TSTP Solution File: GRP071-1 by Bliksem---1.12
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- Process Solution
%------------------------------------------------------------------------------
% File : Bliksem---1.12
% Problem : GRP071-1 : TPTP v8.1.0. Bugfixed v2.3.0.
% Transfm : none
% Format : tptp:raw
% Command : bliksem %s
% Computer : n026.cluster.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory : 8042.1875MB
% OS : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit : 0s
% DateTime : Sat Jul 16 07:34:43 EDT 2022
% Result : Unsatisfiable 0.81s 1.56s
% Output : Refutation 0.81s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.08/0.14 % Problem : GRP071-1 : TPTP v8.1.0. Bugfixed v2.3.0.
% 0.08/0.14 % Command : bliksem %s
% 0.14/0.36 % Computer : n026.cluster.edu
% 0.14/0.36 % Model : x86_64 x86_64
% 0.14/0.36 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.36 % Memory : 8042.1875MB
% 0.14/0.36 % OS : Linux 3.10.0-693.el7.x86_64
% 0.14/0.36 % CPULimit : 300
% 0.14/0.36 % DateTime : Mon Jun 13 21:21:51 EDT 2022
% 0.14/0.36 % CPUTime :
% 0.81/1.56 *** allocated 10000 integers for termspace/termends
% 0.81/1.56 *** allocated 10000 integers for clauses
% 0.81/1.56 *** allocated 10000 integers for justifications
% 0.81/1.56 Bliksem 1.12
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 Automatic Strategy Selection
% 0.81/1.56
% 0.81/1.56 Clauses:
% 0.81/1.56 [
% 0.81/1.56 [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) ) ), divide(
% 0.81/1.56 divide( T, Z ), X ) ), Y ) ],
% 0.81/1.56 [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ],
% 0.81/1.56 [ ~( =( multiply( inverse( a1 ), a1 ), multiply( inverse( b1 ), b1 ) ) )
% 0.81/1.56 , ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ), ~( =(
% 0.81/1.56 multiply( multiply( a3, b3 ), c3 ), multiply( a3, multiply( b3, c3 ) ) )
% 0.81/1.56 ) ]
% 0.81/1.56 ] .
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 percentage equality = 1.000000, percentage horn = 1.000000
% 0.81/1.56 This is a pure equality problem
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 Options Used:
% 0.81/1.56
% 0.81/1.56 useres = 1
% 0.81/1.56 useparamod = 1
% 0.81/1.56 useeqrefl = 1
% 0.81/1.56 useeqfact = 1
% 0.81/1.56 usefactor = 1
% 0.81/1.56 usesimpsplitting = 0
% 0.81/1.56 usesimpdemod = 5
% 0.81/1.56 usesimpres = 3
% 0.81/1.56
% 0.81/1.56 resimpinuse = 1000
% 0.81/1.56 resimpclauses = 20000
% 0.81/1.56 substype = eqrewr
% 0.81/1.56 backwardsubs = 1
% 0.81/1.56 selectoldest = 5
% 0.81/1.56
% 0.81/1.56 litorderings [0] = split
% 0.81/1.56 litorderings [1] = extend the termordering, first sorting on arguments
% 0.81/1.56
% 0.81/1.56 termordering = kbo
% 0.81/1.56
% 0.81/1.56 litapriori = 0
% 0.81/1.56 termapriori = 1
% 0.81/1.56 litaposteriori = 0
% 0.81/1.56 termaposteriori = 0
% 0.81/1.56 demodaposteriori = 0
% 0.81/1.56 ordereqreflfact = 0
% 0.81/1.56
% 0.81/1.56 litselect = negord
% 0.81/1.56
% 0.81/1.56 maxweight = 15
% 0.81/1.56 maxdepth = 30000
% 0.81/1.56 maxlength = 115
% 0.81/1.56 maxnrvars = 195
% 0.81/1.56 excuselevel = 1
% 0.81/1.56 increasemaxweight = 1
% 0.81/1.56
% 0.81/1.56 maxselected = 10000000
% 0.81/1.56 maxnrclauses = 10000000
% 0.81/1.56
% 0.81/1.56 showgenerated = 0
% 0.81/1.56 showkept = 0
% 0.81/1.56 showselected = 0
% 0.81/1.56 showdeleted = 0
% 0.81/1.56 showresimp = 1
% 0.81/1.56 showstatus = 2000
% 0.81/1.56
% 0.81/1.56 prologoutput = 1
% 0.81/1.56 nrgoals = 5000000
% 0.81/1.56 totalproof = 1
% 0.81/1.56
% 0.81/1.56 Symbols occurring in the translation:
% 0.81/1.56
% 0.81/1.56 {} [0, 0] (w:1, o:2, a:1, s:1, b:0),
% 0.81/1.56 . [1, 2] (w:1, o:26, a:1, s:1, b:0),
% 0.81/1.56 ! [4, 1] (w:0, o:20, a:1, s:1, b:0),
% 0.81/1.56 = [13, 2] (w:1, o:0, a:0, s:1, b:0),
% 0.81/1.56 ==> [14, 2] (w:1, o:0, a:0, s:1, b:0),
% 0.81/1.56 divide [43, 2] (w:1, o:51, a:1, s:1, b:0),
% 0.81/1.56 inverse [44, 1] (w:1, o:25, a:1, s:1, b:0),
% 0.81/1.56 multiply [45, 2] (w:1, o:52, a:1, s:1, b:0),
% 0.81/1.56 a1 [46, 0] (w:1, o:13, a:1, s:1, b:0),
% 0.81/1.56 b1 [47, 0] (w:1, o:16, a:1, s:1, b:0),
% 0.81/1.56 b2 [48, 0] (w:1, o:17, a:1, s:1, b:0),
% 0.81/1.56 a2 [49, 0] (w:1, o:14, a:1, s:1, b:0),
% 0.81/1.56 a3 [50, 0] (w:1, o:15, a:1, s:1, b:0),
% 0.81/1.56 b3 [51, 0] (w:1, o:18, a:1, s:1, b:0),
% 0.81/1.56 c3 [52, 0] (w:1, o:19, a:1, s:1, b:0).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 Starting Search:
% 0.81/1.56
% 0.81/1.56 Resimplifying inuse:
% 0.81/1.56 Done
% 0.81/1.56
% 0.81/1.56 Failed to find proof!
% 0.81/1.56 maxweight = 15
% 0.81/1.56 maxnrclauses = 10000000
% 0.81/1.56 Generated: 303
% 0.81/1.56 Kept: 10
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 The strategy used was not complete!
% 0.81/1.56
% 0.81/1.56 Increased maxweight to 16
% 0.81/1.56
% 0.81/1.56 Starting Search:
% 0.81/1.56
% 0.81/1.56 Resimplifying inuse:
% 0.81/1.56 Done
% 0.81/1.56
% 0.81/1.56 Failed to find proof!
% 0.81/1.56 maxweight = 16
% 0.81/1.56 maxnrclauses = 10000000
% 0.81/1.56 Generated: 339
% 0.81/1.56 Kept: 11
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 The strategy used was not complete!
% 0.81/1.56
% 0.81/1.56 Increased maxweight to 17
% 0.81/1.56
% 0.81/1.56 Starting Search:
% 0.81/1.56
% 0.81/1.56 Resimplifying inuse:
% 0.81/1.56 Done
% 0.81/1.56
% 0.81/1.56 Failed to find proof!
% 0.81/1.56 maxweight = 17
% 0.81/1.56 maxnrclauses = 10000000
% 0.81/1.56 Generated: 438
% 0.81/1.56 Kept: 14
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 The strategy used was not complete!
% 0.81/1.56
% 0.81/1.56 Increased maxweight to 18
% 0.81/1.56
% 0.81/1.56 Starting Search:
% 0.81/1.56
% 0.81/1.56 Resimplifying inuse:
% 0.81/1.56 Done
% 0.81/1.56
% 0.81/1.56 Failed to find proof!
% 0.81/1.56 maxweight = 18
% 0.81/1.56 maxnrclauses = 10000000
% 0.81/1.56 Generated: 819
% 0.81/1.56 Kept: 21
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 The strategy used was not complete!
% 0.81/1.56
% 0.81/1.56 Increased maxweight to 19
% 0.81/1.56
% 0.81/1.56 Starting Search:
% 0.81/1.56
% 0.81/1.56 Resimplifying inuse:
% 0.81/1.56 Done
% 0.81/1.56
% 0.81/1.56 Failed to find proof!
% 0.81/1.56 maxweight = 19
% 0.81/1.56 maxnrclauses = 10000000
% 0.81/1.56 Generated: 1826
% 0.81/1.56 Kept: 37
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 The strategy used was not complete!
% 0.81/1.56
% 0.81/1.56 Increased maxweight to 20
% 0.81/1.56
% 0.81/1.56 Starting Search:
% 0.81/1.56
% 0.81/1.56 Resimplifying inuse:
% 0.81/1.56 Done
% 0.81/1.56
% 0.81/1.56 Failed to find proof!
% 0.81/1.56 maxweight = 20
% 0.81/1.56 maxnrclauses = 10000000
% 0.81/1.56 Generated: 2848
% 0.81/1.56 Kept: 49
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 The strategy used was not complete!
% 0.81/1.56
% 0.81/1.56 Increased maxweight to 21
% 0.81/1.56
% 0.81/1.56 Starting Search:
% 0.81/1.56
% 0.81/1.56 Resimplifying inuse:
% 0.81/1.56 Done
% 0.81/1.56
% 0.81/1.56 Failed to find proof!
% 0.81/1.56 maxweight = 21
% 0.81/1.56 maxnrclauses = 10000000
% 0.81/1.56 Generated: 4875
% 0.81/1.56 Kept: 63
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 The strategy used was not complete!
% 0.81/1.56
% 0.81/1.56 Increased maxweight to 22
% 0.81/1.56
% 0.81/1.56 Starting Search:
% 0.81/1.56
% 0.81/1.56 Resimplifying inuse:
% 0.81/1.56 Done
% 0.81/1.56
% 0.81/1.56 Failed to find proof!
% 0.81/1.56 maxweight = 22
% 0.81/1.56 maxnrclauses = 10000000
% 0.81/1.56 Generated: 8590
% 0.81/1.56 Kept: 82
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 The strategy used was not complete!
