cnf(41,plain,(growth_rate(first_movers,X2)=zero|greater(growth_rate(first_movers,X2),zero)|greater(growth_rate(efficient_producers,X2),zero)|~constant(number_of_organizations(X1,X2))|~subpopulations(first_movers,efficient_producers,X1,X2)|~environment(X1)),inference(split_conjunct,[status(thm)],[33])).
% fof(42, negated_conjecture,?[X1]:?[X2]:(((environment(X1)&subpopulations(first_movers,efficient_producers,X1,X2))&greater_or_equal(X2,equilibrium(X1)))&(((~(growth_rate(first_movers,X2)=zero)|~(growth_rate(efficient_producers,X2)=zero))&(~(greater(growth_rate(first_movers,X2),zero))|~(greater(zero,growth_rate(efficient_producers,X2)))))&(~(greater(growth_rate(efficient_producers,X2),zero))|~(greater(zero,growth_rate(first_movers,X2)))))),inference(fof_nnf,[status(thm)],[8])).
% fof(43, negated_conjecture,?[X3]:?[X4]:(((environment(X3)&subpopulations(first_movers,efficient_producers,X3,X4))&greater_or_equal(X4,equilibrium(X3)))&(((~(growth_rate(first_movers,X4)=zero)|~(growth_rate(efficient_producers,X4)=zero))&(~(greater(growth_rate(first_movers,X4),zero))|~(greater(zero,growth_rate(efficient_producers,X4)))))&(~(greater(growth_rate(efficient_producers,X4),zero))|~(greater(zero,growth_rate(first_movers,X4)))))),inference(variable_rename,[status(thm)],[42])).
% fof(44, negated_conjecture,(((environment(esk1_0)&subpopulations(first_movers,efficient_producers,esk1_0,esk2_0))&greater_or_equal(esk2_0,equilibrium(esk1_0)))&(((~(growth_rate(first_movers,esk2_0)=zero)|~(growth_rate(efficient_producers,esk2_0)=zero))&(~(greater(growth_rate(first_movers,esk2_0),zero))|~(greater(zero,growth_rate(efficient_producers,esk2_0)))))&(~(greater(growth_rate(efficient_producers,esk2_0),zero))|~(greater(zero,growth_rate(first_movers,esk2_0)))))),inference(skolemize,[status(esa)],[43])).
% cnf(45,negated_conjecture,(~greater(zero,growth_rate(first_movers,esk2_0))|~greater(growth_rate(efficient_producers,esk2_0),zero)),inference(split_conjunct,[status(thm)],[44])).
% cnf(46,negated_conjecture,(~greater(zero,growth_rate(efficient_producers,esk2_0))|~greater(growth_rate(first_movers,esk2_0),zero)),inference(split_conjunct,[status(thm)],[44])).
% cnf(47,negated_conjecture,(growth_rate(efficient_producers,esk2_0)!=zero|growth_rate(first_movers,esk2_0)!=zero),inference(split_conjunct,[status(thm)],[44])).
% cnf(48,negated_conjecture,(greater_or_equal(esk2_0,equilibrium(esk1_0))),inference(split_conjunct,[status(thm)],[44])).
% cnf(49,negated_conjecture,(subpopulations(first_movers,efficient_producers,esk1_0,esk2_0)),inference(split_conjunct,[status(thm)],[44])).
% cnf(50,negated_conjecture,(environment(esk1_0)),inference(split_conjunct,[status(thm)],[44])).
% cnf(51,negated_conjecture,(~greater(equilibrium(esk1_0),esk2_0)|~environment(esk1_0)),inference(spm,[status(thm)],[20,48,theory(equality)])).
% cnf(52,negated_conjecture,(~greater(equilibrium(esk1_0),esk2_0)|$false),inference(rw,[status(thm)],[51,50,theory(equality)])).
% cnf(53,negated_conjecture,(~greater(equilibrium(esk1_0),esk2_0)),inference(cn,[status(thm)],[52,theory(equality)])).
