TSTP Solution File: BIO003+1 by Vampire-SAT---4.8
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%------------------------------------------------------------------------------
% File : Vampire-SAT---4.8
% Problem : BIO003+1 : TPTP v8.1.2. Bugfixed v6.4.1.
% Transfm : none
% Format : tptp:raw
% Command : vampire --mode casc_sat -m 16384 --cores 7 -t %d %s
% Computer : n010.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 : 300s
% DateTime : Sun May 5 04:38:18 EDT 2024
% Result : Theorem 33.73s 7.30s
% Output : Refutation 33.73s
% Verified :
% SZS Type : Refutation
% Derivation depth : 10
% Number of leaves : 4
% Syntax : Number of formulae : 20 ( 8 unt; 0 def)
% Number of atoms : 803 ( 117 equ)
% Maximal formula atoms : 91 ( 40 avg)
% Number of connectives : 792 ( 9 ~; 6 |; 771 &)
% ( 0 <=>; 6 =>; 0 <=; 0 <~>)
% Maximal formula depth : 92 ( 41 avg)
% Maximal term depth : 3 ( 2 avg)
% Number of predicates : 53 ( 51 usr; 1 prp; 0-4 aty)
% Number of functors : 46 ( 42 usr; 16 con; 0-1 aty)
% Number of variables : 12 ( 12 !; 0 ?)
% Comments :
%------------------------------------------------------------------------------
fof(f227816,plain,
$false,
inference(unit_resulting_resolution,[],[f225838,f38976,f223403]) ).
fof(f223403,plain,
! [X0] :
( ~ sP1734(X0)
| cytoskeleton_1(fn_cell_2(X0)) ),
inference(cnf_transformation,[],[f38824]) ).
fof(f38824,plain,
! [X0] :
( ( fn_biomembrane_47(fn_cell_30(X0)) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_plasma_membrane_71(fn_cell_30(X0)) = fn_biomembrane_47(fn_cell_30(X0))
& fn_biomembrane_63(fn_cell_30(X0)) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cytoplasm_8(fn_cell_28(X0)) = fn_biomembrane_63(fn_cell_30(X0))
& fn_mixture_1(fn_cell_28(X0)) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_28(X0) = fn_cytoplasmic_side_1(fn_cell_27(X0))
& fn_cell_26(X0) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cell_26(X0) = fn_biomembrane_63(fn_cell_30(X0))
& fn_cell_27(X0) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_cell_27(X0) = fn_biomembrane_47(fn_cell_30(X0))
& fn_cell_29(X0) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_29(X0) = fn_mixture_1(fn_cell_28(X0))
& fn_cytoplasm_7(fn_cell_28(X0)) = X0
& is_facing_2(fn_cell_27(X0),fn_cell_28(X0))
& has_part_2(fn_cell_30(X0),fn_cell_26(X0))
& has_region_2(fn_cell_30(X0),fn_cell_27(X0))
& has_part_2(fn_cell_28(X0),fn_cell_29(X0))
& has_part_2(X0,fn_cell_28(X0))
& is_at_2(fn_cell_26(X0),fn_cell_4(X0))
& is_oriented_toward_2(fn_cell_27(X0),fn_cell_28(X0))
& directly_proportional_2(fn_cell_11(X0),fn_cell_22(X0))
& the_scalar_value_2(fn_cell_13(X0),simple_0)
& is_inside_2(fn_cell_14(X0),fn_cell_29(X0))
& greater_than_or_equal_to_2(fn_cell_18(X0),fn_cell_19(X0))
& cardinal_unit_class_2(fn_cell_19(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_19(X0),"0.1e0")
& greater_than_or_equal_to_2(fn_cell_20(X0),fn_cell_18(X0))
& cardinal_unit_class_2(fn_cell_20(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_20(X0),"100.0e0")
& has_part_2(fn_cell_28(X0),fn_cell_9(X0))
& is_inside_2(fn_cell_28(X0),fn_cell_30(X0))
& has_part_2(X0,fn_cell_30(X0))
& has_part_2(X0,fn_cell_14(X0))
& has_part_2(X0,fn_cell_8(X0))
& has_part_2(X0,fn_cell_24(X0))
& has_part_2(X0,fn_cell_25(X0))
& has_part_2(X0,fn_cell_2(X0))
& minCardinality(X0,has_part_0,"1",chromosome_0)
& has_region_2(X0,fn_cell_4(X0))
& has_region_2(X0,fn_cell_1(X0))
& exactCardinality(X0,has_region_0,"2",cell_pole_0)
& volume_2(X0,fn_cell_22(X0))
& diameter_2(X0,fn_cell_18(X0))
& structural_complexity_2(X0,fn_cell_13(X0))
& size_2(X0,fn_cell_11(X0))
& specific_surface_area_2(X0,fn_cell_7(X0))
& shape_2(X0,fn_cell_5(X0))
& is_across_2(fn_cell_21(X0),fn_cell_30(X0))
& cytoplasmic_side_1(fn_plasma_membrane_66(fn_cell_30(X0)))
& surface_1(fn_biomembrane_47(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& tangible_entity_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_biomembrane_63(fn_cell_30(X0)))
& tangible_entity_1(fn_biomembrane_63(fn_cell_30(X0)))
& cytosol_1(fn_cytoplasm_8(fn_cell_28(X0)))
& substance_1(fn_mixture_1(fn_cell_28(X0)))
& cytoplasm_1(fn_cytoplasmic_side_1(fn_cell_27(X0)))
& cell_1(fn_cytoplasm_7(fn_cell_28(X0)))
& plasma_membrane_1(fn_cell_30(X0))
& cytosol_1(fn_cell_29(X0))
& substance_1(fn_cell_29(X0))
& cytoplasm_1(fn_cell_28(X0))
& mixture_1(fn_cell_28(X0))
& cytoplasmic_side_1(fn_cell_27(X0))
& surface_1(fn_cell_27(X0))
& phospholipid_bilayer_1(fn_cell_26(X0))
& tangible_entity_1(fn_cell_26(X0))
& chromosome_1(fn_cell_25(X0))
& genome_1(fn_cell_24(X0))
& volume_value_1(fn_cell_22(X0))
& membrane_potential_1(fn_cell_21(X0))
& length_value_1(fn_cell_20(X0))
& length_value_1(fn_cell_19(X0))
& length_value_1(fn_cell_18(X0))
& ribosome_1(fn_cell_14(X0))
& structural_complexity_value_1(fn_cell_13(X0))
& size_value_1(fn_cell_11(X0))
& protein_enzyme_1(fn_cell_9(X0))
& motor_protein_1(fn_cell_8(X0))
& specific_surface_area_value_1(fn_cell_7(X0))
& shape_value_1(fn_cell_5(X0))
& surface_1(fn_cell_4(X0))
& cytoskeleton_1(fn_cell_2(X0))
& cell_pole_1(fn_cell_1(X0))
& living_entity_1(X0) )
| ~ sP1734(X0) ),
inference(nnf_transformation,[],[f36924]) ).