% 0.81/1.56
% 0.81/1.56 Increased maxweight to 23
% 0.81/1.56
% 0.81/1.56 Starting Search:
% 0.81/1.56
% 0.81/1.56 Resimplifying inuse:
% 0.81/1.56 Done
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 Bliksems!, er is een bewijs:
% 0.81/1.56 % SZS status Unsatisfiable
% 0.81/1.56 % SZS output start Refutation
% 0.81/1.56
% 0.81/1.56 clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) ) )
% 0.81/1.56 , divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 2, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse( a1 ),
% 0.81/1.56 a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ),
% 0.81/1.56 ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 ),
% 0.81/1.56 c3 ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 3, [ =( divide( inverse( Z ), multiply( divide( Y, X ), divide(
% 0.81/1.56 divide( X, Y ), divide( Z, divide( T, U ) ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 4, [ =( divide( inverse( divide( U, Y ) ), divide( divide( X,
% 0.81/1.56 divide( T, Z ) ), U ) ), inverse( divide( X, divide( Y, divide( Z, T ) )
% 0.81/1.56 ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 5, [ =( divide( inverse( divide( U, divide( W, Y ) ) ), divide(
% 0.81/1.56 multiply( divide( divide( T, Z ), X ), divide( X, divide( Y, divide( Z, T
% 0.81/1.56 ) ) ) ), U ) ), W ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 7, [ =( divide( inverse( divide( Z, divide( T, multiply( X, Y ) ) )
% 0.81/1.56 ), divide( divide( inverse( Y ), X ), Z ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 8, [ =( divide( inverse( divide( inverse( Z ), divide( T, divide( Y
% 0.81/1.56 , X ) ) ) ), multiply( divide( X, Y ), Z ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 9, [ =( divide( inverse( divide( Z, divide( T, divide( inverse( Y )
% 0.81/1.56 , X ) ) ) ), divide( multiply( X, Y ), Z ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 11, [ =( divide( inverse( Z ), multiply( divide( Y, X ), divide(
% 0.81/1.56 divide( X, Y ), divide( Z, multiply( T, U ) ) ) ) ), divide( inverse( U )
% 0.81/1.56 , T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 13, [ =( divide( inverse( divide( inverse( Z ), divide( T, multiply(
% 0.81/1.56 Y, X ) ) ) ), multiply( divide( inverse( X ), Y ), Z ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 14, [ =( divide( inverse( divide( Z, divide( T, multiply( inverse(
% 0.81/1.56 Y ), X ) ) ) ), divide( multiply( inverse( X ), Y ), Z ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 16, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.56 divide( X, divide( T, Z ) ), U ) ), inverse( divide( X, divide( Y, divide(
% 0.81/1.56 Z, T ) ) ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 17, [ =( divide( inverse( divide( inverse( Z ), divide( T, divide(
% 0.81/1.56 inverse( Y ), X ) ) ) ), multiply( multiply( X, Y ), Z ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 19, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.56 divide( X, multiply( T, Z ) ), U ) ), inverse( divide( X, divide( Y,
% 0.81/1.56 divide( inverse( Z ), T ) ) ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 22, [ =( divide( inverse( Z ), multiply( multiply( Y, X ), divide(
% 0.81/1.56 divide( inverse( X ), Y ), divide( Z, divide( T, U ) ) ) ) ), divide( U,
% 0.81/1.56 T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 23, [ =( divide( inverse( divide( inverse( Z ), divide( T, multiply(
% 0.81/1.56 inverse( Y ), X ) ) ) ), multiply( multiply( inverse( X ), Y ), Z ) ), T
% 0.81/1.56 ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 25, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ), X
% 0.81/1.56 ), divide( multiply( inverse( X ), Y ), divide( Z, multiply( T, U ) ) )
% 0.81/1.56 ) ), divide( inverse( U ), T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 26, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ), X
% 0.81/1.56 ), divide( multiply( inverse( X ), Y ), divide( Z, divide( T, U ) ) ) )
% 0.81/1.56 ), divide( U, T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 27, [ =( multiply( multiply( divide( Y, Z ), divide( divide( Z, Y )
% 0.81/1.56 , divide( X, divide( T, U ) ) ) ), X ), divide( T, U ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 28, [ =( multiply( multiply( divide( U, W ), divide( divide( W, U )
% 0.81/1.56 , divide( V0, Y ) ) ), V0 ), Y ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 32, [ =( inverse( divide( inverse( Z ), divide( divide( W, T ),
% 0.81/1.56 divide( inverse( divide( divide( Y, X ), divide( Z, T ) ) ), divide( X, Y
% 0.81/1.56 ) ) ) ) ), W ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 33, [ =( multiply( multiply( Y, divide( multiply( divide( divide( T
% 0.81/1.56 , Z ), X ), divide( X, divide( Y, divide( Z, T ) ) ) ), divide( U, W ) )
% 0.81/1.56 ), U ), W ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 34, [ =( multiply( multiply( multiply( divide( divide( T, Z ), X )
% 0.81/1.56 , divide( X, divide( Y, divide( Z, T ) ) ) ), divide( Y, divide( U, W ) )
% 0.81/1.56 ), U ), W ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 35, [ =( multiply( multiply( multiply( X, Y ), divide( divide(
% 0.81/1.56 inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 36, [ =( multiply( multiply( divide( inverse( Y ), X ), divide(
% 0.81/1.56 multiply( X, Y ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 37, [ =( multiply( multiply( divide( Z, T ), divide( divide( T, Z )
% 0.81/1.56 , multiply( X, Y ) ) ), X ), inverse( Y ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 40, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.56 multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 41, [ =( multiply( multiply( divide( inverse( Z ), T ), divide(
% 0.81/1.56 multiply( T, Z ), multiply( X, Y ) ) ), X ), inverse( Y ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 44, [ =( multiply( multiply( multiply( X, Y ), divide( divide(
% 0.81/1.56 inverse( Y ), X ), multiply( Z, T ) ) ), Z ), inverse( T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 46, [ =( inverse( divide( U, divide( divide( Y, divide( divide( Z,
% 0.81/1.56 T ), U ) ), divide( T, Z ) ) ) ), Y ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 50, [ =( inverse( inverse( divide( T, divide( Z, divide( inverse(
% 0.81/1.56 divide( divide( X, Y ), Z ) ), divide( Y, X ) ) ) ) ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 51, [ =( multiply( U, divide( X, divide( divide( Y, divide( divide(
% 0.81/1.56 Z, T ), X ) ), divide( T, Z ) ) ) ), divide( U, Y ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 52, [ =( inverse( divide( Z, divide( divide( T, divide( multiply( X
% 0.81/1.56 , Y ), Z ) ), divide( inverse( Y ), X ) ) ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 53, [ =( inverse( divide( Z, divide( divide( T, divide( divide(
% 0.81/1.56 inverse( Y ), X ), Z ) ), multiply( X, Y ) ) ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 56, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.56 multiply( inverse( Y ), X ), multiply( Z, T ) ) ), Z ), inverse( T ) ) ]
% 0.81/1.56 )
% 0.81/1.56 .
% 0.81/1.56 clause( 57, [ =( multiply( inverse( divide( inverse( Z ), divide( U, divide(
% 0.81/1.56 inverse( divide( divide( inverse( Y ), X ), multiply( Z, T ) ) ),
% 0.81/1.56 multiply( X, Y ) ) ) ) ), T ), U ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 58, [ =( inverse( divide( inverse( Z ), divide( multiply( W, T ),
% 0.81/1.56 divide( inverse( divide( divide( inverse( Y ), X ), multiply( Z, T ) ) )
% 0.81/1.56 , multiply( X, Y ) ) ) ) ), W ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 60, [ =( multiply( U, divide( X, divide( divide( Y, divide(
% 0.81/1.56 multiply( Z, T ), X ) ), divide( inverse( T ), Z ) ) ) ), divide( U, Y )
% 0.81/1.56 ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 61, [ =( inverse( divide( inverse( Z ), divide( divide( T, multiply(
% 0.81/1.56 multiply( X, Y ), Z ) ), divide( inverse( Y ), X ) ) ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 66, [ =( multiply( U, divide( X, divide( divide( Y, divide( divide(
% 0.81/1.56 inverse( Z ), T ), X ) ), multiply( T, Z ) ) ) ), divide( U, Y ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 72, [ =( inverse( divide( divide( inverse( divide( divide( X, Y ),
% 0.81/1.56 divide( Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ) ),
% 0.81/1.56 inverse( inverse( U ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 73, [ =( multiply( U, inverse( divide( X, divide( Y, divide(
% 0.81/1.56 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ), divide(
% 0.81/1.56 U, X ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 74, [ =( inverse( inverse( divide( T, divide( inverse( Z ), divide(
% 0.81/1.56 inverse( multiply( divide( X, Y ), Z ) ), divide( Y, X ) ) ) ) ) ), T ) ]
% 0.81/1.56 )
% 0.81/1.56 .
% 0.81/1.56 clause( 75, [ =( multiply( divide( multiply( inverse( X ), Y ), Z ), divide(
% 0.81/1.56 Z, divide( divide( T, U ), multiply( inverse( Y ), X ) ) ) ), divide( U,
% 0.81/1.56 T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 78, [ =( multiply( divide( divide( X, Y ), Z ), divide( Z, divide(
% 0.81/1.56 divide( T, U ), divide( Y, X ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 79, [ =( multiply( multiply( divide( X, Y ), Z ), divide( inverse(
% 0.81/1.56 Z ), divide( divide( T, U ), divide( Y, X ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 80, [ =( multiply( divide( divide( Z, T ), U ), divide( U, divide(
% 0.81/1.56 multiply( X, Y ), divide( T, Z ) ) ) ), divide( inverse( Y ), X ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 84, [ =( multiply( U, inverse( divide( X, divide( inverse( Y ),
% 0.81/1.56 divide( inverse( multiply( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) )
% 0.81/1.56 ), divide( U, X ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 87, [ =( multiply( multiply( divide( inverse( U ), T ), W ), divide(
% 0.81/1.56 inverse( W ), divide( divide( V0, V1 ), multiply( T, U ) ) ) ), divide(
% 0.81/1.56 V1, V0 ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 92, [ =( multiply( divide( multiply( inverse( X ), Y ), Z ), divide(
% 0.81/1.56 Z, divide( multiply( T, U ), multiply( inverse( Y ), X ) ) ) ), divide(
% 0.81/1.56 inverse( U ), T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 103, [ =( divide( inverse( divide( divide( X, Y ), multiply( divide(
% 0.81/1.56 Z, T ), divide( divide( T, Z ), U ) ) ) ), divide( Y, X ) ), inverse(
% 0.81/1.56 inverse( inverse( U ) ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 104, [ =( divide( inverse( inverse( U ) ), divide( divide( Z, T ),
% 0.81/1.56 divide( inverse( divide( divide( X, Y ), divide( Z, T ) ) ), divide( Y, X
% 0.81/1.56 ) ) ) ), U ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 106, [ =( divide( inverse( inverse( W ) ), divide( X, divide(
% 0.81/1.56 inverse( divide( divide( V0, V1 ), X ) ), divide( V1, V0 ) ) ) ), W ) ]
% 0.81/1.56 )
% 0.81/1.56 .