% cnf(54,plain,(constant(number_of_organizations(X1,X2))|greater(equilibrium(X1),X2)|~in_environment(X1,X2)|~environment(X1)|~greater(number_of_organizations(X1,X2),zero)),inference(spm,[status(thm)],[29,24,theory(equality)])).
% cnf(56,plain,(growth_rate(first_movers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(zero,growth_rate(efficient_producers,X1))|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)|~greater(number_of_organizations(X2,X1),zero)|~in_environment(X2,X1)),inference(spm,[status(thm)],[38,54,theory(equality)])).
% cnf(57,plain,(growth_rate(efficient_producers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(zero,growth_rate(efficient_producers,X1))|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)|~greater(number_of_organizations(X2,X1),zero)|~in_environment(X2,X1)),inference(spm,[status(thm)],[34,54,theory(equality)])).
% cnf(58,plain,(growth_rate(first_movers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(growth_rate(first_movers,X1),zero)|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)|~greater(number_of_organizations(X2,X1),zero)|~in_environment(X2,X1)),inference(spm,[status(thm)],[40,54,theory(equality)])).
% cnf(59,plain,(growth_rate(first_movers,X1)=zero|greater(zero,growth_rate(efficient_producers,X1))|greater(growth_rate(efficient_producers,X1),zero)|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)|~greater(number_of_organizations(X2,X1),zero)|~in_environment(X2,X1)),inference(spm,[status(thm)],[39,54,theory(equality)])).
% cnf(60,plain,(growth_rate(efficient_producers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(growth_rate(first_movers,X1),zero)|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)|~greater(number_of_organizations(X2,X1),zero)|~in_environment(X2,X1)),inference(spm,[status(thm)],[36,54,theory(equality)])).
% cnf(61,plain,(growth_rate(efficient_producers,X1)=zero|greater(zero,growth_rate(efficient_producers,X1))|greater(growth_rate(efficient_producers,X1),zero)|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)|~greater(number_of_organizations(X2,X1),zero)|~in_environment(X2,X1)),inference(spm,[status(thm)],[35,54,theory(equality)])).
% cnf(62,plain,(growth_rate(first_movers,X1)=zero|greater(growth_rate(first_movers,X1),zero)|greater(growth_rate(efficient_producers,X1),zero)|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)|~greater(number_of_organizations(X2,X1),zero)|~in_environment(X2,X1)),inference(spm,[status(thm)],[41,54,theory(equality)])).
% cnf(64,plain,(growth_rate(first_movers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(zero,growth_rate(efficient_producers,X1))|greater(equilibrium(X2),X1)|~greater(number_of_organizations(X2,X1),zero)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[56,14])).
% cnf(65,plain,(growth_rate(first_movers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(zero,growth_rate(efficient_producers,X1))|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[64,17])).
% cnf(66,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))|greater(zero,growth_rate(first_movers,esk2_0))|~subpopulations(first_movers,efficient_producers,esk1_0,esk2_0)|~environment(esk1_0)),inference(spm,[status(thm)],[53,65,theory(equality)])).
% cnf(67,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))|greater(zero,growth_rate(first_movers,esk2_0))|$false|~environment(esk1_0)),inference(rw,[status(thm)],[66,49,theory(equality)])).
% cnf(68,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))|greater(zero,growth_rate(first_movers,esk2_0))|$false|$false),inference(rw,[status(thm)],[67,50,theory(equality)])).
% cnf(69,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))|greater(zero,growth_rate(first_movers,esk2_0))),inference(cn,[status(thm)],[68,theory(equality)])).
% cnf(70,plain,(growth_rate(efficient_producers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(zero,growth_rate(efficient_producers,X1))|greater(equilibrium(X2),X1)|~greater(number_of_organizations(X2,X1),zero)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[57,14])).
% cnf(71,plain,(growth_rate(efficient_producers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(zero,growth_rate(efficient_producers,X1))|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[70,17])).
% cnf(72,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))|greater(zero,growth_rate(first_movers,esk2_0))|~subpopulations(first_movers,efficient_producers,esk1_0,esk2_0)|~environment(esk1_0)),inference(spm,[status(thm)],[53,71,theory(equality)])).
