TSTP Solution File: MGT035+1 by SNARK---20120808r022
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : SNARK---20120808r022
% Problem : MGT035+1 : TPTP v8.1.0. Released v2.0.0.
% Transfm : none
% Format : tptp:raw
% Command : run-snark %s %d
% Computer : n032.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 22:25:20 EDT 2022
% Result : Theorem 57.22s 57.42s
% Output : Refutation 57.44s
% Verified :
% SZS Type : ERROR: Analysing output (MakeTreeStats ran out of CPU time)
% Comments :
%------------------------------------------------------------------------------
cnf(1,axiom,
( ~ greater(X,Y)
| ~ greater(Y,Z)
| greater(X,Z) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',mp_greater_transitivity) ).
cnf(2,axiom,
( ~ in_environment(X,Y)
| ~ in_environment(X,Z)
| greater(Z,Y)
| Z = Y
| greater(Y,Z) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',mp_times_in_environment) ).
cnf(3,axiom,
( ~ greater_or_equal(X,Y)
| greater(X,Y)
| X = Y ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',mp_greater_or_equal) ).
cnf(4,axiom,
( greater_or_equal(X,Y)
| ~ greater(X,Y) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',mp_greater_or_equal) ).
cnf(5,axiom,
( greater_or_equal(X,Y)
| X != Y ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',mp_greater_or_equal) ).
cnf(6,hypothesis,
( ~ environment(X)
| ~ subpopulations(Y,Z,X,U)
| ~ greater_or_equal(growth_rate(Z,U),zero)
| ~ greater(zero,growth_rate(Y,U))
| outcompetes(Z,Y,U) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',d2) ).
cnf(9,hypothesis,
( ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,Y)
| ~ greater_or_equal(Y,equilibrium(X))
| growth_rate(first_movers,Y) = zero
| greater(growth_rate(first_movers,Y),zero)
| greater(growth_rate(efficient_producers,Y),zero) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',l6) ).
cnf(10,hypothesis,
( ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,Y)
| ~ greater_or_equal(Y,equilibrium(X))
| growth_rate(first_movers,Y) = zero
| greater(growth_rate(first_movers,Y),zero)
| greater(zero,growth_rate(first_movers,Y)) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',l6) ).
cnf(11,hypothesis,
( ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,Y)
| ~ greater_or_equal(Y,equilibrium(X))
| growth_rate(first_movers,Y) = zero
| greater(zero,growth_rate(efficient_producers,Y))
| greater(growth_rate(efficient_producers,Y),zero) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',l6) ).
cnf(12,hypothesis,
( ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,Y)
| ~ greater_or_equal(Y,equilibrium(X))
| growth_rate(first_movers,Y) = zero
| greater(zero,growth_rate(efficient_producers,Y))
| greater(zero,growth_rate(first_movers,Y)) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',l6) ).
cnf(13,hypothesis,
( ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,Y)
| ~ greater_or_equal(Y,equilibrium(X))
| growth_rate(efficient_producers,Y) = zero
| greater(growth_rate(first_movers,Y),zero)
| greater(growth_rate(efficient_producers,Y),zero) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',l6) ).
cnf(14,hypothesis,
( ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,Y)
| ~ greater_or_equal(Y,equilibrium(X))
| growth_rate(efficient_producers,Y) = zero
| greater(growth_rate(first_movers,Y),zero)
| greater(zero,growth_rate(first_movers,Y)) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',l6) ).
cnf(15,hypothesis,
( ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,Y)
| ~ greater_or_equal(Y,equilibrium(X))
| growth_rate(efficient_producers,Y) = zero
| greater(zero,growth_rate(efficient_producers,Y))
| greater(growth_rate(efficient_producers,Y),zero) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',l6) ).
cnf(16,hypothesis,
( ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,Y)
| ~ greater_or_equal(Y,equilibrium(X))
| growth_rate(efficient_producers,Y) = zero
| greater(zero,growth_rate(efficient_producers,Y))
| greater(zero,growth_rate(first_movers,Y)) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',l6) ).
cnf(17,hypothesis,
( ~ environment(X)
| ~ stable(X)
| in_environment(X,'SKOLEMAAAN1'(X)) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',l1) ).
cnf(18,hypothesis,
( ~ environment(X)
| ~ stable(X)
| ~ subpopulations(first_movers,efficient_producers,X,Y)
| ~ greater_or_equal(Y,'SKOLEMAAAN1'(X))
| greater(growth_rate(efficient_producers,Y),growth_rate(first_movers,Y)) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',l1) ).
cnf(19,hypothesis,
( ~ environment(X)
| ~ stable(X)
| in_environment(X,'SKOLEMAAAN2'(X)) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',a4) ).
cnf(20,hypothesis,
( ~ environment(X)
| ~ stable(X)
| greater_or_equal('SKOLEMAAAN2'(X),equilibrium(X)) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',a4) ).
cnf(21,negated_conjecture,
environment('SKOLEMAAAN3'),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',prove_t4) ).
cnf(22,negated_conjecture,
stable('SKOLEMAAAN3'),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',prove_t4) ).
cnf(23,negated_conjecture,
( ~ in_environment('SKOLEMAAAN3',X)
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN4'(X)) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',prove_t4) ).
cnf(24,negated_conjecture,
( ~ in_environment('SKOLEMAAAN3',X)
| greater_or_equal('SKOLEMAAAN4'(X),X) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',prove_t4) ).
cnf(25,negated_conjecture,
( ~ in_environment('SKOLEMAAAN3',X)
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(X)) ),
file('/export/starexec/sandbox/benchmark/theBenchmark.p',prove_t4) ).
cnf(26,plain,
greater_or_equal(X,X),
inference('HYPERRESOLVE',[status(thm)],[5,theory(equality)]) ).
cnf(27,plain,
in_environment('SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')),
inference('HYPERRESOLVE',[status(thm)],[17,21,22]) ).
cnf(28,plain,
in_environment('SKOLEMAAAN3','SKOLEMAAAN2'('SKOLEMAAAN3')),
inference('HYPERRESOLVE',[status(thm)],[19,21,22]) ).
cnf(29,plain,
greater_or_equal('SKOLEMAAAN2'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')),
inference('HYPERRESOLVE',[status(thm)],[20,21,22]) ).
cnf(30,plain,
greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')),
inference('HYPERRESOLVE',[status(thm)],[24,27]) ).
cnf(31,plain,
~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),
inference('UR-RESOLVE',[status(thm)],[25,27]) ).
cnf(32,plain,
subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),
inference('HYPERRESOLVE',[status(thm)],[23,27]) ).
cnf(33,plain,
greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),'SKOLEMAAAN2'('SKOLEMAAAN3')),
inference('HYPERRESOLVE',[status(thm)],[24,28]) ).
cnf(34,plain,
~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),
inference('UR-RESOLVE',[status(thm)],[25,28]) ).
cnf(35,plain,
subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),
inference('HYPERRESOLVE',[status(thm)],[23,28]) ).
cnf(36,plain,
( greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[2,28,27]) ).
cnf(37,plain,
( greater('SKOLEMAAAN2'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[3,29]) ).
cnf(38,plain,
( greater('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[3,30]) ).
cnf(39,plain,
( greater('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[3,33]) ).
cnf(40,plain,
greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))),
inference('HYPERRESOLVE',[status(thm)],[18,32,21,22,30]) ).
cnf(41,plain,
greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))),
inference('HYPERRESOLVE',[status(thm)],[4,40]) ).
cnf(42,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,39,37]) ).
cnf(43,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,36]) ).
cnf(44,plain,
( greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,36]) ).
cnf(45,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,36,37]) ).
cnf(46,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,36,38]) ).
cnf(47,plain,
( greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,36,39]) ).
cnf(48,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,42]) ).
cnf(49,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,48,21,35]) ).
cnf(50,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[15,48,21,35]) ).
cnf(52,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,48,21,35]) ).
cnf(53,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,48,21,35]) ).
cnf(54,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[11,48,21,35]) ).
cnf(56,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,48,21,35]) ).
cnf(57,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater_or_equal('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,45]) ).
cnf(58,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,45,39]) ).
cnf(59,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,46]) ).
cnf(60,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,46,37]) ).
cnf(61,plain,
( greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,47]) ).
cnf(62,plain,
( greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,61,21,22,35]) ).
cnf(63,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,58]) ).
cnf(64,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,60]) ).
cnf(66,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,63,21,22,35]) ).
cnf(67,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,64,21,32]) ).
cnf(70,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,64,21,32]) ).
cnf(71,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,64,21,32]) ).
cnf(74,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,64,21,32]) ).
cnf(78,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,50]) ).
cnf(86,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero)
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,52,66]) ).
cnf(91,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,54]) ).
cnf(102,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,78,21,35,49]),34]) ).
cnf(104,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,102,66]) ).
cnf(107,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,91,21,35,53]),34]) ).
cnf(113,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,86]) ).
cnf(138,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,104,21,35,113]),34]) ).
cnf(139,plain,
( 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,138]) ).
cnf(198,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,70,40]) ).
cnf(199,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,198]) ).
cnf(205,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,199,21,32,67]),31]) ).
cnf(213,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,205,40]) ).
cnf(226,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,213,21,32,199]),31]) ).
cnf(227,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,226]) ).
cnf(228,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,226,39]) ).
cnf(233,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,228]) ).
cnf(234,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,233,21,22,35]) ).
cnf(261,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,74,40]) ).
cnf(262,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,261]) ).
cnf(268,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,262,21,32,71]),31]) ).
cnf(276,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,268,40]) ).
cnf(289,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,276,21,32,262]),31]) ).
cnf(290,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal('SKOLEMAAAN2'('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,289]) ).
cnf(291,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,289,39]) ).
cnf(296,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,291]) ).
cnf(297,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,296,21,22,35]) ).
cnf(298,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[4,234]) ).
cnf(299,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,234,56]) ).
cnf(301,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,234,107]) ).
cnf(302,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,234,102]) ).
cnf(303,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[4,297]) ).
cnf(304,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,297,56]) ).
cnf(306,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,297,107]) ).
cnf(307,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,297,102]) ).
cnf(309,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,299]) ).
cnf(317,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,304]) ).
cnf(324,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,309,21,35,301]),34]) ).
cnf(327,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[298,324,theory(equality)]) ).
cnf(331,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,327,21,35,302]),34]) ).
cnf(334,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[234,331,theory(equality)]) ).
cnf(337,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,334,21,35,327]),34]) ).
cnf(338,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[34,337,theory(equality)]) ).
cnf(339,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[35,337,theory(equality)]) ).
cnf(341,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,339,21,22,227]) ).
cnf(342,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,339,21,29]) ).
cnf(345,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,339,21,29]) ).
cnf(346,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,339,21,29]) ).
cnf(349,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,339,21,29]) ).
cnf(351,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,317,21,35,306]),34]) ).
cnf(354,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[303,351,theory(equality)]) ).
cnf(358,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,354,21,35,307]),34]) ).
cnf(361,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[297,358,theory(equality)]) ).
cnf(364,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,361,21,35,354]),34]) ).
cnf(365,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[34,364,theory(equality)]) ).
cnf(366,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[35,364,theory(equality)]) ).
cnf(368,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,366,21,22,290]) ).
cnf(384,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,345,341]) ).
cnf(385,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,384]) ).
cnf(387,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,385,21,339,342]) ).
cnf(394,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,349,341]) ).
cnf(395,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,394]) ).
cnf(397,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,395,21,339,346]) ).
cnf(423,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[338,387]) ).
cnf(425,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,423,341]) ).
cnf(428,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,425,21,339,385]) ).
cnf(431,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[338,428]) ).
cnf(432,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,431]) ).
cnf(435,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,431,theory(equality)]) ).
cnf(438,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,435,21,32,432]),31]) ).
cnf(439,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,438,theory(equality)]) ).
cnf(440,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,438,theory(equality)]) ).