% 0.81/1.56 clause( 107, [ =( divide( divide( inverse( divide( divide( X, Y ), divide(
% 0.81/1.56 Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ), inverse( U )
% 0.81/1.56 ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 112, [ =( divide( inverse( inverse( W ) ), divide( V0, divide(
% 0.81/1.56 inverse( divide( divide( inverse( U ), T ), V0 ) ), multiply( T, U ) ) )
% 0.81/1.56 ), W ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 115, [ =( divide( inverse( X ), multiply( multiply( divide( T, Z )
% 0.81/1.56 , divide( divide( Z, T ), Y ) ), inverse( X ) ) ), Y ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 121, [ =( divide( Y, multiply( multiply( divide( W, V0 ), divide(
% 0.81/1.56 divide( V0, W ), V1 ) ), Y ) ), V1 ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 126, [ =( divide( W, multiply( multiply( divide( inverse( U ), T )
% 0.81/1.56 , divide( multiply( T, U ), V0 ) ), W ) ), V0 ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 127, [ =( divide( W, multiply( multiply( multiply( T, U ), divide(
% 0.81/1.56 divide( inverse( U ), T ), V0 ) ), W ) ), V0 ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 138, [ =( multiply( multiply( divide( Y, X ), U ), multiply( divide(
% 0.81/1.56 Z, T ), divide( divide( T, Z ), U ) ) ), inverse( divide( X, Y ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 144, [ =( divide( T, multiply( multiply( divide( Y, X ), multiply(
% 0.81/1.56 divide( X, Y ), Z ) ), T ) ), inverse( Z ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 151, [ =( divide( Z, multiply( multiply( multiply( inverse( X ), Y
% 0.81/1.56 ), divide( multiply( inverse( Y ), X ), T ) ), Z ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 153, [ =( divide( W, multiply( multiply( multiply( T, U ), multiply(
% 0.81/1.56 divide( inverse( U ), T ), V0 ) ), W ) ), inverse( V0 ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 159, [ =( inverse( divide( inverse( X ), divide( inverse( T ),
% 0.81/1.56 divide( inverse( multiply( divide( Z, Y ), T ) ), divide( Y, Z ) ) ) ) )
% 0.81/1.56 , X ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 166, [ =( inverse( divide( inverse( X ), divide( T, divide( inverse(
% 0.81/1.56 divide( divide( inverse( Z ), Y ), T ) ), multiply( Y, Z ) ) ) ) ), X ) ]
% 0.81/1.56 )
% 0.81/1.56 .
% 0.81/1.56 clause( 212, [ =( divide( T, multiply( inverse( divide( Y, X ) ), T ) ),
% 0.81/1.56 inverse( divide( multiply( divide( X, Y ), Z ), Z ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 213, [ =( inverse( divide( multiply( divide( Z, Y ), T ), T ) ),
% 0.81/1.56 inverse( divide( multiply( divide( Z, Y ), U ), U ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 228, [ =( inverse( divide( multiply( X, U ), U ) ), inverse( divide(
% 0.81/1.56 multiply( X, W ), W ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 236, [ =( divide( multiply( X, Z ), Z ), divide( multiply( X, Y ),
% 0.81/1.56 Y ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 273, [ =( divide( T, multiply( multiply( divide( inverse( Y ), X )
% 0.81/1.56 , divide( multiply( X, Z ), Z ) ), T ) ), Y ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 278, [ =( multiply( multiply( divide( inverse( divide( Y, Z ) ), X
% 0.81/1.56 ), divide( multiply( X, T ), T ) ), Y ), Z ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 284, [ =( divide( Z, multiply( X, Z ) ), divide( Y, multiply( X, Y
% 0.81/1.56 ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 358, [ =( divide( multiply( X, Z ), Z ), multiply( multiply( X,
% 0.81/1.56 inverse( Y ) ), Y ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 430, [ =( multiply( multiply( divide( Y, X ), divide( T, multiply(
% 0.81/1.56 Z, T ) ) ), Z ), inverse( divide( X, Y ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 765, [ =( divide( T, divide( divide( inverse( X ), divide( divide(
% 0.81/1.56 Y, Z ), T ) ), divide( Z, Y ) ) ), X ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 772, [ =( divide( divide( T, Z ), divide( Y, multiply( multiply(
% 0.81/1.56 divide( Z, T ), X ), Y ) ) ), X ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 939, [ =( divide( divide( inverse( divide( X, Y ) ), divide( divide(
% 0.81/1.56 Z, T ), X ) ), divide( T, Z ) ), Y ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 965, [ =( multiply( multiply( multiply( divide( divide( Z, T ), X )
% 0.81/1.56 , divide( X, Y ) ), Y ), T ), Z ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1032, [ =( divide( multiply( multiply( divide( divide( X, Y ), Z )
% 0.81/1.56 , multiply( Z, Y ) ), T ), T ), X ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1052, [ =( divide( multiply( multiply( Y, multiply( divide( T, Z )
% 0.81/1.56 , divide( divide( Z, T ), X ) ) ), U ), U ), inverse( divide( X, Y ) ) )
% 0.81/1.56 ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1114, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ), divide(
% 0.81/1.56 Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1138, [ =( inverse( divide( T, multiply( X, T ) ) ), X ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1160, [ =( divide( T, multiply( inverse( X ), T ) ), X ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1202, [ =( divide( divide( W, divide( multiply( T, U ), V0 ) ),
% 0.81/1.56 divide( inverse( U ), T ) ), multiply( W, V0 ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1204, [ =( divide( divide( Z, Y ), divide( X, divide( divide( Y, Z
% 0.81/1.56 ), T ) ) ), divide( inverse( T ), X ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1221, [ =( multiply( U, divide( T, multiply( X, T ) ) ), divide( U
% 0.81/1.56 , X ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1230, [ =( inverse( divide( Y, divide( multiply( X, U ), divide( T
% 0.81/1.56 , Z ) ) ) ), divide( X, divide( divide( Y, divide( Z, T ) ), U ) ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1238, [ =( divide( inverse( divide( U, multiply( X, T ) ) ), divide(
% 0.81/1.56 multiply( Y, Z ), U ) ), divide( X, divide( multiply( Y, Z ), T ) ) ) ]
% 0.81/1.56 )
% 0.81/1.56 .
% 0.81/1.56 clause( 1246, [ =( multiply( multiply( divide( Y, Z ), divide( multiply( Z
% 0.81/1.56 , T ), T ) ), X ), multiply( Y, X ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1250, [ =( inverse( multiply( T, divide( Y, X ) ) ), divide( divide(
% 0.81/1.56 X, Y ), T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1270, [ =( divide( divide( X, Y ), multiply( divide( T, U ), divide(
% 0.81/1.56 divide( U, T ), Z ) ) ), multiply( divide( X, Y ), Z ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1285, [ =( multiply( multiply( inverse( Y ), Z ), divide( multiply(
% 0.81/1.56 inverse( Z ), Y ), T ) ), inverse( T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1303, [ =( inverse( multiply( Z, multiply( inverse( Y ), X ) ) ),
% 0.81/1.56 divide( multiply( inverse( X ), Y ), Z ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1318, [ =( divide( Z, divide( Y, Y ) ), Z ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1339, [ =( multiply( inverse( X ), X ), multiply( inverse( Y ), Y )
% 0.81/1.56 ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1347, [ =( inverse( inverse( inverse( U ) ) ), inverse( U ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1351, [ =( divide( inverse( multiply( divide( multiply( inverse( Y
% 0.81/1.56 ), Y ), X ), U ) ), X ), inverse( U ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1393, [ =( divide( multiply( inverse( Z ), Z ), divide( X, Y ) ),
% 0.81/1.56 divide( Y, X ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1409, [ =( inverse( inverse( Z ) ), Z ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1449, [ =( multiply( Z, inverse( T ) ), divide( Z, T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1456, [ =( divide( inverse( U ), T ), inverse( multiply( T, U ) ) )
% 0.81/1.56 ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1469, [ =( multiply( U, divide( X, X ) ), U ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1478, [ =( divide( multiply( inverse( Y ), Y ), X ), inverse( X ) )
% 0.81/1.56 ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1479, [ =( inverse( divide( T, U ) ), divide( U, T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1482, [ =( divide( multiply( T, Z ), multiply( X, Z ) ), divide( T
% 0.81/1.56 , X ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X ), U
% 0.81/1.56 ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1497, [ =( divide( multiply( U, Y ), Y ), U ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1519, [ =( multiply( divide( divide( Z, T ), U ), divide( multiply(
% 0.81/1.56 U, divide( T, Z ) ), X ) ), inverse( X ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1533, [ =( multiply( divide( W, T ), T ), W ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1536, [ =( divide( divide( Y, Y ), Z ), inverse( Z ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1543, [ =( divide( X, multiply( Y, X ) ), inverse( Y ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1567, [ =( divide( multiply( Y, multiply( T, U ) ), Z ), divide(
% 0.81/1.56 multiply( multiply( Y, T ), U ), Z ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1568, [ =( divide( multiply( multiply( divide( X, Y ), divide( Y, X
% 0.81/1.56 ) ), U ), T ), divide( U, T ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1580, [ =( divide( T, T ), divide( Z, Z ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1581, [ =( multiply( multiply( inverse( Y ), Y ), X ), X ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1604, [ =( multiply( inverse( X ), X ), divide( Y, Y ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1607, [ =( multiply( T, divide( X, Y ) ), divide( multiply( T, X )
% 0.81/1.56 , Y ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1618, [ =( divide( multiply( U, Z ), multiply( X, Y ) ), divide(
% 0.81/1.56 divide( multiply( U, Z ), Y ), X ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1622, [ =( multiply( X, multiply( T, U ) ), multiply( multiply( X,
% 0.81/1.56 T ), U ) ) ] )
% 0.81/1.56 .
% 0.81/1.56 clause( 1627, [ ~( =( divide( X, X ), multiply( inverse( a1 ), a1 ) ) ) ]
% 0.81/1.56 )
% 0.81/1.56 .
% 0.81/1.56 clause( 1630, [] )
% 0.81/1.56 .
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 % SZS output end Refutation
% 0.81/1.56 found a proof!