% cnf(73,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))|greater(zero,growth_rate(first_movers,esk2_0))|$false|~environment(esk1_0)),inference(rw,[status(thm)],[72,49,theory(equality)])).
% cnf(74,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))|greater(zero,growth_rate(first_movers,esk2_0))|$false|$false),inference(rw,[status(thm)],[73,50,theory(equality)])).
% cnf(75,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))|greater(zero,growth_rate(first_movers,esk2_0))),inference(cn,[status(thm)],[74,theory(equality)])).
% cnf(76,plain,(growth_rate(first_movers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(growth_rate(first_movers,X1),zero)|greater(equilibrium(X2),X1)|~greater(number_of_organizations(X2,X1),zero)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[58,14])).
% cnf(77,plain,(growth_rate(first_movers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(growth_rate(first_movers,X1),zero)|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[76,17])).
% cnf(78,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(first_movers,esk2_0),zero)|greater(zero,growth_rate(first_movers,esk2_0))|~subpopulations(first_movers,efficient_producers,esk1_0,esk2_0)|~environment(esk1_0)),inference(spm,[status(thm)],[53,77,theory(equality)])).
% cnf(79,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(first_movers,esk2_0),zero)|greater(zero,growth_rate(first_movers,esk2_0))|$false|~environment(esk1_0)),inference(rw,[status(thm)],[78,49,theory(equality)])).
% cnf(80,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(first_movers,esk2_0),zero)|greater(zero,growth_rate(first_movers,esk2_0))|$false|$false),inference(rw,[status(thm)],[79,50,theory(equality)])).
% cnf(81,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(first_movers,esk2_0),zero)|greater(zero,growth_rate(first_movers,esk2_0))),inference(cn,[status(thm)],[80,theory(equality)])).
% cnf(82,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(zero,growth_rate(first_movers,esk2_0))|~greater(zero,growth_rate(efficient_producers,esk2_0))),inference(spm,[status(thm)],[46,81,theory(equality)])).
% cnf(83,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(zero,growth_rate(first_movers,esk2_0))),inference(csr,[status(thm)],[82,69])).
% cnf(84,plain,(growth_rate(first_movers,X1)=zero|greater(zero,growth_rate(efficient_producers,X1))|greater(growth_rate(efficient_producers,X1),zero)|greater(equilibrium(X2),X1)|~greater(number_of_organizations(X2,X1),zero)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[59,14])).
% cnf(85,plain,(growth_rate(first_movers,X1)=zero|greater(zero,growth_rate(efficient_producers,X1))|greater(growth_rate(efficient_producers,X1),zero)|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[84,17])).
% cnf(86,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(zero,growth_rate(efficient_producers,esk2_0))|~subpopulations(first_movers,efficient_producers,esk1_0,esk2_0)|~environment(esk1_0)),inference(spm,[status(thm)],[53,85,theory(equality)])).
% cnf(87,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(zero,growth_rate(efficient_producers,esk2_0))|$false|~environment(esk1_0)),inference(rw,[status(thm)],[86,49,theory(equality)])).
% cnf(88,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(zero,growth_rate(efficient_producers,esk2_0))|$false|$false),inference(rw,[status(thm)],[87,50,theory(equality)])).
% cnf(89,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(zero,growth_rate(efficient_producers,esk2_0))),inference(cn,[status(thm)],[88,theory(equality)])).
% cnf(90,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))|~greater(zero,growth_rate(first_movers,esk2_0))),inference(spm,[status(thm)],[45,89,theory(equality)])).
% cnf(91,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))),inference(csr,[status(thm)],[90,83])).
% cnf(92,plain,(growth_rate(efficient_producers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(growth_rate(first_movers,X1),zero)|greater(equilibrium(X2),X1)|~greater(number_of_organizations(X2,X1),zero)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[60,14])).
% cnf(93,plain,(growth_rate(efficient_producers,X1)=zero|greater(zero,growth_rate(first_movers,X1))|greater(growth_rate(first_movers,X1),zero)|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[92,17])).