fof(f36924,plain,
! [X0] :
( ( fn_biomembrane_47(fn_cell_30(X0)) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_plasma_membrane_71(fn_cell_30(X0)) = fn_biomembrane_47(fn_cell_30(X0))
& fn_biomembrane_63(fn_cell_30(X0)) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cytoplasm_8(fn_cell_28(X0)) = fn_biomembrane_63(fn_cell_30(X0))
& fn_mixture_1(fn_cell_28(X0)) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_28(X0) = fn_cytoplasmic_side_1(fn_cell_27(X0))
& fn_cell_26(X0) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cell_26(X0) = fn_biomembrane_63(fn_cell_30(X0))
& fn_cell_27(X0) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_cell_27(X0) = fn_biomembrane_47(fn_cell_30(X0))
& fn_cell_29(X0) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_29(X0) = fn_mixture_1(fn_cell_28(X0))
& fn_cytoplasm_7(fn_cell_28(X0)) = X0
& is_facing_2(fn_cell_27(X0),fn_cell_28(X0))
& has_part_2(fn_cell_30(X0),fn_cell_26(X0))
& has_region_2(fn_cell_30(X0),fn_cell_27(X0))
& has_part_2(fn_cell_28(X0),fn_cell_29(X0))
& has_part_2(X0,fn_cell_28(X0))
& is_at_2(fn_cell_26(X0),fn_cell_4(X0))
& is_oriented_toward_2(fn_cell_27(X0),fn_cell_28(X0))
& directly_proportional_2(fn_cell_11(X0),fn_cell_22(X0))
& the_scalar_value_2(fn_cell_13(X0),simple_0)
& is_inside_2(fn_cell_14(X0),fn_cell_29(X0))
& greater_than_or_equal_to_2(fn_cell_18(X0),fn_cell_19(X0))
& cardinal_unit_class_2(fn_cell_19(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_19(X0),"0.1e0")
& greater_than_or_equal_to_2(fn_cell_20(X0),fn_cell_18(X0))
& cardinal_unit_class_2(fn_cell_20(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_20(X0),"100.0e0")
& has_part_2(fn_cell_28(X0),fn_cell_9(X0))
& is_inside_2(fn_cell_28(X0),fn_cell_30(X0))
& has_part_2(X0,fn_cell_30(X0))
& has_part_2(X0,fn_cell_14(X0))
& has_part_2(X0,fn_cell_8(X0))
& has_part_2(X0,fn_cell_24(X0))
& has_part_2(X0,fn_cell_25(X0))
& has_part_2(X0,fn_cell_2(X0))
& minCardinality(X0,has_part_0,"1",chromosome_0)
& has_region_2(X0,fn_cell_4(X0))
& has_region_2(X0,fn_cell_1(X0))
& exactCardinality(X0,has_region_0,"2",cell_pole_0)
& volume_2(X0,fn_cell_22(X0))
& diameter_2(X0,fn_cell_18(X0))
& structural_complexity_2(X0,fn_cell_13(X0))
& size_2(X0,fn_cell_11(X0))
& specific_surface_area_2(X0,fn_cell_7(X0))
& shape_2(X0,fn_cell_5(X0))
& is_across_2(fn_cell_21(X0),fn_cell_30(X0))
& cytoplasmic_side_1(fn_plasma_membrane_66(fn_cell_30(X0)))
& surface_1(fn_biomembrane_47(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& tangible_entity_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_biomembrane_63(fn_cell_30(X0)))
& tangible_entity_1(fn_biomembrane_63(fn_cell_30(X0)))
& cytosol_1(fn_cytoplasm_8(fn_cell_28(X0)))
& substance_1(fn_mixture_1(fn_cell_28(X0)))
& cytoplasm_1(fn_cytoplasmic_side_1(fn_cell_27(X0)))
& cell_1(fn_cytoplasm_7(fn_cell_28(X0)))
& plasma_membrane_1(fn_cell_30(X0))
& cytosol_1(fn_cell_29(X0))
& substance_1(fn_cell_29(X0))
& cytoplasm_1(fn_cell_28(X0))
& mixture_1(fn_cell_28(X0))
& cytoplasmic_side_1(fn_cell_27(X0))
& surface_1(fn_cell_27(X0))
& phospholipid_bilayer_1(fn_cell_26(X0))
& tangible_entity_1(fn_cell_26(X0))
& chromosome_1(fn_cell_25(X0))
& genome_1(fn_cell_24(X0))
& volume_value_1(fn_cell_22(X0))
& membrane_potential_1(fn_cell_21(X0))
& length_value_1(fn_cell_20(X0))
& length_value_1(fn_cell_19(X0))
& length_value_1(fn_cell_18(X0))
& ribosome_1(fn_cell_14(X0))
& structural_complexity_value_1(fn_cell_13(X0))
& size_value_1(fn_cell_11(X0))
& protein_enzyme_1(fn_cell_9(X0))
& motor_protein_1(fn_cell_8(X0))
& specific_surface_area_value_1(fn_cell_7(X0))
& shape_value_1(fn_cell_5(X0))
& surface_1(fn_cell_4(X0))
& cytoskeleton_1(fn_cell_2(X0))
& cell_pole_1(fn_cell_1(X0))
& living_entity_1(X0) )
| ~ sP1734(X0) ),
introduced(predicate_definition_introduction,[new_symbols(naming,[sP1734])]) ).
fof(f38976,plain,
~ cytoskeleton_1(fn_cell_2(a_cell)),
inference(cnf_transformation,[],[f9164]) ).
fof(f9164,plain,
~ cytoskeleton_1(fn_cell_2(a_cell)),
inference(flattening,[],[f9163]) ).
fof(f9163,negated_conjecture,
~ cytoskeleton_1(fn_cell_2(a_cell)),
inference(negated_conjecture,[],[f9162]) ).
fof(f9162,conjecture,
cytoskeleton_1(fn_cell_2(a_cell)),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',ask) ).
fof(f225838,plain,
sP1734(a_cell),
inference(unit_resulting_resolution,[],[f39691,f223486]) ).
fof(f223486,plain,
! [X0] :
( ~ cell_1(X0)
| sP1734(X0) ),
inference(cnf_transformation,[],[f36925]) ).
fof(f36925,plain,
! [X0] :
( sP1734(X0)
| ~ cell_1(X0) ),
inference(definition_folding,[],[f32058,f36924]) ).