% 0.81/1.56
% 0.81/1.56 % ABCDEFGHIJKLMNOPQRSTUVWXYZ
% 0.81/1.56
% 0.81/1.56 initialclauses(
% 0.81/1.56 [ clause( 1632, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T )
% 0.81/1.56 ) ) ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , clause( 1633, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.56 , clause( 1634, [ ~( =( multiply( inverse( a1 ), a1 ), multiply( inverse(
% 0.81/1.56 b1 ), b1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 )
% 0.81/1.56 ), ~( =( multiply( multiply( a3, b3 ), c3 ), multiply( a3, multiply( b3
% 0.81/1.56 , c3 ) ) ) ) ] )
% 0.81/1.56 ] ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) ) )
% 0.81/1.56 , divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , clause( 1632, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T )
% 0.81/1.56 ) ) ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] ),
% 0.81/1.56 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1637, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , clause( 1633, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , clause( 1637, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.56 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1642, [ ~( =( multiply( a3, multiply( b3, c3 ) ), multiply(
% 0.81/1.56 multiply( a3, b3 ), c3 ) ) ), ~( =( multiply( inverse( a1 ), a1 ),
% 0.81/1.56 multiply( inverse( b1 ), b1 ) ) ), ~( =( multiply( multiply( inverse( b2
% 0.81/1.56 ), b2 ), a2 ), a2 ) ) ] )
% 0.81/1.56 , clause( 1634, [ ~( =( multiply( inverse( a1 ), a1 ), multiply( inverse(
% 0.81/1.56 b1 ), b1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 )
% 0.81/1.56 ), ~( =( multiply( multiply( a3, b3 ), c3 ), multiply( a3, multiply( b3
% 0.81/1.56 , c3 ) ) ) ) ] )
% 0.81/1.56 , 2, substitution( 0, [] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1643, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse( a1
% 0.81/1.56 ), a1 ) ) ), ~( =( multiply( a3, multiply( b3, c3 ) ), multiply(
% 0.81/1.56 multiply( a3, b3 ), c3 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2
% 0.81/1.56 ), a2 ), a2 ) ) ] )
% 0.81/1.56 , clause( 1642, [ ~( =( multiply( a3, multiply( b3, c3 ) ), multiply(
% 0.81/1.56 multiply( a3, b3 ), c3 ) ) ), ~( =( multiply( inverse( a1 ), a1 ),
% 0.81/1.56 multiply( inverse( b1 ), b1 ) ) ), ~( =( multiply( multiply( inverse( b2
% 0.81/1.56 ), b2 ), a2 ), a2 ) ) ] )
% 0.81/1.56 , 1, substitution( 0, [] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 2, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse( a1 ),
% 0.81/1.56 a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ),
% 0.81/1.56 ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 ),
% 0.81/1.56 c3 ) ) ) ] )
% 0.81/1.56 , clause( 1643, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse(
% 0.81/1.56 a1 ), a1 ) ) ), ~( =( multiply( a3, multiply( b3, c3 ) ), multiply(
% 0.81/1.56 multiply( a3, b3 ), c3 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2
% 0.81/1.56 ), a2 ), a2 ) ) ] )
% 0.81/1.56 , substitution( 0, [] ), permutation( 0, [ ==>( 0, 0 ), ==>( 1, 2 ), ==>( 2
% 0.81/1.56 , 1 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1647, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z, T )
% 0.81/1.56 ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1651, [ =( divide( X, Y ), divide( inverse( U ), divide( divide( T
% 0.81/1.56 , Z ), inverse( divide( divide( Z, T ), divide( U, divide( Y, X ) ) ) ) )
% 0.81/1.56 ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, clause( 1647, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z
% 0.81/1.56 , T ) ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 6, substitution( 0, [ :=( X, divide( Z, T ) ), :=( Y, U ), :=( Z, Y )
% 0.81/1.56 , :=( T, X )] ), substitution( 1, [ :=( X, inverse( divide( divide( Z, T
% 0.81/1.56 ), divide( U, divide( Y, X ) ) ) ) ), :=( Y, divide( X, Y ) ), :=( Z, Z
% 0.81/1.56 ), :=( T, T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1659, [ =( divide( X, Y ), divide( inverse( Z ), multiply( divide(
% 0.81/1.56 T, U ), divide( divide( U, T ), divide( Z, divide( Y, X ) ) ) ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1651, [ =( divide( X, Y ), divide( inverse( U ), divide(
% 0.81/1.56 divide( T, Z ), inverse( divide( divide( Z, T ), divide( U, divide( Y, X
% 0.81/1.56 ) ) ) ) ) ) ) ] )
% 0.81/1.56 , 0, 7, substitution( 0, [ :=( X, divide( T, U ) ), :=( Y, divide( divide(
% 0.81/1.56 U, T ), divide( Z, divide( Y, X ) ) ) )] ), substitution( 1, [ :=( X, X )
% 0.81/1.56 , :=( Y, Y ), :=( Z, U ), :=( T, T ), :=( U, Z )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1660, [ =( divide( inverse( Z ), multiply( divide( T, U ), divide(
% 0.81/1.56 divide( U, T ), divide( Z, divide( Y, X ) ) ) ) ), divide( X, Y ) ) ] )
% 0.81/1.56 , clause( 1659, [ =( divide( X, Y ), divide( inverse( Z ), multiply( divide(
% 0.81/1.56 T, U ), divide( divide( U, T ), divide( Z, divide( Y, X ) ) ) ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.56 :=( U, U )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 3, [ =( divide( inverse( Z ), multiply( divide( Y, X ), divide(
% 0.81/1.56 divide( X, Y ), divide( Z, divide( T, U ) ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.56 , clause( 1660, [ =( divide( inverse( Z ), multiply( divide( T, U ), divide(
% 0.81/1.56 divide( U, T ), divide( Z, divide( Y, X ) ) ) ) ), divide( X, Y ) ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, Z ), :=( T, Y ), :=( U
% 0.81/1.56 , X )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1661, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z, T )
% 0.81/1.56 ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1665, [ =( inverse( divide( X, divide( Y, divide( Z, T ) ) ) ),
% 0.81/1.56 divide( inverse( divide( U, Y ) ), divide( divide( X, divide( T, Z ) ), U
% 0.81/1.56 ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, clause( 1661, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z
% 0.81/1.56 , T ) ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 13, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 , substitution( 1, [ :=( X, U ), :=( Y, inverse( divide( X, divide( Y,
% 0.81/1.56 divide( Z, T ) ) ) ) ), :=( Z, divide( T, Z ) ), :=( T, X )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1669, [ =( divide( inverse( divide( U, Y ) ), divide( divide( X,
% 0.81/1.56 divide( T, Z ) ), U ) ), inverse( divide( X, divide( Y, divide( Z, T ) )
% 0.81/1.56 ) ) ) ] )
% 0.81/1.56 , clause( 1665, [ =( inverse( divide( X, divide( Y, divide( Z, T ) ) ) ),
% 0.81/1.56 divide( inverse( divide( U, Y ) ), divide( divide( X, divide( T, Z ) ), U
% 0.81/1.56 ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.56 :=( U, U )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 4, [ =( divide( inverse( divide( U, Y ) ), divide( divide( X,
% 0.81/1.56 divide( T, Z ) ), U ) ), inverse( divide( X, divide( Y, divide( Z, T ) )
% 0.81/1.56 ) ) ) ] )
% 0.81/1.56 , clause( 1669, [ =( divide( inverse( divide( U, Y ) ), divide( divide( X,
% 0.81/1.56 divide( T, Z ) ), U ) ), inverse( divide( X, divide( Y, divide( Z, T ) )
% 0.81/1.56 ) ) ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.56 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1672, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z, T )
% 0.81/1.56 ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1678, [ =( X, divide( inverse( divide( Y, divide( X, T ) ) ),
% 0.81/1.56 divide( divide( divide( divide( W, U ), Z ), inverse( divide( Z, divide(
% 0.81/1.56 T, divide( U, W ) ) ) ) ), Y ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, clause( 1672, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z
% 0.81/1.56 , T ) ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 8, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T, W )] )
% 0.81/1.56 , substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, inverse( divide( Z,
% 0.81/1.56 divide( T, divide( U, W ) ) ) ) ), :=( T, divide( divide( W, U ), Z ) )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1682, [ =( X, divide( inverse( divide( Y, divide( X, Z ) ) ),
% 0.81/1.56 divide( multiply( divide( divide( T, U ), W ), divide( W, divide( Z,
% 0.81/1.56 divide( U, T ) ) ) ), Y ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1678, [ =( X, divide( inverse( divide( Y, divide( X, T ) ) ),
% 0.81/1.56 divide( divide( divide( divide( W, U ), Z ), inverse( divide( Z, divide(
% 0.81/1.56 T, divide( U, W ) ) ) ) ), Y ) ) ) ] )
% 0.81/1.56 , 0, 10, substitution( 0, [ :=( X, divide( divide( T, U ), W ) ), :=( Y,
% 0.81/1.56 divide( W, divide( Z, divide( U, T ) ) ) )] ), substitution( 1, [ :=( X,
% 0.81/1.56 X ), :=( Y, Y ), :=( Z, W ), :=( T, Z ), :=( U, U ), :=( W, T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1683, [ =( divide( inverse( divide( Y, divide( X, Z ) ) ), divide(
% 0.81/1.56 multiply( divide( divide( T, U ), W ), divide( W, divide( Z, divide( U, T
% 0.81/1.56 ) ) ) ), Y ) ), X ) ] )
% 0.81/1.56 , clause( 1682, [ =( X, divide( inverse( divide( Y, divide( X, Z ) ) ),
% 0.81/1.56 divide( multiply( divide( divide( T, U ), W ), divide( W, divide( Z,
% 0.81/1.56 divide( U, T ) ) ) ), Y ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.56 :=( U, U ), :=( W, W )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 5, [ =( divide( inverse( divide( U, divide( W, Y ) ) ), divide(
% 0.81/1.56 multiply( divide( divide( T, Z ), X ), divide( X, divide( Y, divide( Z, T
% 0.81/1.56 ) ) ) ), U ) ), W ) ] )
% 0.81/1.56 , clause( 1683, [ =( divide( inverse( divide( Y, divide( X, Z ) ) ), divide(
% 0.81/1.56 multiply( divide( divide( T, U ), W ), divide( W, divide( Z, divide( U, T
% 0.81/1.56 ) ) ) ), Y ) ), X ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, W ), :=( Y, U ), :=( Z, Y ), :=( T, T ), :=( U
% 0.81/1.56 , Z ), :=( W, X )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1685, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z, T )
% 0.81/1.56 ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1686, [ =( X, divide( inverse( divide( Y, divide( X, multiply( Z, T
% 0.81/1.56 ) ) ) ), divide( divide( inverse( T ), Z ), Y ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1685, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z
% 0.81/1.56 , T ) ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 8, substitution( 0, [ :=( X, Z ), :=( Y, T )] ), substitution( 1, [