cnf(443,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,438,theory(equality)]) ).
cnf(445,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,440,21,139]) ).
cnf(451,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,440,21,139]) ).
cnf(453,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,440,21,139]) ).
cnf(459,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,440,21,139]) ).
cnf(465,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[338,397]) ).
cnf(467,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,465,341]) ).
cnf(470,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,467,21,339,395]) ).
cnf(473,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[338,470]) ).
cnf(474,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,473]) ).
cnf(477,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,473,theory(equality)]) ).
cnf(480,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,477,21,32,474]),31]) ).
cnf(481,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,480,theory(equality)]) ).
cnf(482,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,480,theory(equality)]) ).
cnf(485,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,480,theory(equality)]) ).
cnf(487,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,482,21,139]) ).
cnf(493,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,482,21,139]) ).
cnf(495,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,482,21,139]) ).
cnf(501,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,482,21,139]) ).
cnf(541,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,451,443]) ).
cnf(542,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,541]) ).
cnf(546,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,542,21,440,445]) ).
cnf(587,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,459,443]) ).
cnf(588,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,587]) ).
cnf(592,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,588,21,440,453]) ).
cnf(633,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,493,485]) ).
cnf(634,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,633]) ).
cnf(638,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,634,21,482,487]) ).
cnf(679,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,501,485]) ).
cnf(680,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,679]) ).
cnf(684,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,680,21,482,495]) ).
cnf(720,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[439,546]) ).
cnf(722,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,720,443]) ).
cnf(727,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,722,21,440,542]) ).
cnf(732,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[439,727]) ).
cnf(733,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,732]) ).
cnf(737,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[66,732,theory(equality)]) ).
cnf(747,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,737,21,35,733]),34]) ).
cnf(748,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,747]) ).
cnf(749,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,748,21,440]) ).
cnf(752,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,748,21,440]) ).
cnf(761,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,752,443]) ).
cnf(762,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,761]) ).
cnf(764,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,762,21,440,749]) ).
cnf(799,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[439,592]) ).
cnf(801,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,799,443]) ).
cnf(806,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,801,21,440,588]) ).
cnf(811,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[439,806]) ).
cnf(812,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,811]) ).
cnf(816,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[66,811,theory(equality)]) ).
cnf(826,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,816,21,35,812]),34]) ).
cnf(827,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,826]) ).
cnf(828,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,827,21,440]) ).
cnf(831,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,827,21,440]) ).
cnf(840,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,831,443]) ).
cnf(841,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,840]) ).
cnf(843,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,841,21,440,828]) ).
cnf(878,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[481,638]) ).
cnf(880,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,878,485]) ).
cnf(885,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,880,21,482,634]) ).
cnf(890,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[481,885]) ).
cnf(891,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,890]) ).
cnf(895,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[66,890,theory(equality)]) ).
cnf(905,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,895,21,35,891]),34]) ).
cnf(906,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,905]) ).
cnf(907,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,906,21,482]) ).
cnf(910,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,906,21,482]) ).
cnf(919,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,910,485]) ).
cnf(920,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,919]) ).
cnf(922,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,920,21,482,907]) ).
cnf(957,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[481,684]) ).
cnf(959,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,957,485]) ).
cnf(964,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,959,21,482,680]) ).
cnf(969,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[481,964]) ).
cnf(970,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,969]) ).
cnf(974,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[66,969,theory(equality)]) ).
cnf(984,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,974,21,35,970]),34]) ).
cnf(985,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,984]) ).
cnf(986,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,985,21,482]) ).
cnf(989,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,985,21,482]) ).
cnf(998,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,989,485]) ).
cnf(999,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,998]) ).
cnf(1001,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,999,21,482,986]) ).
cnf(1007,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[439,764]) ).
cnf(1009,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1007,443]) ).
cnf(1012,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1009,21,440,762]) ).
cnf(1015,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[439,1012]) ).
cnf(1016,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[34,1015,theory(equality)]) ).
cnf(1017,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[35,1015,theory(equality)]) ).
cnf(1019,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,1017,21,29]) ).
cnf(1020,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[15,1017,21,29]) ).
cnf(1022,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,1017,21,29]) ).
cnf(1024,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,1017,21,22,44]) ).
cnf(1027,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1020]) ).
cnf(1039,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[439,843]) ).
cnf(1041,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1039,443]) ).
cnf(1044,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1041,21,440,841]) ).
cnf(1047,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[439,1044]) ).
cnf(1048,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[34,1047,theory(equality)]) ).
cnf(1049,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[35,1047,theory(equality)]) ).
cnf(1051,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,1049,21,29]) ).
cnf(1052,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[15,1049,21,29]) ).
cnf(1054,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,1049,21,29]) ).
cnf(1056,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,1049,21,22,44]) ).
cnf(1059,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1052]) ).
cnf(1071,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[481,922]) ).
cnf(1073,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1071,485]) ).
cnf(1076,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1073,21,482,920]) ).
cnf(1079,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[481,1076]) ).
cnf(1080,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[34,1079,theory(equality)]) ).
cnf(1081,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[35,1079,theory(equality)]) ).
cnf(1083,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,1081,21,29]) ).
cnf(1084,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[11,1081,21,29]) ).
cnf(1086,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,1081,21,29]) ).
cnf(1088,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,1081,21,22,44]) ).
cnf(1091,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1084]) ).
cnf(1103,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[481,1001]) ).
cnf(1105,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1103,485]) ).
cnf(1108,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1105,21,482,999]) ).
cnf(1111,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[481,1108]) ).
cnf(1112,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[34,1111,theory(equality)]) ).
cnf(1113,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[35,1111,theory(equality)]) ).
cnf(1115,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,1113,21,29]) ).
cnf(1116,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[11,1113,21,29]) ).
cnf(1118,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,1113,21,29]) ).
cnf(1120,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,1113,21,22,44]) ).
cnf(1123,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1116]) ).
cnf(1135,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1024,1022]) ).
cnf(1137,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1135]) ).
cnf(1140,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1027,21,1017,1019]) ).
cnf(1141,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1016,1140]) ).
cnf(1145,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1141,1024]) ).
cnf(1161,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1056,1054]) ).
cnf(1163,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1161]) ).
cnf(1166,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1059,21,1049,1051]) ).
cnf(1167,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1048,1166]) ).
cnf(1171,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1167,1056]) ).
cnf(1187,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1088,1086]) ).
cnf(1189,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1187]) ).
cnf(1192,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1091,21,1081,1083]) ).
cnf(1193,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1080,1192]) ).
cnf(1197,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1193,1088]) ).
cnf(1213,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1120,1118]) ).
cnf(1215,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1213]) ).
cnf(1218,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1123,21,1113,1115]) ).
cnf(1219,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1112,1218]) ).
cnf(1223,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1219,1120]) ).
cnf(1234,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1145,21,1017,1137]) ).
cnf(1236,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1016,1234]) ).
cnf(1238,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,1236,37]) ).
cnf(1239,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,1238]) ).
cnf(1240,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,1239,21,440]) ).
cnf(1243,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,1239,21,440]) ).
cnf(1244,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1171,21,1049,1163]) ).
cnf(1246,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1048,1244]) ).
cnf(1248,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,1246,37]) ).
cnf(1249,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,1248]) ).
cnf(1250,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,1249,21,440]) ).
cnf(1253,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,1249,21,440]) ).
cnf(1254,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1197,21,1081,1189]) ).
cnf(1256,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1080,1254]) ).
cnf(1258,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,1256,37]) ).
cnf(1259,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,1258]) ).
cnf(1260,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,1259,21,482]) ).
cnf(1263,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,1259,21,482]) ).
cnf(1264,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3'))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1223,21,1113,1215]) ).
cnf(1266,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1112,1264]) ).
cnf(1268,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,1266,37]) ).
cnf(1269,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,1268]) ).
cnf(1270,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,1269,21,482]) ).
cnf(1273,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,1269,21,482]) ).
cnf(1298,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1243,443]) ).
cnf(1299,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1298]) ).
cnf(1303,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1299,21,440,1240]) ).
cnf(1321,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1253,443]) ).
cnf(1322,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1321]) ).
cnf(1326,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1322,21,440,1250]) ).
cnf(1344,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1263,485]) ).
cnf(1345,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1344]) ).
cnf(1349,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1345,21,482,1260]) ).
cnf(1367,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1273,485]) ).
cnf(1368,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1367]) ).
cnf(1372,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1368,21,482,1270]) ).
cnf(1382,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[439,1303]) ).
cnf(1384,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1382,443]) ).
cnf(1389,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1384,21,440,1299]) ).
cnf(1394,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[439,1389]) ).
cnf(1399,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[368,1394,theory(equality)]) ).
cnf(1401,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[341,1394,theory(equality)]) ).
cnf(1402,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ environment(X)
| ~ subpopulations(Y,efficient_producers,X,'SKOLEMAAAN2'('SKOLEMAAAN3'))
| ~ greater(zero,growth_rate(Y,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,Y,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('PARAMODULATE',[status(thm)],[6,1394,theory(equality)]),26]) ).
cnf(1413,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[439,1326]) ).
cnf(1415,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1413,443]) ).
cnf(1420,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1415,21,440,1322]) ).
cnf(1425,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[439,1420]) ).
cnf(1430,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[368,1425,theory(equality)]) ).
cnf(1432,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[341,1425,theory(equality)]) ).
cnf(1433,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ environment(X)
| ~ subpopulations(Y,efficient_producers,X,'SKOLEMAAAN2'('SKOLEMAAAN3'))
| ~ greater(zero,growth_rate(Y,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,Y,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('PARAMODULATE',[status(thm)],[6,1425,theory(equality)]),26]) ).
cnf(1442,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[481,1349]) ).
cnf(1444,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1442,485]) ).
cnf(1449,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1444,21,482,1345]) ).
cnf(1454,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[481,1449]) ).
cnf(1467,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[481,1372]) ).
cnf(1469,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1467,485]) ).
cnf(1474,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1469,21,482,1368]) ).
cnf(1479,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[481,1474]) ).
cnf(1487,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,'SKOLEMAAAN2'('SKOLEMAAAN3'))
| ~ greater(zero,zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[1402,1454,theory(equality)]) ).
cnf(1489,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,'SKOLEMAAAN2'('SKOLEMAAAN3'))
| ~ greater(zero,zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[1433,1479,theory(equality)]) ).
cnf(1495,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1402,1399,21,366]) ).
cnf(1496,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[365,1495]) ).
cnf(1499,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,1496,theory(equality)]) ).
cnf(1508,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1402,1401,21,339]) ).
cnf(1510,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[338,1508]) ).
cnf(1513,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,1510,theory(equality)]) ).
cnf(1516,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,1513,21,32,1499]),31]) ).
cnf(1517,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,1516,theory(equality)]) ).
cnf(1518,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,1516,theory(equality)]) ).
cnf(1521,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,1516,theory(equality)]) ).
cnf(1523,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,1518,21,139]) ).
cnf(1529,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,1518,21,139]) ).
cnf(1531,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1433,1430,21,366]) ).
cnf(1532,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[365,1531]) ).
cnf(1535,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,1532,theory(equality)]) ).
cnf(1544,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1433,1432,21,339]) ).
cnf(1546,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[338,1544]) ).
cnf(1549,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,1546,theory(equality)]) ).
cnf(1552,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,1549,21,32,1535]),31]) ).
cnf(1553,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,1552,theory(equality)]) ).
cnf(1554,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,1552,theory(equality)]) ).
cnf(1557,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,1552,theory(equality)]) ).
cnf(1559,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,1554,21,139]) ).
cnf(1565,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,1554,21,139]) ).
cnf(1605,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1529,1521]) ).
cnf(1606,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1605]) ).
cnf(1610,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1606,21,1518,1523]) ).
cnf(1651,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1565,1557]) ).
cnf(1652,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1651]) ).