% cnf(94,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(growth_rate(first_movers,esk2_0),zero)|greater(zero,growth_rate(first_movers,esk2_0))|~subpopulations(first_movers,efficient_producers,esk1_0,esk2_0)|~environment(esk1_0)),inference(spm,[status(thm)],[53,93,theory(equality)])).
% cnf(95,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(growth_rate(first_movers,esk2_0),zero)|greater(zero,growth_rate(first_movers,esk2_0))|$false|~environment(esk1_0)),inference(rw,[status(thm)],[94,49,theory(equality)])).
% cnf(96,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(growth_rate(first_movers,esk2_0),zero)|greater(zero,growth_rate(first_movers,esk2_0))|$false|$false),inference(rw,[status(thm)],[95,50,theory(equality)])).
% cnf(97,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(growth_rate(first_movers,esk2_0),zero)|greater(zero,growth_rate(first_movers,esk2_0))),inference(cn,[status(thm)],[96,theory(equality)])).
% cnf(98,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(zero,growth_rate(first_movers,esk2_0))|~greater(zero,growth_rate(efficient_producers,esk2_0))),inference(spm,[status(thm)],[46,97,theory(equality)])).
% cnf(99,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(zero,growth_rate(first_movers,esk2_0))),inference(csr,[status(thm)],[98,75])).
% cnf(100,plain,(growth_rate(efficient_producers,X1)=zero|greater(zero,growth_rate(efficient_producers,X1))|greater(growth_rate(efficient_producers,X1),zero)|greater(equilibrium(X2),X1)|~greater(number_of_organizations(X2,X1),zero)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[61,14])).
% cnf(101,plain,(growth_rate(efficient_producers,X1)=zero|greater(zero,growth_rate(efficient_producers,X1))|greater(growth_rate(efficient_producers,X1),zero)|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[100,17])).
% cnf(102,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(zero,growth_rate(efficient_producers,esk2_0))|~subpopulations(first_movers,efficient_producers,esk1_0,esk2_0)|~environment(esk1_0)),inference(spm,[status(thm)],[53,101,theory(equality)])).
% cnf(103,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(zero,growth_rate(efficient_producers,esk2_0))|$false|~environment(esk1_0)),inference(rw,[status(thm)],[102,49,theory(equality)])).
% cnf(104,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(zero,growth_rate(efficient_producers,esk2_0))|$false|$false),inference(rw,[status(thm)],[103,50,theory(equality)])).
% cnf(105,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(zero,growth_rate(efficient_producers,esk2_0))),inference(cn,[status(thm)],[104,theory(equality)])).
% cnf(106,plain,(growth_rate(first_movers,X1)=zero|greater(growth_rate(first_movers,X1),zero)|greater(growth_rate(efficient_producers,X1),zero)|greater(equilibrium(X2),X1)|~greater(number_of_organizations(X2,X1),zero)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[62,14])).
% cnf(107,plain,(growth_rate(first_movers,X1)=zero|greater(growth_rate(first_movers,X1),zero)|greater(growth_rate(efficient_producers,X1),zero)|greater(equilibrium(X2),X1)|~subpopulations(first_movers,efficient_producers,X2,X1)|~environment(X2)),inference(csr,[status(thm)],[106,17])).
% cnf(108,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(growth_rate(first_movers,esk2_0),zero)|~subpopulations(first_movers,efficient_producers,esk1_0,esk2_0)|~environment(esk1_0)),inference(spm,[status(thm)],[53,107,theory(equality)])).
% cnf(109,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(growth_rate(first_movers,esk2_0),zero)|$false|~environment(esk1_0)),inference(rw,[status(thm)],[108,49,theory(equality)])).
% cnf(110,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(growth_rate(first_movers,esk2_0),zero)|$false|$false),inference(rw,[status(thm)],[109,50,theory(equality)])).
% cnf(111,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(efficient_producers,esk2_0),zero)|greater(growth_rate(first_movers,esk2_0),zero)),inference(cn,[status(thm)],[110,theory(equality)])).
% cnf(112,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))|~greater(zero,growth_rate(first_movers,esk2_0))),inference(spm,[status(thm)],[45,105,theory(equality)])).