% 0.81/1.56 :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, inverse( T ) )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1689, [ =( divide( inverse( divide( Y, divide( X, multiply( Z, T )
% 0.81/1.56 ) ) ), divide( divide( inverse( T ), Z ), Y ) ), X ) ] )
% 0.81/1.56 , clause( 1686, [ =( X, divide( inverse( divide( Y, divide( X, multiply( Z
% 0.81/1.56 , T ) ) ) ), divide( divide( inverse( T ), Z ), Y ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 7, [ =( divide( inverse( divide( Z, divide( T, multiply( X, Y ) ) )
% 0.81/1.56 ), divide( divide( inverse( Y ), X ), Z ) ), T ) ] )
% 0.81/1.56 , clause( 1689, [ =( divide( inverse( divide( Y, divide( X, multiply( Z, T
% 0.81/1.56 ) ) ) ), divide( divide( inverse( T ), Z ), Y ) ), X ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] ),
% 0.81/1.56 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1693, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z, T )
% 0.81/1.56 ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1695, [ =( X, divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 divide( Z, T ) ) ) ), multiply( divide( T, Z ), Y ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1693, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z
% 0.81/1.56 , T ) ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 12, substitution( 0, [ :=( X, divide( T, Z ) ), :=( Y, Y )] ),
% 0.81/1.56 substitution( 1, [ :=( X, inverse( Y ) ), :=( Y, X ), :=( Z, Z ), :=( T,
% 0.81/1.56 T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1698, [ =( divide( inverse( divide( inverse( Y ), divide( X, divide(
% 0.81/1.56 Z, T ) ) ) ), multiply( divide( T, Z ), Y ) ), X ) ] )
% 0.81/1.56 , clause( 1695, [ =( X, divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 divide( Z, T ) ) ) ), multiply( divide( T, Z ), Y ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 8, [ =( divide( inverse( divide( inverse( Z ), divide( T, divide( Y
% 0.81/1.56 , X ) ) ) ), multiply( divide( X, Y ), Z ) ), T ) ] )
% 0.81/1.56 , clause( 1698, [ =( divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 divide( Z, T ) ) ) ), multiply( divide( T, Z ), Y ) ), X ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y ), :=( T, X )] ),
% 0.81/1.56 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1701, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z, T )
% 0.81/1.56 ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1704, [ =( X, divide( inverse( divide( Y, divide( X, divide(
% 0.81/1.56 inverse( Z ), T ) ) ) ), divide( multiply( T, Z ), Y ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1701, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z
% 0.81/1.56 , T ) ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 13, substitution( 0, [ :=( X, T ), :=( Y, Z )] ), substitution( 1, [
% 0.81/1.56 :=( X, Y ), :=( Y, X ), :=( Z, inverse( Z ) ), :=( T, T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1707, [ =( divide( inverse( divide( Y, divide( X, divide( inverse(
% 0.81/1.56 Z ), T ) ) ) ), divide( multiply( T, Z ), Y ) ), X ) ] )
% 0.81/1.56 , clause( 1704, [ =( X, divide( inverse( divide( Y, divide( X, divide(
% 0.81/1.56 inverse( Z ), T ) ) ) ), divide( multiply( T, Z ), Y ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 9, [ =( divide( inverse( divide( Z, divide( T, divide( inverse( Y )
% 0.81/1.56 , X ) ) ) ), divide( multiply( X, Y ), Z ) ), T ) ] )
% 0.81/1.56 , clause( 1707, [ =( divide( inverse( divide( Y, divide( X, divide( inverse(
% 0.81/1.56 Z ), T ) ) ) ), divide( multiply( T, Z ), Y ) ), X ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y ), :=( T, X )] ),
% 0.81/1.56 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1709, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z, T )
% 0.81/1.56 ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1715, [ =( divide( inverse( X ), Y ), divide( inverse( U ), divide(
% 0.81/1.56 divide( T, Z ), inverse( divide( divide( Z, T ), divide( U, multiply( Y,
% 0.81/1.56 X ) ) ) ) ) ) ) ] )
% 0.81/1.56 , clause( 7, [ =( divide( inverse( divide( Z, divide( T, multiply( X, Y ) )
% 0.81/1.56 ) ), divide( divide( inverse( Y ), X ), Z ) ), T ) ] )
% 0.81/1.56 , 0, clause( 1709, [ =( Y, divide( inverse( divide( X, divide( Y, divide( Z
% 0.81/1.56 , T ) ) ) ), divide( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 7, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, divide( Z, T ) )
% 0.81/1.56 , :=( T, U )] ), substitution( 1, [ :=( X, inverse( divide( divide( Z, T
% 0.81/1.56 ), divide( U, multiply( Y, X ) ) ) ) ), :=( Y, divide( inverse( X ), Y )
% 0.81/1.56 ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1723, [ =( divide( inverse( X ), Y ), divide( inverse( Z ),
% 0.81/1.56 multiply( divide( T, U ), divide( divide( U, T ), divide( Z, multiply( Y
% 0.81/1.56 , X ) ) ) ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1715, [ =( divide( inverse( X ), Y ), divide( inverse( U ),
% 0.81/1.56 divide( divide( T, Z ), inverse( divide( divide( Z, T ), divide( U,
% 0.81/1.56 multiply( Y, X ) ) ) ) ) ) ) ] )
% 0.81/1.56 , 0, 8, substitution( 0, [ :=( X, divide( T, U ) ), :=( Y, divide( divide(
% 0.81/1.56 U, T ), divide( Z, multiply( Y, X ) ) ) )] ), substitution( 1, [ :=( X, X
% 0.81/1.56 ), :=( Y, Y ), :=( Z, U ), :=( T, T ), :=( U, Z )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1724, [ =( divide( inverse( Z ), multiply( divide( T, U ), divide(
% 0.81/1.56 divide( U, T ), divide( Z, multiply( Y, X ) ) ) ) ), divide( inverse( X )
% 0.81/1.56 , Y ) ) ] )
% 0.81/1.56 , clause( 1723, [ =( divide( inverse( X ), Y ), divide( inverse( Z ),
% 0.81/1.56 multiply( divide( T, U ), divide( divide( U, T ), divide( Z, multiply( Y
% 0.81/1.56 , X ) ) ) ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.56 :=( U, U )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 11, [ =( divide( inverse( Z ), multiply( divide( Y, X ), divide(
% 0.81/1.56 divide( X, Y ), divide( Z, multiply( T, U ) ) ) ) ), divide( inverse( U )
% 0.81/1.56 , T ) ) ] )
% 0.81/1.56 , clause( 1724, [ =( divide( inverse( Z ), multiply( divide( T, U ), divide(
% 0.81/1.56 divide( U, T ), divide( Z, multiply( Y, X ) ) ) ) ), divide( inverse( X )
% 0.81/1.56 , Y ) ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, Z ), :=( T, Y ), :=( U
% 0.81/1.56 , X )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1726, [ =( Y, divide( inverse( divide( X, divide( Y, multiply( Z, T
% 0.81/1.56 ) ) ) ), divide( divide( inverse( T ), Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 7, [ =( divide( inverse( divide( Z, divide( T, multiply( X, Y ) )
% 0.81/1.56 ) ), divide( divide( inverse( Y ), X ), Z ) ), T ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1727, [ =( X, divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 multiply( Z, T ) ) ) ), multiply( divide( inverse( T ), Z ), Y ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1726, [ =( Y, divide( inverse( divide( X, divide( Y, multiply(
% 0.81/1.56 Z, T ) ) ) ), divide( divide( inverse( T ), Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 12, substitution( 0, [ :=( X, divide( inverse( T ), Z ) ), :=( Y, Y )] )
% 0.81/1.56 , substitution( 1, [ :=( X, inverse( Y ) ), :=( Y, X ), :=( Z, Z ), :=( T
% 0.81/1.56 , T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1729, [ =( divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 multiply( Z, T ) ) ) ), multiply( divide( inverse( T ), Z ), Y ) ), X ) ]
% 0.81/1.56 )
% 0.81/1.56 , clause( 1727, [ =( X, divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 multiply( Z, T ) ) ) ), multiply( divide( inverse( T ), Z ), Y ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 13, [ =( divide( inverse( divide( inverse( Z ), divide( T, multiply(
% 0.81/1.56 Y, X ) ) ) ), multiply( divide( inverse( X ), Y ), Z ) ), T ) ] )
% 0.81/1.56 , clause( 1729, [ =( divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 multiply( Z, T ) ) ) ), multiply( divide( inverse( T ), Z ), Y ) ), X ) ]
% 0.81/1.56 )
% 0.81/1.56 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y ), :=( T, X )] ),
% 0.81/1.56 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1732, [ =( Y, divide( inverse( divide( X, divide( Y, multiply( Z, T
% 0.81/1.56 ) ) ) ), divide( divide( inverse( T ), Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 7, [ =( divide( inverse( divide( Z, divide( T, multiply( X, Y ) )
% 0.81/1.56 ) ), divide( divide( inverse( Y ), X ), Z ) ), T ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1734, [ =( X, divide( inverse( divide( Y, divide( X, multiply(
% 0.81/1.56 inverse( Z ), T ) ) ) ), divide( multiply( inverse( T ), Z ), Y ) ) ) ]
% 0.81/1.56 )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1732, [ =( Y, divide( inverse( divide( X, divide( Y, multiply(
% 0.81/1.56 Z, T ) ) ) ), divide( divide( inverse( T ), Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 13, substitution( 0, [ :=( X, inverse( T ) ), :=( Y, Z )] ),
% 0.81/1.56 substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, inverse( Z ) ), :=( T,
% 0.81/1.56 T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1736, [ =( divide( inverse( divide( Y, divide( X, multiply( inverse(
% 0.81/1.56 Z ), T ) ) ) ), divide( multiply( inverse( T ), Z ), Y ) ), X ) ] )
% 0.81/1.56 , clause( 1734, [ =( X, divide( inverse( divide( Y, divide( X, multiply(
% 0.81/1.56 inverse( Z ), T ) ) ) ), divide( multiply( inverse( T ), Z ), Y ) ) ) ]
% 0.81/1.56 )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 14, [ =( divide( inverse( divide( Z, divide( T, multiply( inverse(
% 0.81/1.56 Y ), X ) ) ) ), divide( multiply( inverse( X ), Y ), Z ) ), T ) ] )
% 0.81/1.56 , clause( 1736, [ =( divide( inverse( divide( Y, divide( X, multiply(
% 0.81/1.56 inverse( Z ), T ) ) ) ), divide( multiply( inverse( T ), Z ), Y ) ), X )
% 0.81/1.56 ] )
% 0.81/1.56 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y ), :=( T, X )] ),
% 0.81/1.56 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1738, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y,
% 0.81/1.56 divide( Z, T ) ) ) ), multiply( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 8, [ =( divide( inverse( divide( inverse( Z ), divide( T, divide(
% 0.81/1.56 Y, X ) ) ) ), multiply( divide( X, Y ), Z ) ), T ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1744, [ =( inverse( divide( X, divide( Y, divide( Z, T ) ) ) ),