cnf(1656,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1652,21,1554,1559]) ).
cnf(1692,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1517,1610]) ).
cnf(1694,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1692,1521]) ).
cnf(1699,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1694,21,1518,1606]) ).
cnf(1704,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[1517,1699]) ).
cnf(1705,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,1704]) ).
cnf(1709,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[66,1704,theory(equality)]) ).
cnf(1719,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,1709,21,35,1705]),34]) ).
cnf(1720,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,1719]) ).
cnf(1721,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,1720,21,1518]) ).
cnf(1724,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,1720,21,1518]) ).
cnf(1733,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1724,1521]) ).
cnf(1734,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1733]) ).
cnf(1736,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1734,21,1518,1721]) ).
cnf(1771,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1553,1656]) ).
cnf(1773,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1771,1557]) ).
cnf(1778,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1773,21,1554,1652]) ).
cnf(1783,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[1553,1778]) ).
cnf(1784,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,1783]) ).
cnf(1788,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[66,1783,theory(equality)]) ).
cnf(1798,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,1788,21,35,1784]),34]) ).
cnf(1799,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,1798]) ).
cnf(1800,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,1799,21,1554]) ).
cnf(1803,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,1799,21,1554]) ).
cnf(1812,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1803,1557]) ).
cnf(1813,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1812]) ).
cnf(1815,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1813,21,1554,1800]) ).
cnf(1821,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1517,1736]) ).
cnf(1823,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1821,1521]) ).
cnf(1826,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1823,21,1518,1734]) ).
cnf(1829,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[1517,1826]) ).
cnf(1830,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[34,1829,theory(equality)]) ).
cnf(1831,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[35,1829,theory(equality)]) ).
cnf(1833,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,1831,21,22,57]) ).
cnf(1840,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1553,1815]) ).
cnf(1842,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1840,1557]) ).
cnf(1845,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1842,21,1554,1813]) ).
cnf(1848,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN2'('SKOLEMAAAN3')) = 'SKOLEMAAAN2'('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[1553,1845]) ).
cnf(1849,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[34,1848,theory(equality)]) ).
cnf(1850,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[35,1848,theory(equality)]) ).
cnf(1852,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,1850,21,22,57]) ).
cnf(1854,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[1833,1394,theory(equality)]) ).
cnf(1858,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1402,1854,21,1831]) ).
cnf(1864,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1830,1858]) ).
cnf(1865,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,1864]) ).
cnf(1866,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,1865,21,1518]) ).
cnf(1868,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[14,1865,21,1518]) ).
cnf(1869,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,1865,21,1518]) ).
cnf(1878,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[1852,1425,theory(equality)]) ).
cnf(1882,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1433,1878,21,1850]) ).
cnf(1888,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1849,1882]) ).
cnf(1889,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,1888]) ).
cnf(1890,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,1889,21,1554]) ).
cnf(1892,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[10,1889,21,1554]) ).
cnf(1893,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,1889,21,1554]) ).
cnf(1908,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1869,1521]) ).
cnf(1909,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1908]) ).
cnf(1910,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1909,21,1518,1868]) ).
cnf(1918,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1893,1557]) ).
cnf(1919,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,1918]) ).
cnf(1920,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,1919,21,1554,1892]) ).
cnf(1922,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1517,1910]) ).
cnf(1924,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1922,1866]) ).
cnf(1926,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1924,1908]) ).
cnf(1927,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1487,1926,21,1831]) ).
cnf(1928,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[1830,1927]) ).
cnf(1931,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[29,1928,theory(equality)]) ).
cnf(1936,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[107,1928,theory(equality)]) ).
cnf(1938,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[102,1928,theory(equality)]) ).
cnf(1945,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[56,1928,theory(equality)]) ).
cnf(1957,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1553,1920]) ).
cnf(1959,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1957,1890]) ).
cnf(1961,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1959,1918]) ).
cnf(1962,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1489,1961,21,1850]) ).
cnf(1963,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[1849,1962]) ).
cnf(1966,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[29,1963,theory(equality)]) ).
cnf(1971,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[107,1963,theory(equality)]) ).
cnf(1973,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[102,1963,theory(equality)]) ).
cnf(1980,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[56,1963,theory(equality)]) ).
cnf(1992,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1936,40]) ).
cnf(1997,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1938,40]) ).
cnf(2002,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1971,40]) ).
cnf(2007,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,1973,40]) ).
cnf(2032,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1945,40]) ).
cnf(2034,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2032]) ).
cnf(2040,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2034,21,32,1992]),31]) ).
cnf(2043,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,2040,theory(equality)]) ).
cnf(2048,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2043,21,32,1997]),31]) ).
cnf(2055,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,2048,theory(equality)]) ).
cnf(2058,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2055,21,32,2043]),31]) ).
cnf(2059,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,2058,theory(equality)]) ).
cnf(2060,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,2058,theory(equality)]) ).
cnf(2063,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,2058,theory(equality)]) ).
cnf(2064,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,2060,21,1931]) ).
cnf(2067,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,2060,21,1931]) ).
cnf(2094,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,2067,2063]) ).
cnf(2095,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2094]) ).
cnf(2101,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,2095,21,2060,2064]) ).
cnf(2111,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[2059,2101]) ).
cnf(2113,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2111,2063]) ).
cnf(2120,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,2113,21,2060,2095]) ).
cnf(2127,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[2059,2120]) ).
cnf(2130,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[34,2127,theory(equality)]) ).
cnf(2131,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[33,2127,theory(equality)]) ).
cnf(2132,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[35,2127,theory(equality)]) ).
cnf(2133,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[44,2127,theory(equality)]) ).
cnf(2134,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[43,2127,theory(equality)]) ).
cnf(2136,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('PARAMODULATE',[status(thm)],[39,2127,theory(equality)]) ).
cnf(2138,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[59,2127,theory(equality)]) ).
cnf(2142,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[62,2127,theory(equality)]) ).
cnf(2143,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,2132,21,2131]) ).
cnf(2144,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[15,2132,21,2131]) ).
cnf(2146,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,2132,21,2131]) ).
cnf(2147,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,2132,21,2131]) ).
cnf(2148,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[11,2132,21,2131]) ).
cnf(2150,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,2132,21,2131]) ).
cnf(2154,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,2138,21,32]) ).
cnf(2157,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,2138,21,32]) ).
cnf(2158,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,2138,21,32]) ).
cnf(2161,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,2138,21,32]) ).
cnf(2167,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,1980,40]) ).
cnf(2169,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2167]) ).
cnf(2175,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2169,21,32,2002]),31]) ).
cnf(2178,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,2175,theory(equality)]) ).
cnf(2183,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2178,21,32,2007]),31]) ).
cnf(2190,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,2183,theory(equality)]) ).
cnf(2193,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2190,21,32,2178]),31]) ).
cnf(2194,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,2193,theory(equality)]) ).
cnf(2195,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,2193,theory(equality)]) ).
cnf(2198,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,2193,theory(equality)]) ).
cnf(2199,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,2195,21,1966]) ).
cnf(2202,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,2195,21,1966]) ).
cnf(2229,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,2202,2198]) ).
cnf(2230,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2229]) ).
cnf(2236,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,2230,21,2195,2199]) ).
cnf(2246,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[2194,2236]) ).
cnf(2248,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2246,2198]) ).
cnf(2255,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,2248,21,2195,2230]) ).
cnf(2262,plain,
( 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[2194,2255]) ).
cnf(2265,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[34,2262,theory(equality)]) ).
cnf(2266,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[33,2262,theory(equality)]) ).
cnf(2267,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[35,2262,theory(equality)]) ).
cnf(2268,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[44,2262,theory(equality)]) ).
cnf(2271,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('PARAMODULATE',[status(thm)],[39,2262,theory(equality)]) ).
cnf(2273,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[59,2262,theory(equality)]) ).
cnf(2277,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[62,2262,theory(equality)]) ).
cnf(2278,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,2267,21,2266]) ).
cnf(2279,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[15,2267,21,2266]) ).
cnf(2281,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,2267,21,2266]) ).
cnf(2282,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,2267,21,2266]) ).
cnf(2283,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[11,2267,21,2266]) ).
cnf(2285,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,2267,21,2266]) ).
cnf(2289,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,2273,21,32]) ).
cnf(2292,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,2273,21,32]) ).
cnf(2293,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,2273,21,32]) ).
cnf(2296,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,2273,21,32]) ).
cnf(2304,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2144]) ).
cnf(2312,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[1,2146,2142]) ).
cnf(2315,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2148]) ).
cnf(2323,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[1,2150,2142]) ).
cnf(2326,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2279]) ).
cnf(2334,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[1,2281,2277]) ).
cnf(2337,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2283]) ).
cnf(2345,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[1,2285,2277]) ).
cnf(2346,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,2304,21,2132,2143]) ).
cnf(2347,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[2130,2346]) ).
cnf(2350,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2347,2142]) ).
cnf(2351,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,2315,21,2132,2147]) ).
cnf(2352,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[2130,2351]) ).
cnf(2355,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2352,2142]) ).
cnf(2356,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,2326,21,2267,2278]) ).
cnf(2357,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[2265,2356]) ).
cnf(2360,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2357,2277]) ).
cnf(2361,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,2337,21,2267,2282]) ).
cnf(2362,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[2265,2361]) ).
cnf(2365,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2362,2277]) ).
cnf(2375,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2312]) ).
cnf(2382,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2323]) ).
cnf(2389,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2334]) ).
cnf(2396,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2345]) ).
cnf(2432,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,2350,21,2132,2375]) ).
cnf(2434,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[2130,2432]) ).
cnf(2435,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2434]) ).
cnf(2436,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,2434,38]) ).
cnf(2439,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,2355,21,2132,2382]) ).
cnf(2441,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[2130,2439]) ).
cnf(2442,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2441]) ).
cnf(2446,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,2360,21,2267,2389]) ).
cnf(2448,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[2265,2446]) ).
cnf(2449,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2448]) ).
cnf(2450,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,2448,38]) ).
cnf(2453,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,2365,21,2267,2396]) ).
cnf(2455,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[2265,2453]) ).
cnf(2456,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2455]) ).
cnf(2460,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2436]) ).
cnf(2462,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2450]) ).
cnf(2464,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,2460,21,32]) ).
cnf(2467,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,2460,21,32]) ).
cnf(2480,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,2462,21,32]) ).
cnf(2483,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,2462,21,32]) ).
cnf(2532,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,2157,40]) ).
cnf(2533,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2532]) ).
cnf(2539,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2533,21,32,2154]),31]) ).
cnf(2547,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2539,40]) ).
cnf(2563,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2547,21,32,2533]),31]) ).
cnf(2564,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2563]) ).
cnf(2565,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,2563,2136]) ).
cnf(2573,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2565]) ).
cnf(2577,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,2573,21,22,2132]) ).
cnf(2606,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,2161,40]) ).
cnf(2607,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2606]) ).
cnf(2613,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2607,21,32,2158]),31]) ).
cnf(2621,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2613,40]) ).
cnf(2637,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2621,21,32,2607]),31]) ).
cnf(2638,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2637]) ).
cnf(2680,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,2292,40]) ).
cnf(2681,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2680]) ).
cnf(2687,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2681,21,32,2289]),31]) ).
cnf(2695,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2687,40]) ).
cnf(2711,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2695,21,32,2681]),31]) ).
cnf(2712,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2711]) ).
cnf(2713,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,2711,2271]) ).
cnf(2721,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2713]) ).
cnf(2725,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,2721,21,22,2267]) ).
cnf(2754,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,2296,40]) ).
cnf(2755,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2754]) ).
cnf(2761,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2755,21,32,2293]),31]) ).
cnf(2769,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2761,40]) ).
cnf(2785,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2769,21,32,2755]),31]) ).
cnf(2786,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,2785]) ).
cnf(2803,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,2577,2150]) ).
cnf(2805,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2577,2352]) ).