fof(f32058,plain,
! [X0] :
( ( fn_biomembrane_47(fn_cell_30(X0)) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_plasma_membrane_71(fn_cell_30(X0)) = fn_biomembrane_47(fn_cell_30(X0))
& fn_biomembrane_63(fn_cell_30(X0)) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cytoplasm_8(fn_cell_28(X0)) = fn_biomembrane_63(fn_cell_30(X0))
& fn_mixture_1(fn_cell_28(X0)) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_28(X0) = fn_cytoplasmic_side_1(fn_cell_27(X0))
& fn_cell_26(X0) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cell_26(X0) = fn_biomembrane_63(fn_cell_30(X0))
& fn_cell_27(X0) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_cell_27(X0) = fn_biomembrane_47(fn_cell_30(X0))
& fn_cell_29(X0) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_29(X0) = fn_mixture_1(fn_cell_28(X0))
& fn_cytoplasm_7(fn_cell_28(X0)) = X0
& is_facing_2(fn_cell_27(X0),fn_cell_28(X0))
& has_part_2(fn_cell_30(X0),fn_cell_26(X0))
& has_region_2(fn_cell_30(X0),fn_cell_27(X0))
& has_part_2(fn_cell_28(X0),fn_cell_29(X0))
& has_part_2(X0,fn_cell_28(X0))
& is_at_2(fn_cell_26(X0),fn_cell_4(X0))
& is_oriented_toward_2(fn_cell_27(X0),fn_cell_28(X0))
& directly_proportional_2(fn_cell_11(X0),fn_cell_22(X0))
& the_scalar_value_2(fn_cell_13(X0),simple_0)
& is_inside_2(fn_cell_14(X0),fn_cell_29(X0))
& greater_than_or_equal_to_2(fn_cell_18(X0),fn_cell_19(X0))
& cardinal_unit_class_2(fn_cell_19(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_19(X0),"0.1e0")
& greater_than_or_equal_to_2(fn_cell_20(X0),fn_cell_18(X0))
& cardinal_unit_class_2(fn_cell_20(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_20(X0),"100.0e0")
& has_part_2(fn_cell_28(X0),fn_cell_9(X0))
& is_inside_2(fn_cell_28(X0),fn_cell_30(X0))
& has_part_2(X0,fn_cell_30(X0))
& has_part_2(X0,fn_cell_14(X0))
& has_part_2(X0,fn_cell_8(X0))
& has_part_2(X0,fn_cell_24(X0))
& has_part_2(X0,fn_cell_25(X0))
& has_part_2(X0,fn_cell_2(X0))
& minCardinality(X0,has_part_0,"1",chromosome_0)
& has_region_2(X0,fn_cell_4(X0))
& has_region_2(X0,fn_cell_1(X0))
& exactCardinality(X0,has_region_0,"2",cell_pole_0)
& volume_2(X0,fn_cell_22(X0))
& diameter_2(X0,fn_cell_18(X0))
& structural_complexity_2(X0,fn_cell_13(X0))
& size_2(X0,fn_cell_11(X0))
& specific_surface_area_2(X0,fn_cell_7(X0))
& shape_2(X0,fn_cell_5(X0))
& is_across_2(fn_cell_21(X0),fn_cell_30(X0))
& cytoplasmic_side_1(fn_plasma_membrane_66(fn_cell_30(X0)))
& surface_1(fn_biomembrane_47(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& tangible_entity_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_biomembrane_63(fn_cell_30(X0)))
& tangible_entity_1(fn_biomembrane_63(fn_cell_30(X0)))
& cytosol_1(fn_cytoplasm_8(fn_cell_28(X0)))
& substance_1(fn_mixture_1(fn_cell_28(X0)))
& cytoplasm_1(fn_cytoplasmic_side_1(fn_cell_27(X0)))
& cell_1(fn_cytoplasm_7(fn_cell_28(X0)))
& plasma_membrane_1(fn_cell_30(X0))
& cytosol_1(fn_cell_29(X0))
& substance_1(fn_cell_29(X0))
& cytoplasm_1(fn_cell_28(X0))
& mixture_1(fn_cell_28(X0))
& cytoplasmic_side_1(fn_cell_27(X0))
& surface_1(fn_cell_27(X0))
& phospholipid_bilayer_1(fn_cell_26(X0))
& tangible_entity_1(fn_cell_26(X0))
& chromosome_1(fn_cell_25(X0))
& genome_1(fn_cell_24(X0))
& volume_value_1(fn_cell_22(X0))
& membrane_potential_1(fn_cell_21(X0))
& length_value_1(fn_cell_20(X0))
& length_value_1(fn_cell_19(X0))
& length_value_1(fn_cell_18(X0))
& ribosome_1(fn_cell_14(X0))
& structural_complexity_value_1(fn_cell_13(X0))
& size_value_1(fn_cell_11(X0))
& protein_enzyme_1(fn_cell_9(X0))
& motor_protein_1(fn_cell_8(X0))
& specific_surface_area_value_1(fn_cell_7(X0))
& shape_value_1(fn_cell_5(X0))
& surface_1(fn_cell_4(X0))
& cytoskeleton_1(fn_cell_2(X0))
& cell_pole_1(fn_cell_1(X0))
& living_entity_1(X0) )
| ~ cell_1(X0) ),
inference(ennf_transformation,[],[f27466]) ).
fof(f27466,plain,
! [X0] :
( cell_1(X0)
=> ( fn_biomembrane_47(fn_cell_30(X0)) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_plasma_membrane_71(fn_cell_30(X0)) = fn_biomembrane_47(fn_cell_30(X0))
& fn_biomembrane_63(fn_cell_30(X0)) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cytoplasm_8(fn_cell_28(X0)) = fn_biomembrane_63(fn_cell_30(X0))
& fn_mixture_1(fn_cell_28(X0)) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_28(X0) = fn_cytoplasmic_side_1(fn_cell_27(X0))
& fn_cell_26(X0) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cell_26(X0) = fn_biomembrane_63(fn_cell_30(X0))
& fn_cell_27(X0) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_cell_27(X0) = fn_biomembrane_47(fn_cell_30(X0))
& fn_cell_29(X0) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_29(X0) = fn_mixture_1(fn_cell_28(X0))
& fn_cytoplasm_7(fn_cell_28(X0)) = X0
& is_facing_2(fn_cell_27(X0),fn_cell_28(X0))
& has_part_2(fn_cell_30(X0),fn_cell_26(X0))
& has_region_2(fn_cell_30(X0),fn_cell_27(X0))
& has_part_2(fn_cell_28(X0),fn_cell_29(X0))
& has_part_2(X0,fn_cell_28(X0))
& is_at_2(fn_cell_26(X0),fn_cell_4(X0))
& is_oriented_toward_2(fn_cell_27(X0),fn_cell_28(X0))
& directly_proportional_2(fn_cell_11(X0),fn_cell_22(X0))
& the_scalar_value_2(fn_cell_13(X0),simple_0)
& is_inside_2(fn_cell_14(X0),fn_cell_29(X0))
& greater_than_or_equal_to_2(fn_cell_18(X0),fn_cell_19(X0))
& cardinal_unit_class_2(fn_cell_19(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_19(X0),"0.1e0")
& greater_than_or_equal_to_2(fn_cell_20(X0),fn_cell_18(X0))
& cardinal_unit_class_2(fn_cell_20(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_20(X0),"100.0e0")
& has_part_2(fn_cell_28(X0),fn_cell_9(X0))
& is_inside_2(fn_cell_28(X0),fn_cell_30(X0))
& has_part_2(X0,fn_cell_30(X0))
& has_part_2(X0,fn_cell_14(X0))
& has_part_2(X0,fn_cell_8(X0))
& has_part_2(X0,fn_cell_24(X0))
& has_part_2(X0,fn_cell_25(X0))