% 0.81/1.56 divide( inverse( divide( inverse( U ), Y ) ), multiply( divide( X, divide(
% 0.81/1.56 T, Z ) ), U ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, clause( 1738, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y
% 0.81/1.56 , divide( Z, T ) ) ) ), multiply( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 14, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 , substitution( 1, [ :=( X, U ), :=( Y, inverse( divide( X, divide( Y,
% 0.81/1.56 divide( Z, T ) ) ) ) ), :=( Z, divide( T, Z ) ), :=( T, X )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1748, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.56 divide( X, divide( T, Z ) ), U ) ), inverse( divide( X, divide( Y, divide(
% 0.81/1.56 Z, T ) ) ) ) ) ] )
% 0.81/1.56 , clause( 1744, [ =( inverse( divide( X, divide( Y, divide( Z, T ) ) ) ),
% 0.81/1.56 divide( inverse( divide( inverse( U ), Y ) ), multiply( divide( X, divide(
% 0.81/1.56 T, Z ) ), U ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.56 :=( U, U )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 16, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.56 divide( X, divide( T, Z ) ), U ) ), inverse( divide( X, divide( Y, divide(
% 0.81/1.56 Z, T ) ) ) ) ) ] )
% 0.81/1.56 , clause( 1748, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.56 divide( X, divide( T, Z ) ), U ) ), inverse( divide( X, divide( Y, divide(
% 0.81/1.56 Z, T ) ) ) ) ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.56 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1752, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y,
% 0.81/1.56 divide( Z, T ) ) ) ), multiply( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 8, [ =( divide( inverse( divide( inverse( Z ), divide( T, divide(
% 0.81/1.56 Y, X ) ) ) ), multiply( divide( X, Y ), Z ) ), T ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1754, [ =( X, divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 divide( inverse( Z ), T ) ) ) ), multiply( multiply( T, Z ), Y ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1752, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y
% 0.81/1.56 , divide( Z, T ) ) ) ), multiply( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 14, substitution( 0, [ :=( X, T ), :=( Y, Z )] ), substitution( 1, [
% 0.81/1.56 :=( X, Y ), :=( Y, X ), :=( Z, inverse( Z ) ), :=( T, T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1756, [ =( divide( inverse( divide( inverse( Y ), divide( X, divide(
% 0.81/1.56 inverse( Z ), T ) ) ) ), multiply( multiply( T, Z ), Y ) ), X ) ] )
% 0.81/1.56 , clause( 1754, [ =( X, divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 divide( inverse( Z ), T ) ) ) ), multiply( multiply( T, Z ), Y ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 17, [ =( divide( inverse( divide( inverse( Z ), divide( T, divide(
% 0.81/1.56 inverse( Y ), X ) ) ) ), multiply( multiply( X, Y ), Z ) ), T ) ] )
% 0.81/1.56 , clause( 1756, [ =( divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 divide( inverse( Z ), T ) ) ) ), multiply( multiply( T, Z ), Y ) ), X ) ]
% 0.81/1.56 )
% 0.81/1.56 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y ), :=( T, X )] ),
% 0.81/1.56 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1758, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y,
% 0.81/1.56 divide( Z, T ) ) ) ), multiply( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 8, [ =( divide( inverse( divide( inverse( Z ), divide( T, divide(
% 0.81/1.56 Y, X ) ) ) ), multiply( divide( X, Y ), Z ) ), T ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1762, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ), T )
% 0.81/1.56 ) ) ), divide( inverse( divide( inverse( U ), Y ) ), multiply( divide( X
% 0.81/1.56 , multiply( T, Z ) ), U ) ) ) ] )
% 0.81/1.56 , clause( 9, [ =( divide( inverse( divide( Z, divide( T, divide( inverse( Y
% 0.81/1.56 ), X ) ) ) ), divide( multiply( X, Y ), Z ) ), T ) ] )
% 0.81/1.56 , 0, clause( 1758, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y
% 0.81/1.56 , divide( Z, T ) ) ) ), multiply( divide( T, Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 15, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.56 , substitution( 1, [ :=( X, U ), :=( Y, inverse( divide( X, divide( Y,
% 0.81/1.56 divide( inverse( Z ), T ) ) ) ) ), :=( Z, multiply( T, Z ) ), :=( T, X )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1766, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.56 divide( X, multiply( T, Z ) ), U ) ), inverse( divide( X, divide( Y,
% 0.81/1.56 divide( inverse( Z ), T ) ) ) ) ) ] )
% 0.81/1.56 , clause( 1762, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ), T
% 0.81/1.56 ) ) ) ), divide( inverse( divide( inverse( U ), Y ) ), multiply( divide(
% 0.81/1.56 X, multiply( T, Z ) ), U ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.56 :=( U, U )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 19, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.56 divide( X, multiply( T, Z ) ), U ) ), inverse( divide( X, divide( Y,
% 0.81/1.56 divide( inverse( Z ), T ) ) ) ) ) ] )
% 0.81/1.56 , clause( 1766, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.56 divide( X, multiply( T, Z ) ), U ) ), inverse( divide( X, divide( Y,
% 0.81/1.56 divide( inverse( Z ), T ) ) ) ) ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.56 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1770, [ =( Y, divide( inverse( divide( X, divide( Y, divide(
% 0.81/1.56 inverse( Z ), T ) ) ) ), divide( multiply( T, Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 9, [ =( divide( inverse( divide( Z, divide( T, divide( inverse( Y
% 0.81/1.56 ), X ) ) ) ), divide( multiply( X, Y ), Z ) ), T ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1782, [ =( divide( X, Y ), divide( inverse( U ), divide( multiply(
% 0.81/1.56 T, Z ), inverse( divide( divide( inverse( Z ), T ), divide( U, divide( Y
% 0.81/1.56 , X ) ) ) ) ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, clause( 1770, [ =( Y, divide( inverse( divide( X, divide( Y, divide(
% 0.81/1.56 inverse( Z ), T ) ) ) ), divide( multiply( T, Z ), X ) ) ) ] )
% 0.81/1.56 , 0, 6, substitution( 0, [ :=( X, divide( inverse( Z ), T ) ), :=( Y, U ),
% 0.81/1.56 :=( Z, Y ), :=( T, X )] ), substitution( 1, [ :=( X, inverse( divide(
% 0.81/1.56 divide( inverse( Z ), T ), divide( U, divide( Y, X ) ) ) ) ), :=( Y,
% 0.81/1.56 divide( X, Y ) ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1784, [ =( divide( X, Y ), divide( inverse( Z ), multiply( multiply(
% 0.81/1.56 T, U ), divide( divide( inverse( U ), T ), divide( Z, divide( Y, X ) ) )
% 0.81/1.56 ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1782, [ =( divide( X, Y ), divide( inverse( U ), divide(
% 0.81/1.56 multiply( T, Z ), inverse( divide( divide( inverse( Z ), T ), divide( U,
% 0.81/1.56 divide( Y, X ) ) ) ) ) ) ) ] )
% 0.81/1.56 , 0, 7, substitution( 0, [ :=( X, multiply( T, U ) ), :=( Y, divide( divide(
% 0.81/1.56 inverse( U ), T ), divide( Z, divide( Y, X ) ) ) )] ), substitution( 1, [
% 0.81/1.56 :=( X, X ), :=( Y, Y ), :=( Z, U ), :=( T, T ), :=( U, Z )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1785, [ =( divide( inverse( Z ), multiply( multiply( T, U ), divide(
% 0.81/1.56 divide( inverse( U ), T ), divide( Z, divide( Y, X ) ) ) ) ), divide( X,
% 0.81/1.56 Y ) ) ] )
% 0.81/1.56 , clause( 1784, [ =( divide( X, Y ), divide( inverse( Z ), multiply(
% 0.81/1.56 multiply( T, U ), divide( divide( inverse( U ), T ), divide( Z, divide( Y
% 0.81/1.56 , X ) ) ) ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.56 :=( U, U )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 22, [ =( divide( inverse( Z ), multiply( multiply( Y, X ), divide(
% 0.81/1.56 divide( inverse( X ), Y ), divide( Z, divide( T, U ) ) ) ) ), divide( U,
% 0.81/1.56 T ) ) ] )
% 0.81/1.56 , clause( 1785, [ =( divide( inverse( Z ), multiply( multiply( T, U ),
% 0.81/1.56 divide( divide( inverse( U ), T ), divide( Z, divide( Y, X ) ) ) ) ),
% 0.81/1.56 divide( X, Y ) ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, Z ), :=( T, Y ), :=( U
% 0.81/1.56 , X )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1787, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y,
% 0.81/1.56 multiply( Z, T ) ) ) ), multiply( divide( inverse( T ), Z ), X ) ) ) ] )
% 0.81/1.56 , clause( 13, [ =( divide( inverse( divide( inverse( Z ), divide( T,
% 0.81/1.56 multiply( Y, X ) ) ) ), multiply( divide( inverse( X ), Y ), Z ) ), T ) ]
% 0.81/1.56 )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1788, [ =( X, divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 multiply( inverse( Z ), T ) ) ) ), multiply( multiply( inverse( T ), Z )
% 0.81/1.56 , Y ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1787, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y
% 0.81/1.56 , multiply( Z, T ) ) ) ), multiply( divide( inverse( T ), Z ), X ) ) ) ]
% 0.81/1.56 )
% 0.81/1.56 , 0, 14, substitution( 0, [ :=( X, inverse( T ) ), :=( Y, Z )] ),
% 0.81/1.56 substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, inverse( Z ) ), :=( T,
% 0.81/1.56 T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1789, [ =( divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 multiply( inverse( Z ), T ) ) ) ), multiply( multiply( inverse( T ), Z )
% 0.81/1.56 , Y ) ), X ) ] )
% 0.81/1.56 , clause( 1788, [ =( X, divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 multiply( inverse( Z ), T ) ) ) ), multiply( multiply( inverse( T ), Z )
% 0.81/1.56 , Y ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 23, [ =( divide( inverse( divide( inverse( Z ), divide( T, multiply(
% 0.81/1.56 inverse( Y ), X ) ) ) ), multiply( multiply( inverse( X ), Y ), Z ) ), T
% 0.81/1.56 ) ] )
% 0.81/1.56 , clause( 1789, [ =( divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.56 multiply( inverse( Z ), T ) ) ) ), multiply( multiply( inverse( T ), Z )
% 0.81/1.56 , Y ) ), X ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y ), :=( T, X )] ),
% 0.81/1.56 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1791, [ =( Y, divide( inverse( divide( X, divide( Y, multiply(
% 0.81/1.56 inverse( Z ), T ) ) ) ), divide( multiply( inverse( T ), Z ), X ) ) ) ]
% 0.81/1.56 )
% 0.81/1.56 , clause( 14, [ =( divide( inverse( divide( Z, divide( T, multiply( inverse(