cnf(2813,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,2725,2285]) ).
cnf(2815,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2725,2362]) ).
cnf(2847,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2803]) ).
cnf(2863,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2813]) ).
cnf(2914,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,2847,21,2132,2805]) ).
cnf(2915,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[2130,2914]) ).
cnf(2916,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,2915]) ).
cnf(2919,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,2915,theory(equality)]) ).
cnf(2922,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2919,21,32,2916]),31]) ).
cnf(2923,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,2922,theory(equality)]) ).
cnf(2924,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,2922,theory(equality)]) ).
cnf(2927,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,2922,theory(equality)]) ).
cnf(2928,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,2924,21,2442]) ).
cnf(2931,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,2924,21,2442]) ).
cnf(2948,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,2931,2927]) ).
cnf(2949,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,2948]) ).
cnf(2953,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,2949,21,2924,2928]) ).
cnf(2962,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[2923,2953]) ).
cnf(2964,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,2962,2927]) ).
cnf(2969,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,2964,21,2924,2949]) ).
cnf(2974,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[2923,2969]) ).
cnf(2983,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[2577,2974,theory(equality)]) ).
cnf(2985,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(first_movers,Y,X,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))
| ~ greater_or_equal(growth_rate(Y,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| ~ greater(zero,zero)
| outcompetes(Y,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[6,2974,theory(equality)]) ).
cnf(2986,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,2863,21,2267,2815]) ).
cnf(2987,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[2265,2986]) ).
cnf(2988,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,2987]) ).
cnf(2991,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,2987,theory(equality)]) ).
cnf(2994,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,2991,21,32,2988]),31]) ).
cnf(2995,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,2994,theory(equality)]) ).
cnf(2996,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,2994,theory(equality)]) ).
cnf(2999,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,2994,theory(equality)]) ).
cnf(3000,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,2996,21,2456]) ).
cnf(3003,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,2996,21,2456]) ).
cnf(3020,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3003,2999]) ).
cnf(3021,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3020]) ).
cnf(3025,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3021,21,2996,3000]) ).
cnf(3034,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[2995,3025]) ).
cnf(3036,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3034,2999]) ).
cnf(3041,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3036,21,2996,3021]) ).
cnf(3046,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[2995,3041]) ).
cnf(3055,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[2725,3046,theory(equality)]) ).
cnf(3057,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(first_movers,Y,X,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))
| ~ greater_or_equal(growth_rate(Y,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| ~ greater(zero,zero)
| outcompetes(Y,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[6,3046,theory(equality)]) ).
cnf(3297,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,2467,40]) ).
cnf(3298,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3297]) ).
cnf(3302,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3298,21,32,2464]),31]) ).
cnf(3307,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3302,40]) ).
cnf(3311,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3307,21,32,3298]),31]) ).
cnf(3312,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,3311]) ).
cnf(3315,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,3311,theory(equality)]) ).
cnf(3318,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3315,21,32,3312]),31]) ).
cnf(3319,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,3318,theory(equality)]) ).
cnf(3320,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,3318,theory(equality)]) ).
cnf(3323,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,3318,theory(equality)]) ).
cnf(3324,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,3320,21,2435]) ).
cnf(3327,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,3320,21,2435]) ).
cnf(3344,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3327,3323]) ).
cnf(3345,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3344]) ).
cnf(3349,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3345,21,3320,3324]) ).
cnf(3356,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[3319,3349]) ).
cnf(3358,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3356,3323]) ).
cnf(3363,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3358,21,3320,3345]) ).
cnf(3368,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[3319,3363]) ).
cnf(3369,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,3368]) ).
cnf(3372,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[2142,3368,theory(equality)]) ).
cnf(3373,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[2983,3368,theory(equality)]) ).
cnf(3376,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))
| ~ greater(zero,zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('REWRITE',[status(thm)],[inference('PARAMODULATE',[status(thm)],[2985,3368,theory(equality)]),26]) ).
cnf(3385,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,3372,21,2132,3369]) ).
cnf(3386,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[2130,3385]) ).
cnf(3387,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,3386]) ).
cnf(3408,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[2985,3373,21,2132,3369]) ).
cnf(3414,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[2130,3408]) ).
cnf(3415,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,3414]) ).
cnf(3418,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,3414,theory(equality)]) ).
cnf(3421,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3418,21,32,3415]),31]) ).
cnf(3422,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,3421,theory(equality)]) ).
cnf(3423,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,3421,theory(equality)]) ).
cnf(3426,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,3421,theory(equality)]) ).
cnf(3427,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,3423,21,3387]) ).
cnf(3429,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[14,3423,21,3387]) ).
cnf(3430,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,3423,21,3387]) ).
cnf(3437,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3430,3426]) ).
cnf(3438,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3437]) ).
cnf(3439,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3438,21,3423,3429]) ).
cnf(3441,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[3422,3439]) ).
cnf(3443,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3441,3427]) ).
cnf(3445,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3443,3437]) ).
cnf(3446,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[3376,3445,21,2132]) ).
cnf(3447,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[2130,3446]) ).
cnf(3448,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[2130,3447,theory(equality)]) ).
cnf(3449,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3',equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[2132,3447,theory(equality)]) ).
cnf(3452,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[2352,3447,theory(equality)]) ).
cnf(3454,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[2347,3447,theory(equality)]) ).
cnf(3461,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,equilibrium('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[2150,3447,theory(equality)]) ).
cnf(3463,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,equilibrium('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[2146,3447,theory(equality)]) ).
cnf(3473,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,3449,21,22,2133]) ).
cnf(3474,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,3449,21,22,2638]) ).
cnf(3475,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,3449,21,22,2564]) ).
cnf(3484,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3')))
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,3473]) ).
cnf(3525,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,2483,40]) ).
cnf(3526,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3525]) ).
cnf(3530,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3526,21,32,2480]),31]) ).
cnf(3535,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3530,40]) ).
cnf(3539,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3535,21,32,3526]),31]) ).
cnf(3540,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,3539]) ).
cnf(3543,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,3539,theory(equality)]) ).
cnf(3546,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3543,21,32,3540]),31]) ).
cnf(3547,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,3546,theory(equality)]) ).
cnf(3548,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,3546,theory(equality)]) ).
cnf(3551,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,3546,theory(equality)]) ).
cnf(3552,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,3548,21,2449]) ).
cnf(3555,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,3548,21,2449]) ).
cnf(3572,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3555,3551]) ).
cnf(3573,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3572]) ).
cnf(3577,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3573,21,3548,3552]) ).
cnf(3584,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[3547,3577]) ).
cnf(3586,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3584,3551]) ).
cnf(3591,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3586,21,3548,3573]) ).
cnf(3596,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[3547,3591]) ).
cnf(3597,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,3596]) ).
cnf(3600,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[2277,3596,theory(equality)]) ).
cnf(3601,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[3055,3596,theory(equality)]) ).
cnf(3604,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))
| ~ greater(zero,zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('REWRITE',[status(thm)],[inference('PARAMODULATE',[status(thm)],[3057,3596,theory(equality)]),26]) ).
cnf(3613,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,3600,21,2267,3597]) ).
cnf(3614,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[2265,3613]) ).
cnf(3615,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,3614]) ).
cnf(3636,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[3057,3601,21,2267,3597]) ).
cnf(3642,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[2265,3636]) ).
cnf(3643,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,3642]) ).
cnf(3646,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,3642,theory(equality)]) ).
cnf(3649,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3646,21,32,3643]),31]) ).
cnf(3650,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,3649,theory(equality)]) ).
cnf(3651,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,3649,theory(equality)]) ).
cnf(3654,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,3649,theory(equality)]) ).
cnf(3655,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,3651,21,3615]) ).
cnf(3657,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[10,3651,21,3615]) ).
cnf(3658,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,3651,21,3615]) ).
cnf(3665,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3658,3654]) ).
cnf(3666,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3665]) ).
cnf(3667,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3666,21,3651,3657]) ).
cnf(3669,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[3650,3667]) ).
cnf(3671,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3669,3655]) ).
cnf(3673,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3671,3665]) ).
cnf(3674,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[3604,3673,21,2267]) ).
cnf(3675,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[2265,3674]) ).
cnf(3676,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[2265,3675,theory(equality)]) ).
cnf(3677,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3',equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[2267,3675,theory(equality)]) ).
cnf(3680,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[2362,3675,theory(equality)]) ).
cnf(3682,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[2357,3675,theory(equality)]) ).
cnf(3689,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,equilibrium('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[2285,3675,theory(equality)]) ).
cnf(3691,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,equilibrium('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[2281,3675,theory(equality)]) ).
cnf(3701,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,3677,21,22,2268]) ).
cnf(3702,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,3677,21,22,2786]) ).
cnf(3703,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,3677,21,22,2712]) ).
cnf(3712,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3')))
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,3701]) ).
cnf(3743,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3474,3463]) ).
cnf(3744,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3474,3461]) ).
cnf(3745,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3474,3454]) ).
cnf(3746,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3474,3452]) ).
cnf(3748,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3475,3463]) ).
cnf(3749,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3475,3461]) ).
cnf(3750,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3475,3454]) ).
cnf(3751,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3475,3452]) ).
cnf(3753,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3702,3691]) ).
cnf(3754,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3702,3689]) ).
cnf(3755,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3702,3682]) ).
cnf(3756,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3702,3680]) ).
cnf(3758,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3703,3691]) ).
cnf(3759,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3703,3689]) ).
cnf(3760,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3703,3682]) ).
cnf(3761,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,3703,3680]) ).
cnf(3767,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3743]) ).
cnf(3774,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3744]) ).
cnf(3791,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3748]) ).
cnf(3798,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3749]) ).
cnf(3815,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3753]) ).
cnf(3822,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3754]) ).
cnf(3839,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3758]) ).
cnf(3846,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,3759]) ).
cnf(3862,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3767,21,3449,3745]) ).
cnf(3863,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3448,3862]) ).
cnf(3866,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,3863,theory(equality)]) ).
cnf(3878,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3774,21,3449,3746]) ).
cnf(3879,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3448,3878]) ).
cnf(3882,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,3879,theory(equality)]) ).
cnf(3894,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3791,21,3449,3750]) ).
cnf(3895,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3448,3894]) ).
cnf(3898,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,3895,theory(equality)]) ).
cnf(3901,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3898,21,32,3866]),31]) ).
cnf(3902,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,3901,theory(equality)]) ).
cnf(3903,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,3901,theory(equality)]) ).
cnf(3906,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,3901,theory(equality)]) ).
cnf(3907,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,3903,21,2134]) ).
cnf(3910,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,3903,21,2134]) ).
cnf(3915,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3798,21,3449,3751]) ).
cnf(3916,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3448,3915]) ).
cnf(3919,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,3916,theory(equality)]) ).
cnf(3922,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3919,21,32,3882]),31]) ).
cnf(3923,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,3922,theory(equality)]) ).
cnf(3924,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,3922,theory(equality)]) ).
cnf(3927,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,3922,theory(equality)]) ).
cnf(3928,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[16,3924,21,2134]) ).
cnf(3931,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,3924,21,2134]) ).
cnf(3936,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3815,21,3677,3755]) ).
cnf(3937,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3676,3936]) ).
cnf(3940,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,3937,theory(equality)]) ).
cnf(3952,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3822,21,3677,3756]) ).
cnf(3953,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3676,3952]) ).
cnf(3956,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,3953,theory(equality)]) ).
cnf(3968,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3839,21,3677,3760]) ).
cnf(3969,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3676,3968]) ).
cnf(3972,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,3969,theory(equality)]) ).
cnf(3975,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3972,21,32,3940]),31]) ).
cnf(3976,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,3975,theory(equality)]) ).
cnf(3977,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,3975,theory(equality)]) ).
cnf(3980,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,3975,theory(equality)]) ).
cnf(3989,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,3846,21,3677,3761]) ).
cnf(3990,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3676,3989]) ).