& has_part_2(X0,fn_cell_2(X0))
& minCardinality(X0,has_part_0,"1",chromosome_0)
& has_region_2(X0,fn_cell_4(X0))
& has_region_2(X0,fn_cell_1(X0))
& exactCardinality(X0,has_region_0,"2",cell_pole_0)
& volume_2(X0,fn_cell_22(X0))
& diameter_2(X0,fn_cell_18(X0))
& structural_complexity_2(X0,fn_cell_13(X0))
& size_2(X0,fn_cell_11(X0))
& specific_surface_area_2(X0,fn_cell_7(X0))
& shape_2(X0,fn_cell_5(X0))
& is_across_2(fn_cell_21(X0),fn_cell_30(X0))
& cytoplasmic_side_1(fn_plasma_membrane_66(fn_cell_30(X0)))
& surface_1(fn_biomembrane_47(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& tangible_entity_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_biomembrane_63(fn_cell_30(X0)))
& tangible_entity_1(fn_biomembrane_63(fn_cell_30(X0)))
& cytosol_1(fn_cytoplasm_8(fn_cell_28(X0)))
& substance_1(fn_mixture_1(fn_cell_28(X0)))
& cytoplasm_1(fn_cytoplasmic_side_1(fn_cell_27(X0)))
& cell_1(fn_cytoplasm_7(fn_cell_28(X0)))
& plasma_membrane_1(fn_cell_30(X0))
& cytosol_1(fn_cell_29(X0))
& substance_1(fn_cell_29(X0))
& cytoplasm_1(fn_cell_28(X0))
& mixture_1(fn_cell_28(X0))
& cytoplasmic_side_1(fn_cell_27(X0))
& surface_1(fn_cell_27(X0))
& phospholipid_bilayer_1(fn_cell_26(X0))
& tangible_entity_1(fn_cell_26(X0))
& chromosome_1(fn_cell_25(X0))
& genome_1(fn_cell_24(X0))
& volume_value_1(fn_cell_22(X0))
& membrane_potential_1(fn_cell_21(X0))
& length_value_1(fn_cell_20(X0))
& length_value_1(fn_cell_19(X0))
& length_value_1(fn_cell_18(X0))
& ribosome_1(fn_cell_14(X0))
& structural_complexity_value_1(fn_cell_13(X0))
& size_value_1(fn_cell_11(X0))
& protein_enzyme_1(fn_cell_9(X0))
& motor_protein_1(fn_cell_8(X0))
& specific_surface_area_value_1(fn_cell_7(X0))
& shape_value_1(fn_cell_5(X0))
& surface_1(fn_cell_4(X0))
& cytoskeleton_1(fn_cell_2(X0))
& cell_pole_1(fn_cell_1(X0))
& living_entity_1(X0) ) ),
inference(pure_predicate_removal,[],[f23822]) ).
fof(f23822,plain,
! [X0] :
( cell_1(X0)
=> ( fn_biomembrane_47(fn_cell_30(X0)) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_plasma_membrane_71(fn_cell_30(X0)) = fn_biomembrane_47(fn_cell_30(X0))
& fn_biomembrane_63(fn_cell_30(X0)) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cytoplasm_8(fn_cell_28(X0)) = fn_biomembrane_63(fn_cell_30(X0))
& fn_mixture_1(fn_cell_28(X0)) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_28(X0) = fn_cytoplasmic_side_1(fn_cell_27(X0))
& fn_cell_26(X0) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cell_26(X0) = fn_biomembrane_63(fn_cell_30(X0))
& fn_cell_27(X0) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_cell_27(X0) = fn_biomembrane_47(fn_cell_30(X0))
& fn_cell_29(X0) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_29(X0) = fn_mixture_1(fn_cell_28(X0))
& fn_cytoplasm_7(fn_cell_28(X0)) = X0
& is_facing_2(fn_cell_27(X0),fn_cell_28(X0))
& has_part_2(fn_cell_30(X0),fn_cell_26(X0))
& has_region_2(fn_cell_30(X0),fn_cell_27(X0))
& has_part_2(fn_cell_28(X0),fn_cell_29(X0))
& has_part_2(X0,fn_cell_28(X0))
& is_at_2(fn_cell_26(X0),fn_cell_4(X0))
& is_oriented_toward_2(fn_cell_27(X0),fn_cell_28(X0))
& directly_proportional_2(fn_cell_11(X0),fn_cell_22(X0))
& the_scalar_value_2(fn_cell_13(X0),simple_0)
& is_inside_2(fn_cell_14(X0),fn_cell_29(X0))
& greater_than_or_equal_to_2(fn_cell_18(X0),fn_cell_19(X0))
& cardinal_unit_class_2(fn_cell_19(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_19(X0),"0.1e0")
& greater_than_or_equal_to_2(fn_cell_20(X0),fn_cell_18(X0))
& cardinal_unit_class_2(fn_cell_20(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_20(X0),"100.0e0")
& has_part_2(fn_cell_28(X0),fn_cell_9(X0))
& is_inside_2(fn_cell_28(X0),fn_cell_30(X0))
& has_part_2(X0,fn_cell_30(X0))
& has_part_2(X0,fn_cell_14(X0))
& has_part_2(X0,fn_cell_8(X0))
& has_part_2(X0,fn_cell_24(X0))
& has_part_2(X0,fn_cell_25(X0))
& has_part_2(X0,fn_cell_2(X0))
& minCardinality(X0,has_part_0,"1",chromosome_0)
& has_region_2(X0,fn_cell_4(X0))
& has_region_2(X0,fn_cell_1(X0))
& exactCardinality(X0,has_region_0,"2",cell_pole_0)
& volume_2(X0,fn_cell_22(X0))
& diameter_2(X0,fn_cell_18(X0))
& structural_complexity_2(X0,fn_cell_13(X0))
& size_2(X0,fn_cell_11(X0))
& specific_surface_area_2(X0,fn_cell_7(X0))
& shape_2(X0,fn_cell_5(X0))
& is_across_2(fn_cell_21(X0),fn_cell_30(X0))
& cytoplasmic_side_1(fn_plasma_membrane_66(fn_cell_30(X0)))
& surface_1(fn_biomembrane_47(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& tangible_entity_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_biomembrane_63(fn_cell_30(X0)))
& tangible_entity_1(fn_biomembrane_63(fn_cell_30(X0)))
& cytosol_1(fn_cytoplasm_8(fn_cell_28(X0)))
& substance_1(fn_mixture_1(fn_cell_28(X0)))
& cytoplasm_1(fn_cytoplasmic_side_1(fn_cell_27(X0)))
& cell_1(fn_cytoplasm_7(fn_cell_28(X0)))
& plasma_membrane_1(fn_cell_30(X0))
& cytosol_1(fn_cell_29(X0))
& substance_1(fn_cell_29(X0))
& cytoplasm_1(fn_cell_28(X0))
& mixture_1(fn_cell_28(X0))
& cytoplasmic_side_1(fn_cell_27(X0))
& surface_1(fn_cell_27(X0))
& phospholipid_bilayer_1(fn_cell_26(X0))
& tangible_entity_1(fn_cell_26(X0))
& chromosome_1(fn_cell_25(X0))
& genome_1(fn_cell_24(X0))
& volume_value_1(fn_cell_22(X0))
& membrane_potential_1(fn_cell_21(X0))
& length_value_1(fn_cell_20(X0))
& length_value_1(fn_cell_19(X0))
& length_value_1(fn_cell_18(X0))
& ribosome_1(fn_cell_14(X0))
& structural_complexity_value_1(fn_cell_13(X0))
& size_value_1(fn_cell_11(X0))
& protein_enzyme_1(fn_cell_9(X0))
& motor_protein_1(fn_cell_8(X0))
& specific_surface_area_value_1(fn_cell_7(X0))
& shape_value_1(fn_cell_5(X0))
& surface_1(fn_cell_4(X0))
& cytoskeleton_1(fn_cell_2(X0))
& cell_pole_1(fn_cell_1(X0))
& living_entity_1(X0)
& original_name_2(X0,'Cell') ) ),
inference(pure_predicate_removal,[],[f21089]) ).