% 0.81/1.56 Y ), X ) ) ) ), divide( multiply( inverse( X ), Y ), Z ) ), T ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1797, [ =( divide( inverse( X ), Y ), divide( inverse( U ), divide(
% 0.81/1.56 multiply( inverse( T ), Z ), inverse( divide( multiply( inverse( Z ), T )
% 0.81/1.56 , divide( U, multiply( Y, X ) ) ) ) ) ) ) ] )
% 0.81/1.56 , clause( 7, [ =( divide( inverse( divide( Z, divide( T, multiply( X, Y ) )
% 0.81/1.56 ) ), divide( divide( inverse( Y ), X ), Z ) ), T ) ] )
% 0.81/1.56 , 0, clause( 1791, [ =( Y, divide( inverse( divide( X, divide( Y, multiply(
% 0.81/1.56 inverse( Z ), T ) ) ) ), divide( multiply( inverse( T ), Z ), X ) ) ) ]
% 0.81/1.56 )
% 0.81/1.56 , 0, 7, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, multiply( inverse(
% 0.81/1.56 Z ), T ) ), :=( T, U )] ), substitution( 1, [ :=( X, inverse( divide(
% 0.81/1.56 multiply( inverse( Z ), T ), divide( U, multiply( Y, X ) ) ) ) ), :=( Y,
% 0.81/1.56 divide( inverse( X ), Y ) ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1798, [ =( divide( inverse( X ), Y ), divide( inverse( Z ),
% 0.81/1.56 multiply( multiply( inverse( T ), U ), divide( multiply( inverse( U ), T
% 0.81/1.56 ), divide( Z, multiply( Y, X ) ) ) ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1797, [ =( divide( inverse( X ), Y ), divide( inverse( U ),
% 0.81/1.56 divide( multiply( inverse( T ), Z ), inverse( divide( multiply( inverse(
% 0.81/1.56 Z ), T ), divide( U, multiply( Y, X ) ) ) ) ) ) ) ] )
% 0.81/1.56 , 0, 8, substitution( 0, [ :=( X, multiply( inverse( T ), U ) ), :=( Y,
% 0.81/1.56 divide( multiply( inverse( U ), T ), divide( Z, multiply( Y, X ) ) ) )] )
% 0.81/1.56 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, U ), :=( T, T ), :=(
% 0.81/1.56 U, Z )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1799, [ =( divide( inverse( Z ), multiply( multiply( inverse( T ),
% 0.81/1.56 U ), divide( multiply( inverse( U ), T ), divide( Z, multiply( Y, X ) ) )
% 0.81/1.56 ) ), divide( inverse( X ), Y ) ) ] )
% 0.81/1.56 , clause( 1798, [ =( divide( inverse( X ), Y ), divide( inverse( Z ),
% 0.81/1.56 multiply( multiply( inverse( T ), U ), divide( multiply( inverse( U ), T
% 0.81/1.56 ), divide( Z, multiply( Y, X ) ) ) ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.56 :=( U, U )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 25, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ), X
% 0.81/1.56 ), divide( multiply( inverse( X ), Y ), divide( Z, multiply( T, U ) ) )
% 0.81/1.56 ) ), divide( inverse( U ), T ) ) ] )
% 0.81/1.56 , clause( 1799, [ =( divide( inverse( Z ), multiply( multiply( inverse( T )
% 0.81/1.56 , U ), divide( multiply( inverse( U ), T ), divide( Z, multiply( Y, X ) )
% 0.81/1.56 ) ) ), divide( inverse( X ), Y ) ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, Z ), :=( T, Y ), :=( U
% 0.81/1.56 , X )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1801, [ =( Y, divide( inverse( divide( X, divide( Y, multiply(
% 0.81/1.56 inverse( Z ), T ) ) ) ), divide( multiply( inverse( T ), Z ), X ) ) ) ]
% 0.81/1.56 )
% 0.81/1.56 , clause( 14, [ =( divide( inverse( divide( Z, divide( T, multiply( inverse(
% 0.81/1.56 Y ), X ) ) ) ), divide( multiply( inverse( X ), Y ), Z ) ), T ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.56 ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1813, [ =( divide( X, Y ), divide( inverse( U ), divide( multiply(
% 0.81/1.56 inverse( T ), Z ), inverse( divide( multiply( inverse( Z ), T ), divide(
% 0.81/1.56 U, divide( Y, X ) ) ) ) ) ) ) ] )
% 0.81/1.56 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.56 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.56 , 0, clause( 1801, [ =( Y, divide( inverse( divide( X, divide( Y, multiply(
% 0.81/1.56 inverse( Z ), T ) ) ) ), divide( multiply( inverse( T ), Z ), X ) ) ) ]
% 0.81/1.56 )
% 0.81/1.56 , 0, 6, substitution( 0, [ :=( X, multiply( inverse( Z ), T ) ), :=( Y, U )
% 0.81/1.56 , :=( Z, Y ), :=( T, X )] ), substitution( 1, [ :=( X, inverse( divide(
% 0.81/1.56 multiply( inverse( Z ), T ), divide( U, divide( Y, X ) ) ) ) ), :=( Y,
% 0.81/1.56 divide( X, Y ) ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1814, [ =( divide( X, Y ), divide( inverse( Z ), multiply( multiply(
% 0.81/1.56 inverse( T ), U ), divide( multiply( inverse( U ), T ), divide( Z, divide(
% 0.81/1.56 Y, X ) ) ) ) ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1813, [ =( divide( X, Y ), divide( inverse( U ), divide(
% 0.81/1.56 multiply( inverse( T ), Z ), inverse( divide( multiply( inverse( Z ), T )
% 0.81/1.56 , divide( U, divide( Y, X ) ) ) ) ) ) ) ] )
% 0.81/1.56 , 0, 7, substitution( 0, [ :=( X, multiply( inverse( T ), U ) ), :=( Y,
% 0.81/1.56 divide( multiply( inverse( U ), T ), divide( Z, divide( Y, X ) ) ) )] ),
% 0.81/1.56 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, U ), :=( T, T ), :=( U
% 0.81/1.56 , Z )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1815, [ =( divide( inverse( Z ), multiply( multiply( inverse( T ),
% 0.81/1.56 U ), divide( multiply( inverse( U ), T ), divide( Z, divide( Y, X ) ) ) )
% 0.81/1.56 ), divide( X, Y ) ) ] )
% 0.81/1.56 , clause( 1814, [ =( divide( X, Y ), divide( inverse( Z ), multiply(
% 0.81/1.56 multiply( inverse( T ), U ), divide( multiply( inverse( U ), T ), divide(
% 0.81/1.56 Z, divide( Y, X ) ) ) ) ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.56 :=( U, U )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 26, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ), X
% 0.81/1.56 ), divide( multiply( inverse( X ), Y ), divide( Z, divide( T, U ) ) ) )
% 0.81/1.56 ), divide( U, T ) ) ] )
% 0.81/1.56 , clause( 1815, [ =( divide( inverse( Z ), multiply( multiply( inverse( T )
% 0.81/1.56 , U ), divide( multiply( inverse( U ), T ), divide( Z, divide( Y, X ) ) )
% 0.81/1.56 ) ), divide( X, Y ) ) ] )
% 0.81/1.56 , substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, Z ), :=( T, Y ), :=( U
% 0.81/1.56 , X )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 eqswap(
% 0.81/1.56 clause( 1816, [ =( divide( U, T ), divide( inverse( X ), multiply( divide(
% 0.81/1.56 Y, Z ), divide( divide( Z, Y ), divide( X, divide( T, U ) ) ) ) ) ) ] )
% 0.81/1.56 , clause( 3, [ =( divide( inverse( Z ), multiply( divide( Y, X ), divide(
% 0.81/1.56 divide( X, Y ), divide( Z, divide( T, U ) ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.56 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X ), :=( T, T ),
% 0.81/1.56 :=( U, U )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1824, [ =( divide( multiply( divide( X, Y ), divide( divide( Y, X )
% 0.81/1.56 , divide( Z, divide( T, U ) ) ) ), inverse( Z ) ), divide( inverse( W ),
% 0.81/1.56 multiply( divide( V0, V1 ), divide( divide( V1, V0 ), divide( W, divide(
% 0.81/1.56 U, T ) ) ) ) ) ) ] )
% 0.81/1.56 , clause( 3, [ =( divide( inverse( Z ), multiply( divide( Y, X ), divide(
% 0.81/1.56 divide( X, Y ), divide( Z, divide( T, U ) ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.56 , 0, clause( 1816, [ =( divide( U, T ), divide( inverse( X ), multiply(
% 0.81/1.56 divide( Y, Z ), divide( divide( Z, Y ), divide( X, divide( T, U ) ) ) ) )
% 0.81/1.56 ) ] )
% 0.81/1.56 , 0, 30, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, T )
% 0.81/1.56 , :=( U, U )] ), substitution( 1, [ :=( X, W ), :=( Y, V0 ), :=( Z, V1 )
% 0.81/1.56 , :=( T, inverse( Z ) ), :=( U, multiply( divide( X, Y ), divide( divide(
% 0.81/1.56 Y, X ), divide( Z, divide( T, U ) ) ) ) )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1827, [ =( divide( multiply( divide( X, Y ), divide( divide( Y, X )
% 0.81/1.56 , divide( Z, divide( T, U ) ) ) ), inverse( Z ) ), divide( T, U ) ) ] )
% 0.81/1.56 , clause( 3, [ =( divide( inverse( Z ), multiply( divide( Y, X ), divide(
% 0.81/1.56 divide( X, Y ), divide( Z, divide( T, U ) ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.56 , 0, clause( 1824, [ =( divide( multiply( divide( X, Y ), divide( divide( Y
% 0.81/1.56 , X ), divide( Z, divide( T, U ) ) ) ), inverse( Z ) ), divide( inverse(
% 0.81/1.56 W ), multiply( divide( V0, V1 ), divide( divide( V1, V0 ), divide( W,
% 0.81/1.56 divide( U, T ) ) ) ) ) ) ] )
% 0.81/1.56 , 0, 17, substitution( 0, [ :=( X, V1 ), :=( Y, V0 ), :=( Z, W ), :=( T, U
% 0.81/1.56 ), :=( U, T )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )
% 0.81/1.56 , :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 ), :=( V1, V1 )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 paramod(
% 0.81/1.56 clause( 1828, [ =( multiply( multiply( divide( X, Y ), divide( divide( Y, X
% 0.81/1.56 ), divide( Z, divide( T, U ) ) ) ), Z ), divide( T, U ) ) ] )
% 0.81/1.56 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.56 , 0, clause( 1827, [ =( divide( multiply( divide( X, Y ), divide( divide( Y
% 0.81/1.56 , X ), divide( Z, divide( T, U ) ) ) ), inverse( Z ) ), divide( T, U ) )
% 0.81/1.56 ] )
% 0.81/1.56 , 0, 1, substitution( 0, [ :=( X, multiply( divide( X, Y ), divide( divide(
% 0.81/1.56 Y, X ), divide( Z, divide( T, U ) ) ) ) ), :=( Y, Z )] ), substitution( 1
% 0.81/1.56 , [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.56
% 0.81/1.56
% 0.81/1.56 subsumption(
% 0.81/1.56 clause( 27, [ =( multiply( multiply( divide( Y, Z ), divide( divide( Z, Y )
% 0.81/1.56 , divide( X, divide( T, U ) ) ) ), X ), divide( T, U ) ) ] )
% 0.81/1.56 , clause( 1828, [ =( multiply( multiply( divide( X, Y ), divide( divide( Y
% 0.81/1.56 , X ), divide( Z, divide( T, U ) ) ) ), Z ), divide( T, U ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X ), :=( T, T ), :=( U
% 0.81/1.57 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1831, [ =( divide( T, U ), multiply( multiply( divide( X, Y ),
% 0.81/1.57 divide( divide( Y, X ), divide( Z, divide( T, U ) ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 27, [ =( multiply( multiply( divide( Y, Z ), divide( divide( Z, Y
% 0.81/1.57 ), divide( X, divide( T, U ) ) ) ), X ), divide( T, U ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, X ), :=( Z, Y ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1833, [ =( divide( inverse( divide( inverse( X ), divide( Y,
% 0.81/1.57 multiply( inverse( Z ), T ) ) ) ), multiply( multiply( inverse( T ), Z )
% 0.81/1.57 , X ) ), multiply( multiply( divide( U, W ), divide( divide( W, U ),