cnf(3993,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,3990,theory(equality)]) ).
cnf(3996,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,3993,21,32,3956]),31]) ).
cnf(3997,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,3996,theory(equality)]) ).
cnf(3998,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,3996,theory(equality)]) ).
cnf(4001,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,3996,theory(equality)]) ).
cnf(4046,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3910,3906]) ).
cnf(4047,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,4046]) ).
cnf(4055,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,4047,21,3903,3907]) ).
cnf(4093,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,3931,3927]) ).
cnf(4094,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,4093]) ).
cnf(4102,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,4094,21,3924,3928]) ).
cnf(4236,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[3902,4055]) ).
cnf(4238,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,4236,3906]) ).
cnf(4247,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,4238,21,3903,4047]) ).
cnf(4256,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[3902,4247]) ).
cnf(4257,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,4256]) ).
cnf(4262,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,4257,21,22,3449]) ).
cnf(4263,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,4262,3463]) ).
cnf(4264,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,4262,3454]) ).
cnf(4266,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,4263]) ).
cnf(4277,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,4266,21,3449,4264]) ).
cnf(4278,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3448,4277]) ).
cnf(4279,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,4278]) ).
cnf(4281,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[3980,4278,theory(equality)]) ).
cnf(4284,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| ~ environment(X)
| ~ subpopulations(Y,efficient_producers,X,'SKOLEMAAAN1'('SKOLEMAAAN3'))
| ~ greater(zero,growth_rate(Y,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,Y,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('PARAMODULATE',[status(thm)],[6,4278,theory(equality)]),26]) ).
cnf(4286,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[485,4278,theory(equality)]) ).
cnf(4288,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[443,4278,theory(equality)]) ).
cnf(4290,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,4281,21,3977,4279]) ).
cnf(4297,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3976,4290]) ).
cnf(4301,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| ~ environment(X)
| ~ subpopulations(first_movers,Y,X,'SKOLEMAAAN1'('SKOLEMAAAN3'))
| ~ greater_or_equal(growth_rate(Y,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| ~ greater(zero,zero)
| outcompetes(Y,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[6,4297,theory(equality)]) ).
cnf(4326,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[3923,4102]) ).
cnf(4328,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,4326,3927]) ).
cnf(4337,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,4328,21,3924,4094]) ).
cnf(4346,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[3923,4337]) ).
cnf(4347,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,4346]) ).
cnf(4352,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,4347,21,22,3449]) ).
cnf(4353,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,4352,3461]) ).
cnf(4354,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,4352,3452]) ).
cnf(4356,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,4353]) ).
cnf(4367,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,4356,21,3449,4354]) ).
cnf(4368,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3448,4367]) ).
cnf(4369,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,4368]) ).
cnf(4371,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[4001,4368,theory(equality)]) ).
cnf(4374,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| ~ environment(X)
| ~ subpopulations(Y,efficient_producers,X,'SKOLEMAAAN1'('SKOLEMAAAN3'))
| ~ greater(zero,growth_rate(Y,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,Y,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('PARAMODULATE',[status(thm)],[6,4368,theory(equality)]),26]) ).
cnf(4376,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[485,4368,theory(equality)]) ).
cnf(4378,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[443,4368,theory(equality)]) ).
cnf(4380,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,4371,21,3998,4369]) ).
cnf(4387,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3997,4380]) ).
cnf(4391,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| ~ environment(X)
| ~ subpopulations(first_movers,Y,X,'SKOLEMAAAN1'('SKOLEMAAAN3'))
| ~ greater_or_equal(growth_rate(Y,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| ~ greater(zero,zero)
| outcompetes(Y,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[6,4387,theory(equality)]) ).
cnf(4423,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4284,4286,21,482]) ).
cnf(4428,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[481,4423]) ).
cnf(4432,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[368,4428,theory(equality)]) ).
cnf(4434,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[341,4428,theory(equality)]) ).
cnf(4438,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4284,4288,21,440]) ).
cnf(4443,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[439,4438]) ).
cnf(4448,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(Y,efficient_producers,X,'SKOLEMAAAN2'('SKOLEMAAAN3'))
| ~ greater(zero,growth_rate(Y,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,Y,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('PARAMODULATE',[status(thm)],[6,4443,theory(equality)]),26]) ).
cnf(4451,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4374,4376,21,482]) ).
cnf(4456,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[481,4451]) ).
cnf(4460,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[368,4456,theory(equality)]) ).
cnf(4462,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[341,4456,theory(equality)]) ).
cnf(4466,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4374,4378,21,440]) ).
cnf(4471,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[439,4466]) ).
cnf(4476,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(Y,efficient_producers,X,'SKOLEMAAAN2'('SKOLEMAAAN3'))
| ~ greater(zero,growth_rate(Y,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,Y,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('PARAMODULATE',[status(thm)],[6,4471,theory(equality)]),26]) ).
cnf(4481,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,'SKOLEMAAAN2'('SKOLEMAAAN3'))
| ~ greater(zero,zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[4448,4428,theory(equality)]) ).
cnf(4485,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,'SKOLEMAAAN2'('SKOLEMAAAN3'))
| ~ greater(zero,zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[4476,4456,theory(equality)]) ).
cnf(4486,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[4432,4443,theory(equality)]) ).
cnf(4487,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4481,4486,21,366]) ).
cnf(4488,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[4434,4443,theory(equality)]) ).
cnf(4489,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4481,4488,21,339]) ).
cnf(4490,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[4460,4471,theory(equality)]) ).
cnf(4491,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4485,4490,21,366]) ).
cnf(4492,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[4462,4471,theory(equality)]) ).
cnf(4493,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4485,4492,21,339]) ).
cnf(4494,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[365,4487]) ).
cnf(4497,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,4494,theory(equality)]) ).
cnf(4506,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[338,4489]) ).
cnf(4509,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,4506,theory(equality)]) ).
cnf(4512,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,4509,21,32,4497]),31]) ).
cnf(4513,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,4512,theory(equality)]) ).
cnf(4514,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,4512,theory(equality)]) ).
cnf(4517,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,4512,theory(equality)]) ).
cnf(4518,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[4517,4278,theory(equality)]) ).
cnf(4521,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4284,4518,21,4514]) ).
cnf(4526,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[4513,4521]) ).
cnf(4534,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[107,4526,theory(equality)]) ).
cnf(4536,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[102,4526,theory(equality)]) ).
cnf(4543,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[56,4526,theory(equality)]) ).
cnf(4555,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[365,4491]) ).
cnf(4558,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,4555,theory(equality)]) ).
cnf(4567,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[338,4493]) ).
cnf(4570,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,4567,theory(equality)]) ).
cnf(4573,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,4570,21,32,4558]),31]) ).
cnf(4574,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,4573,theory(equality)]) ).
cnf(4575,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,4573,theory(equality)]) ).
cnf(4578,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,4573,theory(equality)]) ).
cnf(4579,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[4578,4368,theory(equality)]) ).
cnf(4582,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4374,4579,21,4575]) ).
cnf(4587,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[4574,4582]) ).
cnf(4595,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[107,4587,theory(equality)]) ).
cnf(4597,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[102,4587,theory(equality)]) ).
cnf(4604,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[56,4587,theory(equality)]) ).
cnf(4832,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,4534,40]) ).
cnf(4837,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,4536,40]) ).
cnf(4842,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,4595,40]) ).
cnf(4847,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,4597,40]) ).
cnf(4872,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,4543,40]) ).
cnf(4874,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,4872]) ).
cnf(4880,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,4874,21,32,4832]),31]) ).
cnf(4883,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,4880,theory(equality)]) ).
cnf(4888,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,4883,21,32,4837]),31]) ).
cnf(4895,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,4888,theory(equality)]) ).
cnf(4898,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,4895,21,32,4883]),31]) ).
cnf(4899,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,4898,theory(equality)]) ).
cnf(4900,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,4898,theory(equality)]) ).
cnf(4903,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,4898,theory(equality)]) ).
cnf(4904,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[4903,4278,theory(equality)]) ).
cnf(4907,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4284,4904,21,4900]) ).
cnf(4912,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[4899,4907]) ).
cnf(4915,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[34,4912,theory(equality)]) ).
cnf(4916,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[33,4912,theory(equality)]) ).
cnf(4917,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[35,4912,theory(equality)]) ).
cnf(4921,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('PARAMODULATE',[status(thm)],[39,4912,theory(equality)]) ).
cnf(4923,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[59,4912,theory(equality)]) ).
cnf(4928,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,4917,21,4916]) ).
cnf(4929,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[15,4917,21,4916]) ).
cnf(4930,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[14,4917,21,4916]) ).
cnf(4931,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,4917,21,4916]) ).
cnf(4932,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,4917,21,4916]) ).
cnf(4933,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[11,4917,21,4916]) ).
cnf(4935,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,4917,21,4916]) ).
cnf(4939,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,4923,21,32]) ).
cnf(4942,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,4923,21,32]) ).
cnf(4943,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,4923,21,32]) ).
cnf(4946,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,4923,21,32]) ).
cnf(4954,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,4929]) ).
cnf(4965,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,4933]) ).
cnf(4974,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,4954,21,4917,4928]) ).
cnf(4975,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[4915,4974]) ).
cnf(4979,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,4965,21,4917,4932]) ).
cnf(4980,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[4915,4979]) ).
cnf(4984,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,4604,40]) ).
cnf(4986,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,4984]) ).
cnf(4992,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,4986,21,32,4842]),31]) ).
cnf(4995,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,4992,theory(equality)]) ).
cnf(5000,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,4995,21,32,4847]),31]) ).
cnf(5007,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,5000,theory(equality)]) ).
cnf(5010,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5007,21,32,4995]),31]) ).
cnf(5011,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,5010,theory(equality)]) ).
cnf(5012,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,5010,theory(equality)]) ).
cnf(5015,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,5010,theory(equality)]) ).
cnf(5016,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[5015,4368,theory(equality)]) ).
cnf(5019,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4374,5016,21,5012]) ).
cnf(5024,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[5011,5019]) ).
cnf(5027,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[34,5024,theory(equality)]) ).
cnf(5028,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[33,5024,theory(equality)]) ).
cnf(5029,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[35,5024,theory(equality)]) ).
cnf(5033,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('PARAMODULATE',[status(thm)],[39,5024,theory(equality)]) ).
cnf(5035,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[59,5024,theory(equality)]) ).
cnf(5040,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,5029,21,5028]) ).
cnf(5041,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[15,5029,21,5028]) ).
cnf(5042,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[14,5029,21,5028]) ).
cnf(5044,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,5029,21,5028]) ).
cnf(5045,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[11,5029,21,5028]) ).
cnf(5047,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,5029,21,5028]) ).
cnf(5051,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,5035,21,32]) ).
cnf(5054,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,5035,21,32]) ).
cnf(5055,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,5035,21,32]) ).
cnf(5058,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,5035,21,32]) ).
cnf(5066,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,5041]) ).
cnf(5077,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,5045]) ).
cnf(5086,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,5066,21,5029,5040]) ).
cnf(5087,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[5027,5086]) ).
cnf(5091,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,5077,21,5029,5044]) ).
cnf(5092,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[5027,5091]) ).
cnf(5262,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,4942,40]) ).
cnf(5263,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,5262]) ).
cnf(5269,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5263,21,32,4939]),31]) ).
cnf(5277,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,5269,40]) ).
cnf(5293,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5277,21,32,5263]),31]) ).
cnf(5294,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,5293]) ).
cnf(5295,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,5293,4921]) ).
cnf(5303,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,5295]) ).
cnf(5307,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,5303,21,22,4917]) ).
cnf(5336,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,4946,40]) ).
cnf(5337,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,5336]) ).
cnf(5343,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5337,21,32,4943]),31]) ).
cnf(5351,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,5343,40]) ).
cnf(5367,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5351,21,32,5337]),31]) ).