fof(f21089,plain,
! [X0] :
( cell_1(X0)
=> ( fn_biomembrane_47(fn_cell_30(X0)) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_plasma_membrane_71(fn_cell_30(X0)) = fn_biomembrane_47(fn_cell_30(X0))
& fn_biomembrane_63(fn_cell_30(X0)) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cytoplasm_8(fn_cell_28(X0)) = fn_biomembrane_63(fn_cell_30(X0))
& fn_mixture_1(fn_cell_28(X0)) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_28(X0) = fn_cytoplasmic_side_1(fn_cell_27(X0))
& fn_cell_26(X0) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cell_26(X0) = fn_biomembrane_63(fn_cell_30(X0))
& fn_cell_27(X0) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_cell_27(X0) = fn_biomembrane_47(fn_cell_30(X0))
& fn_cell_29(X0) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_29(X0) = fn_mixture_1(fn_cell_28(X0))
& fn_cytoplasm_7(fn_cell_28(X0)) = X0
& is_facing_2(fn_cell_27(X0),fn_cell_28(X0))
& has_part_2(fn_cell_30(X0),fn_cell_26(X0))
& has_region_2(fn_cell_30(X0),fn_cell_27(X0))
& has_part_2(fn_cell_28(X0),fn_cell_29(X0))
& has_part_2(X0,fn_cell_28(X0))
& is_at_2(fn_cell_26(X0),fn_cell_4(X0))
& is_oriented_toward_2(fn_cell_27(X0),fn_cell_28(X0))
& directly_proportional_2(fn_cell_11(X0),fn_cell_22(X0))
& the_scalar_value_2(fn_cell_13(X0),simple_0)
& is_inside_2(fn_cell_14(X0),fn_cell_29(X0))
& greater_than_or_equal_to_2(fn_cell_18(X0),fn_cell_19(X0))
& cardinal_unit_class_2(fn_cell_19(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_19(X0),"0.1e0")
& greater_than_or_equal_to_2(fn_cell_20(X0),fn_cell_18(X0))
& cardinal_unit_class_2(fn_cell_20(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_20(X0),"100.0e0")
& has_part_2(fn_cell_28(X0),fn_cell_9(X0))
& is_inside_2(fn_cell_28(X0),fn_cell_30(X0))
& has_part_2(X0,fn_cell_30(X0))
& has_part_2(X0,fn_cell_14(X0))
& has_part_2(X0,fn_cell_8(X0))
& has_part_2(X0,fn_cell_24(X0))
& has_part_2(X0,fn_cell_25(X0))
& has_part_2(X0,fn_cell_2(X0))
& minCardinality(X0,has_part_0,"1",chromosome_0)
& has_region_2(X0,fn_cell_4(X0))
& has_region_2(X0,fn_cell_1(X0))
& exactCardinality(X0,has_region_0,"2",cell_pole_0)
& volume_2(X0,fn_cell_22(X0))
& diameter_2(X0,fn_cell_18(X0))
& structural_complexity_2(X0,fn_cell_13(X0))
& size_2(X0,fn_cell_11(X0))
& specific_surface_area_2(X0,fn_cell_7(X0))
& shape_2(X0,fn_cell_5(X0))
& is_across_2(fn_cell_21(X0),fn_cell_30(X0))
& cytoplasmic_side_1(fn_plasma_membrane_66(fn_cell_30(X0)))
& surface_1(fn_biomembrane_47(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& tangible_entity_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_biomembrane_63(fn_cell_30(X0)))
& tangible_entity_1(fn_biomembrane_63(fn_cell_30(X0)))
& cytosol_1(fn_cytoplasm_8(fn_cell_28(X0)))
& substance_1(fn_mixture_1(fn_cell_28(X0)))
& cytoplasm_1(fn_cytoplasmic_side_1(fn_cell_27(X0)))
& cell_1(fn_cytoplasm_7(fn_cell_28(X0)))
& plasma_membrane_1(fn_cell_30(X0))
& cytosol_1(fn_cell_29(X0))
& substance_1(fn_cell_29(X0))
& cytoplasm_1(fn_cell_28(X0))
& mixture_1(fn_cell_28(X0))
& cytoplasmic_side_1(fn_cell_27(X0))
& surface_1(fn_cell_27(X0))
& phospholipid_bilayer_1(fn_cell_26(X0))
& tangible_entity_1(fn_cell_26(X0))
& chromosome_1(fn_cell_25(X0))
& genome_1(fn_cell_24(X0))
& volume_value_1(fn_cell_22(X0))
& membrane_potential_1(fn_cell_21(X0))
& length_value_1(fn_cell_20(X0))
& length_value_1(fn_cell_19(X0))
& length_value_1(fn_cell_18(X0))
& ribosome_1(fn_cell_14(X0))
& structural_complexity_value_1(fn_cell_13(X0))
& size_value_1(fn_cell_11(X0))
& protein_enzyme_1(fn_cell_9(X0))
& motor_protein_1(fn_cell_8(X0))
& specific_surface_area_value_1(fn_cell_7(X0))
& shape_value_1(fn_cell_5(X0))
& surface_1(fn_cell_4(X0))
& cytoskeleton_1(fn_cell_2(X0))
& cell_pole_1(fn_cell_1(X0))
& living_entity_1(X0)
& user_description_2(X0,'The basic unit from which living organisms are made.')