% cnf(113,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(first_movers,esk2_0),zero)|~greater(zero,growth_rate(first_movers,esk2_0))),inference(spm,[status(thm)],[45,111,theory(equality)])).
% cnf(114,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(zero,growth_rate(efficient_producers,esk2_0))),inference(csr,[status(thm)],[112,99])).
% cnf(115,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|greater(growth_rate(first_movers,esk2_0),zero)),inference(csr,[status(thm)],[113,83])).
% cnf(116,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero|~greater(zero,growth_rate(efficient_producers,esk2_0))),inference(spm,[status(thm)],[46,115,theory(equality)])).
% cnf(117,negated_conjecture,(growth_rate(first_movers,esk2_0)=zero),inference(csr,[status(thm)],[116,91])).
% cnf(120,negated_conjecture,(growth_rate(efficient_producers,esk2_0)=zero|greater(zero,zero)),inference(rw,[status(thm)],[99,117,theory(equality)])).
% cnf(123,negated_conjecture,(~greater(zero,growth_rate(efficient_producers,esk2_0))|~greater(zero,zero)),inference(rw,[status(thm)],[46,117,theory(equality)])).
% cnf(125,negated_conjecture,($false|growth_rate(efficient_producers,esk2_0)!=zero),inference(rw,[status(thm)],[47,117,theory(equality)])).
% cnf(126,negated_conjecture,(growth_rate(efficient_producers,esk2_0)!=zero),inference(cn,[status(thm)],[125,theory(equality)])).
% cnf(128,negated_conjecture,(greater(zero,growth_rate(efficient_producers,esk2_0))),inference(sr,[status(thm)],[114,126,theory(equality)])).
% cnf(129,negated_conjecture,(greater(zero,zero)),inference(sr,[status(thm)],[120,126,theory(equality)])).
% cnf(130,negated_conjecture,($false|~greater(zero,zero)),inference(rw,[status(thm)],[123,128,theory(equality)])).
% cnf(131,negated_conjecture,($false|$false),inference(rw,[status(thm)],[130,129,theory(equality)])).
% cnf(132,negated_conjecture,($false),inference(cn,[status(thm)],[131,theory(equality)])).
% cnf(133,negated_conjecture,($false),132,['proof']).
% # SZS output end CNFRefutation
% # Processed clauses                  : 69
% # ...of these trivial                : 0
% # ...subsumed                        : 0
% # ...remaining for further processing: 69
% # Other redundant clauses eliminated : 0
% # Clauses deleted for lack of memory : 0
% # Backward-subsumed                  : 7
% # Backward-rewritten                 : 7
% # Generated clauses                  : 25
% # ...of the previous two non-trivial : 29
% # Contextual simplify-reflections    : 20
% # Paramodulations                    : 24
% # Factorizations                     : 0
% # Equation resolutions               : 0
% # Current number of processed clauses: 32
% #    Positive orientable unit clauses: 6
% #    Positive unorientable unit clauses: 0
% #    Negative unit clauses           : 2
% #    Non-unit-clauses                : 24
% # Current number of unprocessed clauses: 2
% # ...number of literals in the above : 10
% # Clause-clause subsumption calls (NU) : 109
% # Rec. Clause-clause subsumption calls : 48
% # Unit Clause-clause subsumption calls : 15
% # Rewrite failures with RHS unbound  : 0
% # Indexed BW rewrite attempts        : 1
% # Indexed BW rewrite successes       : 1
% # Backwards rewriting index:    33 leaves,   1.21+/-0.477 terms/leaf
% # Paramod-from index:           12 leaves,   1.00+/-0.000 terms/leaf
% # Paramod-into index:           25 leaves,   1.08+/-0.271 terms/leaf
% # -------------------------------------------------
% # User time              : 0.017 s
% # System time            : 0.002 s
% # Total time             : 0.019 s
% # Maximum resident set size: 0 pages
% PrfWatch: 0.10 CPU 0.19 WC
% FINAL PrfWatch: 0.10 CPU 0.19 WC
% SZS output end Solution for /tmp/SystemOnTPTP5708/MGT024+1.tptp
% 
%------------------------------------------------------------------------------