cnf(5368,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,5367]) ).
cnf(5369,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,5367,4921]) ).
cnf(5377,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,5369]) ).
cnf(5381,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,5377,21,22,4917]) ).
cnf(5410,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,5054,40]) ).
cnf(5411,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,5410]) ).
cnf(5417,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5411,21,32,5051]),31]) ).
cnf(5425,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,5417,40]) ).
cnf(5441,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5425,21,32,5411]),31]) ).
cnf(5442,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,5441]) ).
cnf(5443,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,5441,5033]) ).
cnf(5451,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,5443]) ).
cnf(5455,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,5451,21,22,5029]) ).
cnf(5484,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,5058,40]) ).
cnf(5485,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,5484]) ).
cnf(5491,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5485,21,32,5055]),31]) ).
cnf(5499,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,5491,40]) ).
cnf(5515,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5499,21,32,5485]),31]) ).
cnf(5516,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,5515]) ).
cnf(5517,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,5515,5033]) ).
cnf(5525,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,5517]) ).
cnf(5529,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,5525,21,22,5029]) ).
cnf(5532,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[4,5307]) ).
cnf(5533,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,5307,4935]) ).
cnf(5535,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,5307,4980]) ).
cnf(5536,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,5307,4975]) ).
cnf(5537,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[4,5381]) ).
cnf(5541,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,5381,4975]) ).
cnf(5542,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[4,5455]) ).
cnf(5543,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,5455,5047]) ).
cnf(5545,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,5455,5092]) ).
cnf(5546,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,5455,5087]) ).
cnf(5547,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[4,5529]) ).
cnf(5551,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,5529,5087]) ).
cnf(5577,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,5533]) ).
cnf(5593,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,5543]) ).
cnf(5644,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,5577,21,4917,5535]) ).
cnf(5645,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[4915,5644]) ).
cnf(5646,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,5645]) ).
cnf(5649,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,5645,theory(equality)]) ).
cnf(5652,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5649,21,32,5646]),31]) ).
cnf(5653,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,5652,theory(equality)]) ).
cnf(5654,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,5652,theory(equality)]) ).
cnf(5657,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,5652,theory(equality)]) ).
cnf(5658,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[5657,4278,theory(equality)]) ).
cnf(5661,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4284,5658,21,5654]) ).
cnf(5664,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[5653,5661]) ).
cnf(5667,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[4930,5664,theory(equality)]) ).
cnf(5670,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[5537,5664,theory(equality)]) ).
cnf(5671,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[5532,5664,theory(equality)]) ).
cnf(5673,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[5307,5664,theory(equality)]) ).
cnf(5675,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(first_movers,Y,X,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))
| ~ greater_or_equal(growth_rate(Y,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| ~ greater(zero,zero)
| outcompetes(Y,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[6,5664,theory(equality)]) ).
cnf(5676,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,5670,21,4917,5541]) ).
cnf(5677,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,5671,21,4917,5536]) ).
cnf(5678,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,5593,21,5029,5545]) ).
cnf(5679,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[5027,5678]) ).
cnf(5680,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,5679]) ).
cnf(5683,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,5679,theory(equality)]) ).
cnf(5686,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5683,21,32,5680]),31]) ).
cnf(5687,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,5686,theory(equality)]) ).
cnf(5688,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,5686,theory(equality)]) ).
cnf(5691,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,5686,theory(equality)]) ).
cnf(5692,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[5691,4368,theory(equality)]) ).
cnf(5695,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4374,5692,21,5688]) ).
cnf(5698,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[5687,5695]) ).
cnf(5701,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[5042,5698,theory(equality)]) ).
cnf(5704,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[5547,5698,theory(equality)]) ).
cnf(5705,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[5542,5698,theory(equality)]) ).
cnf(5707,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[5455,5698,theory(equality)]) ).
cnf(5709,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(first_movers,Y,X,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))
| ~ greater_or_equal(growth_rate(Y,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| ~ greater(zero,zero)
| outcompetes(Y,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[6,5698,theory(equality)]) ).
cnf(5710,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,5704,21,5029,5551]) ).
cnf(5711,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,5705,21,5029,5546]) ).
cnf(5934,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[4915,5676]) ).
cnf(5937,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,5934,theory(equality)]) ).
cnf(5945,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[4915,5677]) ).
cnf(5947,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,5945,theory(equality)]) ).
cnf(5950,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,5947,21,32,5937]),31]) ).
cnf(5951,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,5950,theory(equality)]) ).
cnf(5952,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,5950,theory(equality)]) ).
cnf(5956,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4301,5952,21,4279,5667]) ).
cnf(5957,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[5951,5956]) ).
cnf(5958,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,5957]) ).
cnf(5962,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[5673,5957,theory(equality)]) ).
cnf(5997,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[5675,5962,21,4917,5958]) ).
cnf(6003,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[4915,5997]) ).
cnf(6004,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,6003]) ).
cnf(6007,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,6003,theory(equality)]) ).
cnf(6010,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,6007,21,32,6004]),31]) ).
cnf(6011,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,6010,theory(equality)]) ).
cnf(6012,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,6010,theory(equality)]) ).
cnf(6015,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,6010,theory(equality)]) ).
cnf(6016,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[6015,4278,theory(equality)]) ).
cnf(6019,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4284,6016,21,6012]) ).
cnf(6021,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[6011,6019]) ).
cnf(6022,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[4915,6021,theory(equality)]) ).
cnf(6023,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3',equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[4917,6021,theory(equality)]) ).
cnf(6026,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[4975,6021,theory(equality)]) ).
cnf(6030,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,equilibrium('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[4931,6021,theory(equality)]) ).
cnf(6037,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,6023,21,22,5368]) ).
cnf(6038,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,6023,21,22,5294]) ).
cnf(6060,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[5027,5710]) ).
cnf(6063,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,6060,theory(equality)]) ).
cnf(6071,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[5027,5711]) ).
cnf(6073,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,6071,theory(equality)]) ).
cnf(6076,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,6073,21,32,6063]),31]) ).
cnf(6077,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,6076,theory(equality)]) ).
cnf(6078,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,6076,theory(equality)]) ).
cnf(6082,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4391,6078,21,4369,5701]) ).
cnf(6083,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[6077,6082]) ).
cnf(6084,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,6083]) ).
cnf(6088,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[5707,6083,theory(equality)]) ).
cnf(6123,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[5709,6088,21,5029,6084]) ).
cnf(6129,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[5027,6123]) ).
cnf(6130,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,6129]) ).
cnf(6133,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,6129,theory(equality)]) ).
cnf(6136,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,6133,21,32,6130]),31]) ).
cnf(6137,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,6136,theory(equality)]) ).
cnf(6138,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,6136,theory(equality)]) ).
cnf(6141,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,6136,theory(equality)]) ).
cnf(6142,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[6141,4368,theory(equality)]) ).
cnf(6145,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4374,6142,21,6138]) ).
cnf(6147,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[6137,6145]) ).
cnf(6148,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[5027,6147,theory(equality)]) ).
cnf(6149,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3',equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[5029,6147,theory(equality)]) ).
cnf(6152,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[5092,6147,theory(equality)]) ).
cnf(6156,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(first_movers,equilibrium('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[5047,6147,theory(equality)]) ).
cnf(6163,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,6149,21,22,5516]) ).
cnf(6164,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[18,6149,21,22,5442]) ).
cnf(6186,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,6037,6030]) ).
cnf(6187,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,6037,6026]) ).
cnf(6190,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,6186]) ).
cnf(6201,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,6190,21,6023,6187]) ).
cnf(6202,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[6022,6201]) ).
cnf(6205,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,6202,theory(equality)]) ).
cnf(6216,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,6038,6030]) ).
cnf(6217,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,6038,6026]) ).
cnf(6221,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,6216]) ).
cnf(6232,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,6221,21,6023,6217]) ).
cnf(6233,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[6022,6232]) ).
cnf(6236,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,6233,theory(equality)]) ).
cnf(6239,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,6236,21,32,6205]),31]) ).
cnf(6240,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,6239,theory(equality)]) ).
cnf(6241,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,6239,theory(equality)]) ).
cnf(6244,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,6239,theory(equality)]) ).
cnf(6245,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[6244,4278,theory(equality)]) ).
cnf(6248,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4284,6245,21,6241]) ).
cnf(6255,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[6240,6248]) ).
cnf(6259,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[31,6255,theory(equality)]) ).
cnf(6260,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[30,6255,theory(equality)]) ).
cnf(6261,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[32,6255,theory(equality)]) ).
cnf(6264,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,6255,theory(equality)]) ).
cnf(6287,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,6261,21,6260]) ).
cnf(6290,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,6261,21,6260]) ).
cnf(6317,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,6163,6156]) ).
cnf(6318,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,6163,6152]) ).
cnf(6321,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,6317]) ).
cnf(6332,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,6321,21,6149,6318]) ).
cnf(6333,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[6148,6332]) ).
cnf(6336,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,6333,theory(equality)]) ).
cnf(6347,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,6164,6156]) ).
cnf(6348,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,6164,6152]) ).
cnf(6352,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,6347]) ).
cnf(6363,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,6352,21,6149,6348]) ).
cnf(6364,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[6148,6363]) ).
cnf(6367,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,6364,theory(equality)]) ).
cnf(6370,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,6367,21,32,6336]),31]) ).
cnf(6371,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,6370,theory(equality)]) ).
cnf(6372,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,6370,theory(equality)]) ).
cnf(6375,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,6370,theory(equality)]) ).
cnf(6376,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[6375,4368,theory(equality)]) ).
cnf(6379,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4374,6376,21,6372]) ).
cnf(6386,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[6371,6379]) ).
cnf(6390,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[31,6386,theory(equality)]) ).
cnf(6391,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[30,6386,theory(equality)]) ).
cnf(6392,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[32,6386,theory(equality)]) ).
cnf(6395,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,6386,theory(equality)]) ).
cnf(6418,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,6392,21,6391]) ).
cnf(6421,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,6392,21,6391]) ).
cnf(6478,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,6290,6264]) ).
cnf(6479,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,6478]) ).
cnf(6489,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,6479,21,6261,6287]) ).
cnf(6544,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,6421,6395]) ).
cnf(6545,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,6544]) ).
cnf(6551,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,6545,21,6392,6418]) ).
cnf(6711,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[6259,6489]) ).
cnf(6713,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,6711,6264]) ).
cnf(6724,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,6713,21,6261,6479]) ).
cnf(6733,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[6259,6724]) ).
cnf(6734,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,6733]) ).
cnf(6736,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[6264,6733,theory(equality)]) ).
cnf(6743,plain,
( growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,6736,21,6261,6734]) ).
cnf(6744,plain,
growth_rate(efficient_producers,equilibrium('SKOLEMAAAN3')) = zero,
inference('HYPERRESOLVE',[status(thm)],[6259,6743]) ).
cnf(6747,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('REWRITE',[status(thm)],[3475,6744,theory(equality)]) ).
cnf(6748,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3')))
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[3484,6744,theory(equality)]) ).
cnf(6754,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3'))) ),
inference('REWRITE',[status(thm)],[3703,6744,theory(equality)]) ).
cnf(6755,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,equilibrium('SKOLEMAAAN3')))
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[3712,6744,theory(equality)]) ).
cnf(6827,plain,
( ~ environment(X)
| ~ subpopulations(Y,efficient_producers,X,equilibrium('SKOLEMAAAN3'))
| ~ greater(zero,growth_rate(Y,equilibrium('SKOLEMAAAN3')))
| outcompetes(efficient_producers,Y,equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('PARAMODULATE',[status(thm)],[6,6744,theory(equality)]),26]) ).
cnf(6840,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6827,21,3677,6754]) ).
cnf(6842,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6827,21,3449,6747]) ).
cnf(6855,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[6390,6551]) ).
cnf(6857,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,6855,6395]) ).