& original_name_2(X0,'Cell') ) ),
inference(pure_predicate_removal,[],[f20503]) ).
fof(f20503,plain,
! [X0] :
( cell_1(X0)
=> ( fn_biomembrane_47(fn_cell_30(X0)) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_plasma_membrane_71(fn_cell_30(X0)) = fn_biomembrane_47(fn_cell_30(X0))
& fn_biomembrane_63(fn_cell_30(X0)) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cytoplasm_8(fn_cell_28(X0)) = fn_biomembrane_63(fn_cell_30(X0))
& fn_mixture_1(fn_cell_28(X0)) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_28(X0) = fn_cytoplasmic_side_1(fn_cell_27(X0))
& fn_cell_26(X0) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cell_26(X0) = fn_biomembrane_63(fn_cell_30(X0))
& fn_cell_27(X0) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_cell_27(X0) = fn_biomembrane_47(fn_cell_30(X0))
& fn_cell_29(X0) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_29(X0) = fn_mixture_1(fn_cell_28(X0))
& fn_cytoplasm_7(fn_cell_28(X0)) = X0
& is_facing_2(fn_cell_27(X0),fn_cell_28(X0))
& has_part_2(fn_cell_30(X0),fn_cell_26(X0))
& has_region_2(fn_cell_30(X0),fn_cell_27(X0))
& has_part_2(fn_cell_28(X0),fn_cell_29(X0))
& has_part_2(X0,fn_cell_28(X0))
& is_at_2(fn_cell_26(X0),fn_cell_4(X0))
& is_oriented_toward_2(fn_cell_27(X0),fn_cell_28(X0))
& directly_proportional_2(fn_cell_11(X0),fn_cell_22(X0))
& the_scalar_value_2(fn_cell_13(X0),simple_0)
& is_inside_2(fn_cell_14(X0),fn_cell_29(X0))
& greater_than_or_equal_to_2(fn_cell_18(X0),fn_cell_19(X0))
& cardinal_unit_class_2(fn_cell_19(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_19(X0),"0.1e0")
& greater_than_or_equal_to_2(fn_cell_20(X0),fn_cell_18(X0))
& cardinal_unit_class_2(fn_cell_20(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_20(X0),"100.0e0")
& has_part_2(fn_cell_28(X0),fn_cell_9(X0))
& is_inside_2(fn_cell_28(X0),fn_cell_30(X0))
& has_part_2(X0,fn_cell_30(X0))
& has_part_2(X0,fn_cell_14(X0))
& has_part_2(X0,fn_cell_8(X0))
& has_part_2(X0,fn_cell_24(X0))
& has_part_2(X0,fn_cell_25(X0))
& has_part_2(X0,fn_cell_2(X0))
& minCardinality(X0,has_part_0,"1",chromosome_0)
& has_region_2(X0,fn_cell_4(X0))
& has_region_2(X0,fn_cell_1(X0))
& exactCardinality(X0,has_region_0,"2",cell_pole_0)
& volume_2(X0,fn_cell_22(X0))
& diameter_2(X0,fn_cell_18(X0))
& structural_complexity_2(X0,fn_cell_13(X0))
& size_2(X0,fn_cell_11(X0))
& specific_surface_area_2(X0,fn_cell_7(X0))
& shape_2(X0,fn_cell_5(X0))
& is_across_2(fn_cell_21(X0),fn_cell_30(X0))
& cytoplasmic_side_1(fn_plasma_membrane_66(fn_cell_30(X0)))
& surface_1(fn_biomembrane_47(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& tangible_entity_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_biomembrane_63(fn_cell_30(X0)))
& tangible_entity_1(fn_biomembrane_63(fn_cell_30(X0)))
& cytosol_1(fn_cytoplasm_8(fn_cell_28(X0)))
& substance_1(fn_mixture_1(fn_cell_28(X0)))
& cytoplasm_1(fn_cytoplasmic_side_1(fn_cell_27(X0)))
& cell_1(fn_cytoplasm_7(fn_cell_28(X0)))
& plasma_membrane_1(fn_cell_30(X0))
& cytosol_1(fn_cell_29(X0))
& substance_1(fn_cell_29(X0))
& cytoplasm_1(fn_cell_28(X0))
& mixture_1(fn_cell_28(X0))
& cytoplasmic_side_1(fn_cell_27(X0))
& surface_1(fn_cell_27(X0))
& phospholipid_bilayer_1(fn_cell_26(X0))
& tangible_entity_1(fn_cell_26(X0))
& chromosome_1(fn_cell_25(X0))
& genome_1(fn_cell_24(X0))
& volume_value_1(fn_cell_22(X0))
& membrane_potential_1(fn_cell_21(X0))
& length_value_1(fn_cell_20(X0))
& length_value_1(fn_cell_19(X0))
& length_value_1(fn_cell_18(X0))
& ribosome_1(fn_cell_14(X0))
& structural_complexity_value_1(fn_cell_13(X0))
& size_value_1(fn_cell_11(X0))
& protein_enzyme_1(fn_cell_9(X0))
& motor_protein_1(fn_cell_8(X0))
& specific_surface_area_value_1(fn_cell_7(X0))
& shape_value_1(fn_cell_5(X0))
& surface_1(fn_cell_4(X0))
& cytoskeleton_1(fn_cell_2(X0))
& cell_pole_1(fn_cell_1(X0))
& living_entity_1(X0)
& concept2words_2(X0,cell)
& user_description_2(X0,'The basic unit from which living organisms are made.')
& original_name_2(X0,'Cell') ) ),
inference(pure_predicate_removal,[],[f19170]) ).
fof(f19170,plain,
! [X0] :
( cell_1(X0)
=> ( fn_biomembrane_47(fn_cell_30(X0)) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_plasma_membrane_71(fn_cell_30(X0)) = fn_biomembrane_47(fn_cell_30(X0))
& fn_biomembrane_63(fn_cell_30(X0)) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cytoplasm_8(fn_cell_28(X0)) = fn_biomembrane_63(fn_cell_30(X0))
& fn_mixture_1(fn_cell_28(X0)) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_28(X0) = fn_cytoplasmic_side_1(fn_cell_27(X0))
& fn_cell_26(X0) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cell_26(X0) = fn_biomembrane_63(fn_cell_30(X0))
& fn_cell_27(X0) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_cell_27(X0) = fn_biomembrane_47(fn_cell_30(X0))
& fn_cell_29(X0) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_29(X0) = fn_mixture_1(fn_cell_28(X0))
& fn_cytoplasm_7(fn_cell_28(X0)) = X0
& is_facing_2(fn_cell_27(X0),fn_cell_28(X0))
& has_part_2(fn_cell_30(X0),fn_cell_26(X0))
& has_region_2(fn_cell_30(X0),fn_cell_27(X0))
& has_part_2(fn_cell_28(X0),fn_cell_29(X0))
& has_part_2(X0,fn_cell_28(X0))
& is_at_2(fn_cell_26(X0),fn_cell_4(X0))
& is_oriented_toward_2(fn_cell_27(X0),fn_cell_28(X0))
& directly_proportional_2(fn_cell_11(X0),fn_cell_22(X0))
& the_scalar_value_2(fn_cell_13(X0),simple_0)
& is_inside_2(fn_cell_14(X0),fn_cell_29(X0))
& greater_than_or_equal_to_2(fn_cell_18(X0),fn_cell_19(X0))
& cardinal_unit_class_2(fn_cell_19(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_19(X0),"0.1e0")
& greater_than_or_equal_to_2(fn_cell_20(X0),fn_cell_18(X0))
& cardinal_unit_class_2(fn_cell_20(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_20(X0),"100.0e0")
& has_part_2(fn_cell_28(X0),fn_cell_9(X0))
& is_inside_2(fn_cell_28(X0),fn_cell_30(X0))
& has_part_2(X0,fn_cell_30(X0))
& has_part_2(X0,fn_cell_14(X0))
& has_part_2(X0,fn_cell_8(X0))
& has_part_2(X0,fn_cell_24(X0))
& has_part_2(X0,fn_cell_25(X0))
& has_part_2(X0,fn_cell_2(X0))
& minCardinality(X0,has_part_0,"1",chromosome_0)
& has_region_2(X0,fn_cell_4(X0))
& has_region_2(X0,fn_cell_1(X0))
& exactCardinality(X0,has_region_0,"2",cell_pole_0)
& volume_2(X0,fn_cell_22(X0))
& diameter_2(X0,fn_cell_18(X0))
& structural_complexity_2(X0,fn_cell_13(X0))
& size_2(X0,fn_cell_11(X0))
& specific_surface_area_2(X0,fn_cell_7(X0))
& shape_2(X0,fn_cell_5(X0))
& is_across_2(fn_cell_21(X0),fn_cell_30(X0))
& cytoplasmic_side_1(fn_plasma_membrane_66(fn_cell_30(X0)))
& surface_1(fn_biomembrane_47(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& tangible_entity_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_biomembrane_63(fn_cell_30(X0)))
& tangible_entity_1(fn_biomembrane_63(fn_cell_30(X0)))
& cytosol_1(fn_cytoplasm_8(fn_cell_28(X0)))
& substance_1(fn_mixture_1(fn_cell_28(X0)))
& cytoplasm_1(fn_cytoplasmic_side_1(fn_cell_27(X0)))
& cell_1(fn_cytoplasm_7(fn_cell_28(X0)))
& plasma_membrane_1(fn_cell_30(X0))
& cytosol_1(fn_cell_29(X0))
& substance_1(fn_cell_29(X0))
& cytoplasm_1(fn_cell_28(X0))
& mixture_1(fn_cell_28(X0))
& cytoplasmic_side_1(fn_cell_27(X0))
& surface_1(fn_cell_27(X0))
& phospholipid_bilayer_1(fn_cell_26(X0))
& tangible_entity_1(fn_cell_26(X0))
& chromosome_1(fn_cell_25(X0))
& genome_1(fn_cell_24(X0))
& volume_value_1(fn_cell_22(X0))
& membrane_potential_1(fn_cell_21(X0))
& length_value_1(fn_cell_20(X0))
& length_value_1(fn_cell_19(X0))
& length_value_1(fn_cell_18(X0))
& ribosome_1(fn_cell_14(X0))
& structural_complexity_value_1(fn_cell_13(X0))
& size_value_1(fn_cell_11(X0))
& protein_enzyme_1(fn_cell_9(X0))
& motor_protein_1(fn_cell_8(X0))
& specific_surface_area_value_1(fn_cell_7(X0))
& shape_value_1(fn_cell_5(X0))
& surface_1(fn_cell_4(X0))
& cytoskeleton_1(fn_cell_2(X0))
& cell_pole_1(fn_cell_1(X0))
& living_entity_1(X0)
& concept2words_2(X0,cell)
& user_description_2(X0,'The basic unit from which living organisms are made.')
& description_2(X0,'The basic unit from which living organisms are made, consisting of an aqueous solution of organic molecules enclosed by a membrane. All cells arise from existing cells, usually by a process of division into two. (Alberts:ECB:G-3).')
& original_name_2(X0,'Cell') ) ),
inference(pure_predicate_removal,[],[f3477]) ).
fof(f3477,axiom,
! [X0] :
( cell_1(X0)
=> ( fn_biomembrane_47(fn_cell_30(X0)) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_plasma_membrane_71(fn_cell_30(X0)) = fn_biomembrane_47(fn_cell_30(X0))
& fn_biomembrane_63(fn_cell_30(X0)) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cytoplasm_8(fn_cell_28(X0)) = fn_biomembrane_63(fn_cell_30(X0))
& fn_mixture_1(fn_cell_28(X0)) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_28(X0) = fn_cytoplasmic_side_1(fn_cell_27(X0))
& fn_cell_26(X0) = fn_plasma_membrane_71(fn_cell_30(X0))
& fn_cell_26(X0) = fn_biomembrane_63(fn_cell_30(X0))
& fn_cell_27(X0) = fn_plasma_membrane_66(fn_cell_30(X0))
& fn_cell_27(X0) = fn_biomembrane_47(fn_cell_30(X0))
& fn_cell_29(X0) = fn_cytoplasm_8(fn_cell_28(X0))
& fn_cell_29(X0) = fn_mixture_1(fn_cell_28(X0))
& fn_cytoplasm_7(fn_cell_28(X0)) = X0
& is_facing_2(fn_cell_27(X0),fn_cell_28(X0))
& has_part_2(fn_cell_30(X0),fn_cell_26(X0))
& has_region_2(fn_cell_30(X0),fn_cell_27(X0))
& has_part_2(fn_cell_28(X0),fn_cell_29(X0))
& has_part_2(X0,fn_cell_28(X0))
& is_at_2(fn_cell_26(X0),fn_cell_4(X0))
& is_oriented_toward_2(fn_cell_27(X0),fn_cell_28(X0))
& directly_proportional_2(fn_cell_11(X0),fn_cell_22(X0))
& scalar_unit_class_2(fn_cell_13(X0),organism_0)
& the_scalar_value_2(fn_cell_13(X0),simple_0)
& is_inside_2(fn_cell_14(X0),fn_cell_29(X0))
& greater_than_or_equal_to_2(fn_cell_18(X0),fn_cell_19(X0))