cnf(6860,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,6857,21,6392,6545]) ).
cnf(6863,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[6390,6860]) ).
cnf(6864,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,6863]) ).
cnf(6866,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[6395,6863,theory(equality)]) ).
cnf(6871,plain,
( growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,6866,21,6392,6864]) ).
cnf(6872,plain,
growth_rate(first_movers,equilibrium('SKOLEMAAAN3')) = zero,
inference('HYPERRESOLVE',[status(thm)],[6390,6871]) ).
cnf(6876,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero)
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[6748,6872,theory(equality)]) ).
cnf(6883,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero)
| greater_or_equal('SKOLEMAAAN1'('SKOLEMAAAN3'),equilibrium('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[6755,6872,theory(equality)]) ).
cnf(6913,plain,
( ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,equilibrium('SKOLEMAAAN3'))
| ~ greater(zero,zero)
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[6827,6872,theory(equality)]) ).
cnf(6918,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3676,6840]) ).
cnf(6919,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,6918]) ).
cnf(6922,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,6918,theory(equality)]) ).
cnf(6925,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,6922,21,32,6919]),31]) ).
cnf(6926,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,6925,theory(equality)]) ).
cnf(6927,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,6925,theory(equality)]) ).
cnf(6930,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,6925,theory(equality)]) ).
cnf(6931,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero)
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[12,6927,21,6883]) ).
cnf(6933,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero)
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[10,6927,21,6883]) ).
cnf(6934,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero)
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,6927,21,6883]) ).
cnf(6939,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3448,6842]) ).
cnf(6940,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,6939]) ).
cnf(6943,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,6939,theory(equality)]) ).
cnf(6946,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,6943,21,32,6940]),31]) ).
cnf(6948,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,6946,theory(equality)]) ).
cnf(6954,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero)
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[14,6948,21,6876]) ).
cnf(6986,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,6934,6930]) ).
cnf(6987,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero)
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,6986]) ).
cnf(6992,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero)
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6,6987,21,6927,6933]) ).
cnf(7028,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero)
| greater(growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[6926,6992]) ).
cnf(7030,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero)
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[1,7028,6931]) ).
cnf(7035,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,7030,6986]) ).
cnf(7036,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6913,7035,21,3677]) ).
cnf(7037,plain,
( growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[3676,7036]) ).
cnf(7040,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[6954,7037,theory(equality)]) ).
cnf(7044,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(first_movers,Y,X,'SKOLEMAAAN1'('SKOLEMAAAN3'))
| ~ greater_or_equal(growth_rate(Y,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero)
| ~ greater(zero,zero)
| outcompetes(Y,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[6,7037,theory(equality)]) ).
cnf(7045,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[485,7037,theory(equality)]) ).
cnf(7047,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[443,7037,theory(equality)]) ).
cnf(7049,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6913,7040,21,3449]) ).
cnf(7050,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[3448,7049]) ).
cnf(7051,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,7050]) ).
cnf(7053,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(Y,efficient_producers,X,'SKOLEMAAAN1'('SKOLEMAAAN3'))
| ~ greater(zero,growth_rate(Y,'SKOLEMAAAN1'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,Y,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('PARAMODULATE',[status(thm)],[6,7050,theory(equality)]),26]) ).
cnf(7061,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[7045,7050,theory(equality)]) ).
cnf(7066,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[7044,7061,21,482,7051]) ).
cnf(7067,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[7047,7050,theory(equality)]) ).
cnf(7072,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[7044,7067,21,440,7051]) ).
cnf(7073,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[481,7066]) ).
cnf(7077,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[368,7073,theory(equality)]) ).
cnf(7079,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')),zero) ),
inference('PARAMODULATE',[status(thm)],[341,7073,theory(equality)]) ).
cnf(7082,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN2'('SKOLEMAAAN3')) = zero ),
inference('HYPERRESOLVE',[status(thm)],[439,7072]) ).
cnf(7087,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(Y,efficient_producers,X,'SKOLEMAAAN2'('SKOLEMAAAN3'))
| ~ greater(zero,growth_rate(Y,'SKOLEMAAAN2'('SKOLEMAAAN3')))
| outcompetes(efficient_producers,Y,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('REWRITE',[status(thm)],[inference('PARAMODULATE',[status(thm)],[6,7082,theory(equality)]),26]) ).
cnf(7092,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(first_movers,efficient_producers,X,'SKOLEMAAAN2'('SKOLEMAAAN3'))
| ~ greater(zero,zero)
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[7087,7073,theory(equality)]) ).
cnf(7093,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[7077,7082,theory(equality)]) ).
cnf(7094,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[7092,7093,21,366]) ).
cnf(7095,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[7079,7082,theory(equality)]) ).
cnf(7096,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN2'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[7092,7095,21,339]) ).
cnf(7097,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[365,7094]) ).
cnf(7100,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,7097,theory(equality)]) ).
cnf(7109,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[338,7096]) ).
cnf(7112,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,7109,theory(equality)]) ).
cnf(7115,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7112,21,32,7100]),31]) ).
cnf(7116,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,7115,theory(equality)]) ).
cnf(7117,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,7115,theory(equality)]) ).
cnf(7120,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,7115,theory(equality)]) ).
cnf(7121,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[7120,7050,theory(equality)]) ).
cnf(7124,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[7053,7121,21,7117]) ).
cnf(7129,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN1'('SKOLEMAAAN3') = 'SKOLEMAAAN2'('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[7116,7124]) ).
cnf(7137,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[107,7129,theory(equality)]) ).
cnf(7139,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[102,7129,theory(equality)]) ).
cnf(7146,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[56,7129,theory(equality)]) ).
cnf(7158,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,7137,40]) ).
cnf(7163,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,7139,40]) ).
cnf(7178,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,7146,40]) ).
cnf(7180,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,7178]) ).
cnf(7186,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7180,21,32,7158]),31]) ).
cnf(7189,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,7186,theory(equality)]) ).
cnf(7194,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7189,21,32,7163]),31]) ).
cnf(7201,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,7194,theory(equality)]) ).
cnf(7204,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7201,21,32,7189]),31]) ).
cnf(7205,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,7204,theory(equality)]) ).
cnf(7206,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,7204,theory(equality)]) ).
cnf(7209,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,7204,theory(equality)]) ).
cnf(7210,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[7209,7050,theory(equality)]) ).
cnf(7213,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[7053,7210,21,7206]) ).
cnf(7218,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN2'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[7205,7213]) ).
cnf(7221,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[34,7218,theory(equality)]) ).
cnf(7222,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[33,7218,theory(equality)]) ).
cnf(7223,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[35,7218,theory(equality)]) ).
cnf(7227,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('PARAMODULATE',[status(thm)],[39,7218,theory(equality)]) ).
cnf(7229,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[59,7218,theory(equality)]) ).
cnf(7234,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,7223,21,7222]) ).
cnf(7235,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[15,7223,21,7222]) ).
cnf(7236,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[14,7223,21,7222]) ).
cnf(7238,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,7223,21,7222]) ).
cnf(7239,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[11,7223,21,7222]) ).
cnf(7241,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,7223,21,7222]) ).
cnf(7245,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,7229,21,32]) ).
cnf(7248,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,7229,21,32]) ).
cnf(7249,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[12,7229,21,32]) ).
cnf(7252,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[9,7229,21,32]) ).
cnf(7260,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,7235]) ).
cnf(7271,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,7239]) ).
cnf(7280,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,7260,21,7223,7234]) ).
cnf(7281,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[7221,7280]) ).
cnf(7285,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,7271,21,7223,7238]) ).
cnf(7286,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[7221,7285]) ).
cnf(7386,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,7248,40]) ).
cnf(7387,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,7386]) ).
cnf(7393,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7387,21,32,7245]),31]) ).
cnf(7401,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,7393,40]) ).
cnf(7417,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7401,21,32,7387]),31]) ).
cnf(7418,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,7417]) ).
cnf(7419,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,7417,7227]) ).
cnf(7427,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,7419]) ).
cnf(7431,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,7427,21,22,7223]) ).
cnf(7460,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,7252,40]) ).
cnf(7461,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,7460]) ).
cnf(7467,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7461,21,32,7249]),31]) ).
cnf(7475,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,7467,40]) ).
cnf(7491,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3'))
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7475,21,32,7461]),31]) ).
cnf(7492,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(equilibrium('SKOLEMAAAN3'),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,7491]) ).
cnf(7493,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[1,7491,7227]) ).
cnf(7501,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[4,7493]) ).
cnf(7505,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[18,7501,21,22,7223]) ).
cnf(7508,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[4,7431]) ).
cnf(7509,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,7431,7241]) ).
cnf(7511,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,7431,7286]) ).
cnf(7512,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,7431,7281]) ).
cnf(7513,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[4,7505]) ).
cnf(7517,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,7505,7281]) ).
cnf(7531,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,7509]) ).
cnf(7564,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,7531,21,7223,7511]) ).
cnf(7565,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[7221,7564]) ).
cnf(7566,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,7565]) ).
cnf(7569,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,7565,theory(equality)]) ).
cnf(7572,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7569,21,32,7566]),31]) ).
cnf(7573,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,7572,theory(equality)]) ).
cnf(7574,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,7572,theory(equality)]) ).
cnf(7577,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,7572,theory(equality)]) ).
cnf(7578,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[7577,7050,theory(equality)]) ).
cnf(7581,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[7053,7578,21,7574]) ).
cnf(7584,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[7573,7581]) ).
cnf(7587,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[7236,7584,theory(equality)]) ).
cnf(7590,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[7513,7584,theory(equality)]) ).
cnf(7591,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[7508,7584,theory(equality)]) ).
cnf(7593,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[7431,7584,theory(equality)]) ).
cnf(7595,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ environment(X)
| ~ subpopulations(first_movers,Y,X,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))
| ~ greater_or_equal(growth_rate(Y,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| ~ greater(zero,zero)
| outcompetes(Y,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[6,7584,theory(equality)]) ).
cnf(7596,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,7590,21,7223,7517]) ).
cnf(7597,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[6,7591,21,7223,7512]) ).
cnf(7709,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[7221,7596]) ).
cnf(7712,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[41,7709,theory(equality)]) ).
cnf(7720,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[7221,7597]) ).
cnf(7722,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,7720,theory(equality)]) ).
cnf(7725,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7722,21,32,7712]),31]) ).
cnf(7726,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,7725,theory(equality)]) ).
cnf(7727,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,7725,theory(equality)]) ).
cnf(7731,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[7044,7727,21,7051,7587]) ).
cnf(7732,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[7726,7731]) ).
cnf(7733,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,7732]) ).
cnf(7737,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[7593,7732,theory(equality)]) ).
cnf(7772,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) ),
inference('HYPERRESOLVE',[status(thm)],[7595,7737,21,7223,7733]) ).
cnf(7778,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[7221,7772]) ).
cnf(7779,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[5,7778]) ).
cnf(7782,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')))) ),
inference('PARAMODULATE',[status(thm)],[40,7778,theory(equality)]) ).
cnf(7785,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7782,21,32,7779]),31]) ).
cnf(7786,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,7785,theory(equality)]) ).
cnf(7787,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,7785,theory(equality)]) ).
cnf(7790,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,7785,theory(equality)]) ).
cnf(7791,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[7790,7050,theory(equality)]) ).
cnf(7794,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[7053,7791,21,7787]) ).
cnf(7796,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')) = equilibrium('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[7786,7794]) ).
cnf(7797,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[7221,7796,theory(equality)]) ).
cnf(7798,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3',equilibrium('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[7223,7796,theory(equality)]) ).
cnf(7801,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[18,7798,21,22,7492]),6872,6744,theory(equality)]) ).
cnf(7802,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| greater(zero,zero) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[18,7798,21,22,7418]),6872,6744,theory(equality)]) ).
cnf(7808,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6913,7801,21,7798]) ).