& cardinal_unit_class_2(fn_cell_19(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_19(X0),"0.1e0")
& greater_than_or_equal_to_2(fn_cell_20(X0),fn_cell_18(X0))
& cardinal_unit_class_2(fn_cell_20(X0),micrometer_0)
& the_cardinal_value_2(fn_cell_20(X0),"100.0e0")
& has_part_2(fn_cell_28(X0),fn_cell_9(X0))
& is_inside_2(fn_cell_28(X0),fn_cell_30(X0))
& has_part_2(X0,fn_cell_30(X0))
& has_part_2(X0,fn_cell_14(X0))
& has_part_2(X0,fn_cell_8(X0))
& has_part_2(X0,fn_cell_24(X0))
& has_part_2(X0,fn_cell_25(X0))
& has_part_2(X0,fn_cell_2(X0))
& minCardinality(X0,has_part_0,"1",chromosome_0)
& has_region_2(X0,fn_cell_4(X0))
& has_region_2(X0,fn_cell_1(X0))
& exactCardinality(X0,has_region_0,"2",cell_pole_0)
& volume_2(X0,fn_cell_22(X0))
& diameter_2(X0,fn_cell_18(X0))
& structural_complexity_2(X0,fn_cell_13(X0))
& size_2(X0,fn_cell_11(X0))
& specific_surface_area_2(X0,fn_cell_7(X0))
& shape_2(X0,fn_cell_5(X0))
& is_across_2(fn_cell_21(X0),fn_cell_30(X0))
& cytoplasmic_side_1(fn_plasma_membrane_66(fn_cell_30(X0)))
& surface_1(fn_biomembrane_47(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& tangible_entity_1(fn_plasma_membrane_71(fn_cell_30(X0)))
& phospholipid_bilayer_1(fn_biomembrane_63(fn_cell_30(X0)))
& tangible_entity_1(fn_biomembrane_63(fn_cell_30(X0)))
& cytosol_1(fn_cytoplasm_8(fn_cell_28(X0)))
& substance_1(fn_mixture_1(fn_cell_28(X0)))
& cytoplasm_1(fn_cytoplasmic_side_1(fn_cell_27(X0)))
& cell_1(fn_cytoplasm_7(fn_cell_28(X0)))
& plasma_membrane_1(fn_cell_30(X0))
& cytosol_1(fn_cell_29(X0))
& substance_1(fn_cell_29(X0))
& cytoplasm_1(fn_cell_28(X0))
& mixture_1(fn_cell_28(X0))
& cytoplasmic_side_1(fn_cell_27(X0))
& surface_1(fn_cell_27(X0))
& phospholipid_bilayer_1(fn_cell_26(X0))
& tangible_entity_1(fn_cell_26(X0))
& chromosome_1(fn_cell_25(X0))
& genome_1(fn_cell_24(X0))
& volume_value_1(fn_cell_22(X0))
& membrane_potential_1(fn_cell_21(X0))
& length_value_1(fn_cell_20(X0))
& length_value_1(fn_cell_19(X0))
& length_value_1(fn_cell_18(X0))
& ribosome_1(fn_cell_14(X0))
& structural_complexity_value_1(fn_cell_13(X0))
& size_value_1(fn_cell_11(X0))
& protein_enzyme_1(fn_cell_9(X0))
& motor_protein_1(fn_cell_8(X0))
& specific_surface_area_value_1(fn_cell_7(X0))
& shape_value_1(fn_cell_5(X0))
& surface_1(fn_cell_4(X0))
& cytoskeleton_1(fn_cell_2(X0))
& cell_pole_1(fn_cell_1(X0))
& living_entity_1(X0)
& concept2words_2(X0,cell)
& user_description_2(X0,'The basic unit from which living organisms are made.')
& description_2(X0,'The basic unit from which living organisms are made, consisting of an aqueous solution of organic molecules enclosed by a membrane. All cells arise from existing cells, usually by a process of division into two. (Alberts:ECB:G-3).')
& original_name_2(X0,'Cell') ) ),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',a528132) ).
fof(f39691,plain,
cell_1(a_cell),
inference(cnf_transformation,[],[f9161]) ).
fof(f9161,axiom,
cell_1(a_cell),
file('/export/starexec/sandbox2/benchmark/theBenchmark.p',a_cell) ).
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.11/0.12 % Problem : BIO003+1 : TPTP v8.1.2. Bugfixed v6.4.1.
% 0.11/0.14 % Command : vampire --mode casc_sat -m 16384 --cores 7 -t %d %s
% 0.15/0.35 % Computer : n010.cluster.edu
% 0.15/0.35 % Model : x86_64 x86_64
% 0.15/0.35 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.15/0.35 % Memory : 8042.1875MB
% 0.15/0.35 % OS : Linux 3.10.0-693.el7.x86_64
% 0.15/0.35 % CPULimit : 300
% 0.15/0.35 % WCLimit : 300
% 0.15/0.35 % DateTime : Fri May 3 21:23:53 EDT 2024
% 0.15/0.35 % CPUTime :
% 0.15/0.35 % (25968)Running in auto input_syntax mode. Trying TPTP
% 2.65/2.85 % (25975)ott+1_64_av=off:bd=off:bce=on:fsd=off:fde=unused:gsp=on:irw=on:lcm=predicate:lma=on:nm=2:nwc=1.1:sims=off:urr=on_497 on theBenchmark for (497ds/0Mi)
% 2.65/2.85 % (25971)WARNING: value z3 for option sas not known
% 2.65/2.86 % (25969)fmb+10_1_bce=on:fmbas=function:fmbsr=1.2:fde=unused:nm=0_846 on theBenchmark for (846ds/0Mi)
% 2.65/2.86 % (25970)fmb+10_1_bce=on:fmbdsb=on:fmbes=contour:fmbswr=3:fde=none:nm=0_793 on theBenchmark for (793ds/0Mi)
% 2.65/2.86 % (25971)dis+2_11_add=large:afr=on:amm=off:bd=off:bce=on:fsd=off:fde=none:gs=on:gsaa=full_model:gsem=off:irw=on:msp=off:nm=4:nwc=1.3:sas=z3:sims=off:sac=on:sp=reverse_arity_569 on theBenchmark for (569ds/0Mi)
% 2.65/2.86 % (25972)fmb+10_1_bce=on:fmbsr=1.5:nm=32_533 on theBenchmark for (533ds/0Mi)
% 2.65/2.86 % (25973)ott+10_10:1_add=off:afr=on:amm=off:anc=all:bd=off:bs=on:fsr=off:irw=on:lma=on:msp=off:nm=4:nwc=4.0:sac=on:sp=reverse_frequency_531 on theBenchmark for (531ds/0Mi)
% 2.65/2.86 % (25974)ott-10_8_av=off:bd=preordered:bs=on:fsd=off:fsr=off:fde=unused:irw=on:lcm=predicate:lma=on:nm=4:nwc=1.7:sp=frequency_522 on theBenchmark for (522ds/0Mi)
% 33.15/7.23 % (25975)First to succeed.
% 33.15/7.24 % (25975)Solution written to "/export/starexec/sandbox2/tmp/vampire-proof-25968"
% 33.73/7.30 % (25975)Refutation found. Thanks to Tanya!
% 33.73/7.30 % SZS status Theorem for theBenchmark
% 33.73/7.30 % SZS output start Proof for theBenchmark
% See solution above
% 33.73/7.30 % (25975)------------------------------
% 33.73/7.30 % (25975)Version: Vampire 4.8 (commit 3a798227e on 2024-05-03 07:42:47 +0200)
% 33.73/7.30 % (25975)Termination reason: Refutation
% 33.73/7.30
% 33.73/7.30 % (25975)Memory used [KB]: 205975
% 33.73/7.30 % (25975)Time elapsed: 4.408 s
% 33.73/7.30 % (25975)Instructions burned: 9371 (million)
% 33.73/7.30 % (25968)Success in time 6.921 s
%------------------------------------------------------------------------------