cnf(7809,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6913,7802,21,7798]) ).
cnf(7812,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(first_movers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[7797,7808]) ).
cnf(7816,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))),zero) ),
inference('PARAMODULATE',[status(thm)],[40,7812,theory(equality)]) ).
cnf(7823,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| growth_rate(efficient_producers,'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3'))) = zero ),
inference('HYPERRESOLVE',[status(thm)],[7797,7809]) ).
cnf(7824,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| greater(zero,zero) ),
inference('PARAMODULATE',[status(thm)],[7816,7823,theory(equality)]) ).
cnf(7829,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,equilibrium('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[6913,7824,21,7798]) ).
cnf(7830,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| 'SKOLEMAAAN4'('SKOLEMAAAN1'('SKOLEMAAAN3')) = 'SKOLEMAAAN1'('SKOLEMAAAN3') ),
inference('HYPERRESOLVE',[status(thm)],[7797,7829]) ).
cnf(7831,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| ~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[31,7830,theory(equality)]) ).
cnf(7832,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('PARAMODULATE',[status(thm)],[32,7830,theory(equality)]) ).
cnf(7835,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(growth_rate(efficient_producers,'SKOLEMAAAN1'('SKOLEMAAAN3')),growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[40,7830,theory(equality)]) ).
cnf(7836,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3'))) ),
inference('PARAMODULATE',[status(thm)],[7835,7050,theory(equality)]) ).
cnf(7839,plain,
( 'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3')
| outcompetes(efficient_producers,first_movers,'SKOLEMAAAN1'('SKOLEMAAAN3')) ),
inference('HYPERRESOLVE',[status(thm)],[7053,7836,21,7832]) ).
cnf(7845,plain,
'SKOLEMAAAN1'('SKOLEMAAAN3') = equilibrium('SKOLEMAAAN3'),
inference('HYPERRESOLVE',[status(thm)],[7831,7839]) ).
cnf(7847,plain,
greater_or_equal('SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')),equilibrium('SKOLEMAAAN3')),
inference('REWRITE',[status(thm)],[30,7845,theory(equality)]) ).
cnf(7848,plain,
~ outcompetes(efficient_producers,first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),
inference('REWRITE',[status(thm)],[31,7845,theory(equality)]) ).
cnf(7849,plain,
subpopulations(first_movers,efficient_producers,'SKOLEMAAAN3','SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),
inference('REWRITE',[status(thm)],[32,7845,theory(equality)]) ).
cnf(7851,plain,
greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))),
inference('REWRITE',[status(thm)],[40,7845,theory(equality)]) ).
cnf(7889,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))))
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[16,7849,21,7847]) ).
cnf(7892,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero)
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[13,7849,21,7847]) ).
cnf(7923,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[1,7892,7851]) ).
cnf(7924,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater_or_equal(growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))),zero) ),
inference('HYPERRESOLVE',[status(thm)],[4,7923]) ).
cnf(7930,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7924,21,7849,7889]),7848]) ).
cnf(7938,plain,
( growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero
| greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))) ),
inference('HYPERRESOLVE',[status(thm)],[1,7930,7851]) ).
cnf(7945,plain,
growth_rate(efficient_producers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3'))) = zero,
inference('REWRITE',[status(thm)],[inference('HYPERRESOLVE',[status(thm)],[6,7938,21,7849,7924]),7848]) ).
cnf(7946,plain,
greater(zero,growth_rate(first_movers,'SKOLEMAAAN4'(equilibrium('SKOLEMAAAN3')))),
inference('REWRITE',[status(thm)],[7851,7945,theory(equality)]) ).
cnf(7949,plain,
$false,
inference('REWRITE',[status(thm)],[inference('UR-RESOLVE',[status(thm)],[6,7946,21,7849,7848]),26,7945,theory(equality)]) ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.09/0.10 % Problem : MGT035+1 : TPTP v8.1.0. Released v2.0.0.
% 0.09/0.11 % Command : run-snark %s %d
% 0.10/0.30 % Computer : n032.cluster.edu
% 0.10/0.30 % Model : x86_64 x86_64
% 0.10/0.30 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.10/0.30 % Memory : 8042.1875MB
% 0.10/0.30 % OS : Linux 3.10.0-693.el7.x86_64
% 0.10/0.30 % CPULimit : 300
% 0.10/0.30 % WCLimit : 600
% 0.10/0.30 % DateTime : Thu Jun 9 11:07:07 EDT 2022
% 0.10/0.30 % CPUTime :
% 0.15/0.38 /export/starexec/sandbox/benchmark/theBenchmark.p
% 0.15/0.38 *
% 0.15/0.38 *
% 0.15/0.39 #<PACKAGE "SNARK-USER">
% 0.15/0.39 *
% 0.15/0.39 SNARK-TPTP-OPTIONS
% 0.15/0.39 *
% 0.15/0.39 ((AGENDA-LENGTH-LIMIT NIL) (AGENDA-LENGTH-BEFORE-SIMPLIFICATION-LIMIT NIL)
% 0.15/0.39 (USE-HYPERRESOLUTION T) (USE-UR-RESOLUTION T) (USE-PARAMODULATION T)
% 0.15/0.39 (USE-FACTORING :POS)
% 0.15/0.39 (USE-LITERAL-ORDERING-WITH-HYPERRESOLUTION 'LITERAL-ORDERING-P)
% 0.15/0.39 (USE-LITERAL-ORDERING-WITH-PARAMODULATION 'LITERAL-ORDERING-P)
% 0.15/0.39 (ORDERING-FUNCTIONS>CONSTANTS T) (ASSERT-CONTEXT :CURRENT)
% 0.15/0.39 (RUN-TIME-LIMIT 300) (LISTEN-FOR-COMMANDS NIL)
% 0.15/0.39 (USE-CLOSURE-WHEN-SATISFIABLE T) (PRINT-ROWS-WHEN-GIVEN NIL)
% 0.15/0.39 (PRINT-ROWS-WHEN-DERIVED NIL) (PRINT-UNORIENTABLE-ROWS NIL)
% 0.15/0.39 (PRINT-ROW-WFFS-PRETTILY NIL) (PRINT-FINAL-ROWS :TPTP)
% 0.15/0.39 (PRINT-OPTIONS-WHEN-STARTING NIL) (USE-VARIABLE-NAME-SORTS NIL)
% 0.15/0.39 (USE-PURITY-TEST T) (USE-RELEVANCE-TEST T) (DECLARE-TPTP-SYMBOLS1)
% 0.15/0.39 (DECLARE-TPTP-SYMBOLS2))
% 0.15/0.39 *
% 0.15/0.39 "."
% 0.15/0.39 *
% 0.15/0.39 ; Begin refute-file /export/starexec/sandbox/benchmark/theBenchmark.p 2022-06-09T11:07:07
% 0.15/0.39 ; Running SNARK from /davis/home/graph/tptp/Systems/SNARK---20120808r022/Source/snark-system.lisp in SBCL 1.0.12 on n032.cluster.edu at 2022-06-09T11:07:07
% 57.22/57.42
% 57.22/57.42
% 57.22/57.42 #||
% 57.22/57.42 % SZS status Theorem for /export/starexec/sandbox/benchmark/theBenchmark.p
% 57.22/57.42 % SZS output start Refutation
% See solution above
% 57.44/57.70 ||#
% 57.44/57.70
% 57.44/57.70 ; Summary of computation:
% 57.44/57.70 ; 76081 formulas have been input or derived (from 3946 formulas).
% 57.44/57.70 ; 7949 (10%) were retained. Of these,
% 57.44/57.70 ; 7841 (99%) were simplified or subsumed later,
% 57.44/57.70 ; 108 ( 1%) are still being kept.
% 57.44/57.70 ;
% 57.44/57.70 ; Run time in seconds excluding printing time:
% 57.44/57.70 ; 0.002 0% Read assertion file (1 call)
% 57.44/57.70 ; 0.000 0% Assert (8 calls)
% 57.44/57.70 ; 1.192 2% Process new row (73,869 calls)
% 57.44/57.70 ; 1.778 3% Resolution (7,890 calls)
% 57.44/57.70 ; 1.985 3% Paramodulation (3,945 calls)
% 57.44/57.70 ; 0.037 0% Factoring (3,746 calls)
% 57.44/57.70 ; 0.122 0% Condensing (58,783 calls)
% 57.44/57.70 ; 41.659 73% Forward subsumption (58,783 calls)
% 57.44/57.70 ; 1.223 2% Backward subsumption (7,922 calls)
% 57.44/57.70 ; 2.690 5% Clause clause subsumption (877,087 calls)
% 57.44/57.70 ; 2.328 4% Forward simplification (67,148 calls)
% 57.44/57.70 ; 0.050 0% Backward simplification (7,949 calls)
% 57.44/57.70 ; 3.563 6% Ordering (1,890,908 calls)
% 57.44/57.70 ; 0.000 0% Sortal reasoning (32 calls)
% 57.44/57.70 ; 0.000 0% Purity testing (1 call)
% 57.44/57.70 ; 0.392 1% Other
% 57.44/57.70 ; 57.021 Total
% 57.44/57.70 ; 57.307 Real time
% 57.44/57.70 ;
% 57.44/57.70 ; Term-hash-array has 379 terms in all.
% 57.44/57.70 ; Feature-vector-row-index has 89 entries (702 at peak, 7,922 added, 7,833 deleted).
% 57.44/57.70 ; Feature-vector-row-index has 981 nodes (6,460 at peak, 79,214 added, 78,233 deleted).
% 57.44/57.70 ; Retrieved 2,054,855 possibly forward subsuming rows in 58,783 calls.
% 57.44/57.70 ; Retrieved 55,812 possibly backward subsumed rows in 7,922 calls.
% 57.44/57.70 ; Path-index has 131 entries (231 at peak, 2,277 added, 2,146 deleted).
% 57.44/57.70 ; Path-index has 260 nodes (290 at peak, 397 added, 137 deleted).
% 57.44/57.70 ; Trie-index has 131 entries (231 at peak, 2,277 added, 2,146 deleted).
% 57.44/57.70 ; Trie-index has 370 nodes (651 at peak, 5,918 added, 5,548 deleted).
% 57.44/57.70 ; Retrieved 8,986 generalization terms in 170,342 calls.
% 57.44/57.70 ; Retrieved 32 instance terms in 26 calls.
% 57.44/57.70 ; Retrieved 89,215 unifiable terms in 47,286 calls.
% 57.44/57.70 ;
% 57.44/57.70 ; The agenda of rows to process has 5 entries:
% 57.44/57.70 ; 1 with value 15 4 with value 60
% 57.44/57.70 ; The agenda of rows to give has 34 entries:
% 57.44/57.70 ; 1 with value (4 15) 2 with value (4 54) 3 with value (4 59)
% 57.44/57.70 ; 1 with value (4 18) 2 with value (4 56) 1 with value (4 63)
% 57.44/57.70 ; 1 with value (4 19) 5 with value (4 57) 1 with value (4 64)
% 57.44/57.70 ; 6 with value (4 44) 6 with value (4 58) 1 with value (4 378)
% 57.44/57.70 ; 4 with value (4 45)
% 57.44/57.70 Evaluation took:
% 57.44/57.70 57.307 seconds of real time
% 57.44/57.70 53.66785 seconds of user run time
% 57.44/57.70 3.633826 seconds of system run time
% 57.44/57.70 [Run times include 2.645 seconds GC run time.]
% 57.44/57.70 0 calls to %EVAL
% 57.44/57.70 0 page faults and
% 57.44/57.70 8,171,809,264 bytes consed.
% 57.44/57.70 :PROOF-FOUND
% 57.44/57.70 ; End refute-file /export/starexec/sandbox/benchmark/theBenchmark.p 2022-06-09T11:08:05
% 57.44/57.70 :PROOF-FOUND
% 57.44/57.70 *
%------------------------------------------------------------------------------