% 0.81/1.57 divide( V0, Y ) ) ), V0 ) ) ] )
% 0.81/1.57 , clause( 23, [ =( divide( inverse( divide( inverse( Z ), divide( T,
% 0.81/1.57 multiply( inverse( Y ), X ) ) ) ), multiply( multiply( inverse( X ), Y )
% 0.81/1.57 , Z ) ), T ) ] )
% 0.81/1.57 , 0, clause( 1831, [ =( divide( T, U ), multiply( multiply( divide( X, Y )
% 0.81/1.57 , divide( divide( Y, X ), divide( Z, divide( T, U ) ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 29, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 , substitution( 1, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T, inverse(
% 0.81/1.57 divide( inverse( X ), divide( Y, multiply( inverse( Z ), T ) ) ) ) ),
% 0.81/1.57 :=( U, multiply( multiply( inverse( T ), Z ), X ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1836, [ =( Y, multiply( multiply( divide( U, W ), divide( divide( W
% 0.81/1.57 , U ), divide( V0, Y ) ) ), V0 ) ) ] )
% 0.81/1.57 , clause( 23, [ =( divide( inverse( divide( inverse( Z ), divide( T,
% 0.81/1.57 multiply( inverse( Y ), X ) ) ) ), multiply( multiply( inverse( X ), Y )
% 0.81/1.57 , Z ) ), T ) ] )
% 0.81/1.57 , 0, clause( 1833, [ =( divide( inverse( divide( inverse( X ), divide( Y,
% 0.81/1.57 multiply( inverse( Z ), T ) ) ) ), multiply( multiply( inverse( T ), Z )
% 0.81/1.57 , X ) ), multiply( multiply( divide( U, W ), divide( divide( W, U ),
% 0.81/1.57 divide( V0, Y ) ) ), V0 ) ) ] )
% 0.81/1.57 , 0, 1, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=(
% 0.81/1.57 U, U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1838, [ =( multiply( multiply( divide( Y, Z ), divide( divide( Z, Y
% 0.81/1.57 ), divide( T, X ) ) ), T ), X ) ] )
% 0.81/1.57 , clause( 1836, [ =( Y, multiply( multiply( divide( U, W ), divide( divide(
% 0.81/1.57 W, U ), divide( V0, Y ) ) ), V0 ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, Y ), :=( W, Z ), :=( V0, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 28, [ =( multiply( multiply( divide( U, W ), divide( divide( W, U )
% 0.81/1.57 , divide( V0, Y ) ) ), V0 ), Y ) ] )
% 0.81/1.57 , clause( 1838, [ =( multiply( multiply( divide( Y, Z ), divide( divide( Z
% 0.81/1.57 , Y ), divide( T, X ) ) ), T ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Y ), :=( Y, U ), :=( Z, W ), :=( T, V0 )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1843, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y,
% 0.81/1.57 multiply( Z, T ) ) ) ), multiply( divide( inverse( T ), Z ), X ) ) ) ] )
% 0.81/1.57 , clause( 13, [ =( divide( inverse( divide( inverse( Z ), divide( T,
% 0.81/1.57 multiply( Y, X ) ) ) ), multiply( divide( inverse( X ), Y ), Z ) ), T ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1848, [ =( X, divide( inverse( divide( inverse( Y ), divide( X, W )
% 0.81/1.57 ) ), multiply( divide( inverse( U ), multiply( divide( Z, T ), divide(
% 0.81/1.57 divide( T, Z ), divide( U, W ) ) ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 28, [ =( multiply( multiply( divide( U, W ), divide( divide( W, U
% 0.81/1.57 ), divide( V0, Y ) ) ), V0 ), Y ) ] )
% 0.81/1.57 , 0, clause( 1843, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y
% 0.81/1.57 , multiply( Z, T ) ) ) ), multiply( divide( inverse( T ), Z ), X ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, 9, substitution( 0, [ :=( X, V0 ), :=( Y, W ), :=( Z, V1 ), :=( T, V2
% 0.81/1.57 ), :=( U, Z ), :=( W, T ), :=( V0, U )] ), substitution( 1, [ :=( X, Y )
% 0.81/1.57 , :=( Y, X ), :=( Z, multiply( divide( Z, T ), divide( divide( T, Z ),
% 0.81/1.57 divide( U, W ) ) ) ), :=( T, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1849, [ =( X, inverse( divide( inverse( T ), divide( divide( X, Z )
% 0.81/1.57 , divide( inverse( divide( divide( W, U ), divide( T, Z ) ) ), divide( U
% 0.81/1.57 , W ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 19, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.57 divide( X, multiply( T, Z ) ), U ) ), inverse( divide( X, divide( Y,
% 0.81/1.57 divide( inverse( Z ), T ) ) ) ) ) ] )
% 0.81/1.57 , 0, clause( 1848, [ =( X, divide( inverse( divide( inverse( Y ), divide( X
% 0.81/1.57 , W ) ) ), multiply( divide( inverse( U ), multiply( divide( Z, T ),
% 0.81/1.57 divide( divide( T, Z ), divide( U, W ) ) ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, 2, substitution( 0, [ :=( X, inverse( T ) ), :=( Y, divide( X, Z ) ),
% 0.81/1.57 :=( Z, divide( divide( W, U ), divide( T, Z ) ) ), :=( T, divide( U, W )
% 0.81/1.57 ), :=( U, Y )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, U )
% 0.81/1.57 , :=( T, W ), :=( U, T ), :=( W, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1850, [ =( inverse( divide( inverse( Y ), divide( divide( X, Z ),
% 0.81/1.57 divide( inverse( divide( divide( T, U ), divide( Y, Z ) ) ), divide( U, T
% 0.81/1.57 ) ) ) ) ), X ) ] )
% 0.81/1.57 , clause( 1849, [ =( X, inverse( divide( inverse( T ), divide( divide( X, Z
% 0.81/1.57 ), divide( inverse( divide( divide( W, U ), divide( T, Z ) ) ), divide(
% 0.81/1.57 U, W ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, W ), :=( Z, Z ), :=( T, Y ),
% 0.81/1.57 :=( U, U ), :=( W, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 32, [ =( inverse( divide( inverse( Z ), divide( divide( W, T ),
% 0.81/1.57 divide( inverse( divide( divide( Y, X ), divide( Z, T ) ) ), divide( X, Y
% 0.81/1.57 ) ) ) ) ), W ) ] )
% 0.81/1.57 , clause( 1850, [ =( inverse( divide( inverse( Y ), divide( divide( X, Z )
% 0.81/1.57 , divide( inverse( divide( divide( T, U ), divide( Y, Z ) ) ), divide( U
% 0.81/1.57 , T ) ) ) ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, W ), :=( Y, Z ), :=( Z, T ), :=( T, Y ), :=( U
% 0.81/1.57 , X )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1852, [ =( T, multiply( multiply( divide( X, Y ), divide( divide( Y
% 0.81/1.57 , X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 28, [ =( multiply( multiply( divide( U, W ), divide( divide( W, U
% 0.81/1.57 ), divide( V0, Y ) ) ), V0 ), Y ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, X ), :=( W, Y ), :=( V0, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1854, [ =( X, multiply( multiply( Z, divide( divide( divide( divide(
% 0.81/1.57 U, T ), Y ), inverse( divide( Y, divide( Z, divide( T, U ) ) ) ) ),
% 0.81/1.57 divide( W, X ) ) ), W ) ) ] )
% 0.81/1.57 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.57 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.57 , 0, clause( 1852, [ =( T, multiply( multiply( divide( X, Y ), divide(
% 0.81/1.57 divide( Y, X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, U )] )
% 0.81/1.57 , substitution( 1, [ :=( X, inverse( divide( Y, divide( Z, divide( T, U )
% 0.81/1.57 ) ) ) ), :=( Y, divide( divide( U, T ), Y ) ), :=( Z, W ), :=( T, X )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1859, [ =( X, multiply( multiply( Y, divide( multiply( divide(
% 0.81/1.57 divide( Z, T ), U ), divide( U, divide( Y, divide( T, Z ) ) ) ), divide(
% 0.81/1.57 W, X ) ) ), W ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1854, [ =( X, multiply( multiply( Z, divide( divide( divide(
% 0.81/1.57 divide( U, T ), Y ), inverse( divide( Y, divide( Z, divide( T, U ) ) ) )
% 0.81/1.57 ), divide( W, X ) ) ), W ) ) ] )
% 0.81/1.57 , 0, 6, substitution( 0, [ :=( X, divide( divide( Z, T ), U ) ), :=( Y,
% 0.81/1.57 divide( U, divide( Y, divide( T, Z ) ) ) )] ), substitution( 1, [ :=( X,
% 0.81/1.57 X ), :=( Y, U ), :=( Z, Y ), :=( T, T ), :=( U, Z ), :=( W, W )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1860, [ =( multiply( multiply( Y, divide( multiply( divide( divide(
% 0.81/1.57 Z, T ), U ), divide( U, divide( Y, divide( T, Z ) ) ) ), divide( W, X ) )
% 0.81/1.57 ), W ), X ) ] )
% 0.81/1.57 , clause( 1859, [ =( X, multiply( multiply( Y, divide( multiply( divide(
% 0.81/1.57 divide( Z, T ), U ), divide( U, divide( Y, divide( T, Z ) ) ) ), divide(
% 0.81/1.57 W, X ) ) ), W ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U ), :=( W, W )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 33, [ =( multiply( multiply( Y, divide( multiply( divide( divide( T
% 0.81/1.57 , Z ), X ), divide( X, divide( Y, divide( Z, T ) ) ) ), divide( U, W ) )
% 0.81/1.57 ), U ), W ) ] )
% 0.81/1.57 , clause( 1860, [ =( multiply( multiply( Y, divide( multiply( divide(
% 0.81/1.57 divide( Z, T ), U ), divide( U, divide( Y, divide( T, Z ) ) ) ), divide(
% 0.81/1.57 W, X ) ) ), W ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, W ), :=( Y, Y ), :=( Z, T ), :=( T, Z ), :=( U
% 0.81/1.57 , X ), :=( W, U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1862, [ =( T, multiply( multiply( divide( X, Y ), divide( divide( Y
% 0.81/1.57 , X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 28, [ =( multiply( multiply( divide( U, W ), divide( divide( W, U
% 0.81/1.57 ), divide( V0, Y ) ) ), V0 ), Y ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, X ), :=( W, Y ), :=( V0, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1865, [ =( X, multiply( multiply( divide( divide( divide( Y, Z ), T
% 0.81/1.57 ), inverse( divide( T, divide( U, divide( Z, Y ) ) ) ) ), divide( U,
% 0.81/1.57 divide( W, X ) ) ), W ) ) ] )
% 0.81/1.57 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.57 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.57 , 0, clause( 1862, [ =( T, multiply( multiply( divide( X, Y ), divide(
% 0.81/1.57 divide( Y, X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 19, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, Z ), :=( T, Y )] )
% 0.81/1.57 , substitution( 1, [ :=( X, divide( divide( Y, Z ), T ) ), :=( Y, inverse(
% 0.81/1.57 divide( T, divide( U, divide( Z, Y ) ) ) ) ), :=( Z, W ), :=( T, X )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1867, [ =( X, multiply( multiply( multiply( divide( divide( Y, Z )
% 0.81/1.57 , T ), divide( T, divide( U, divide( Z, Y ) ) ) ), divide( U, divide( W,
% 0.81/1.57 X ) ) ), W ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1865, [ =( X, multiply( multiply( divide( divide( divide( Y, Z
% 0.81/1.57 ), T ), inverse( divide( T, divide( U, divide( Z, Y ) ) ) ) ), divide( U
% 0.81/1.57 , divide( W, X ) ) ), W ) ) ] )
% 0.81/1.57 , 0, 4, substitution( 0, [ :=( X, divide( divide( Y, Z ), T ) ), :=( Y,
% 0.81/1.57 divide( T, divide( U, divide( Z, Y ) ) ) )] ), substitution( 1, [ :=( X,
% 0.81/1.57 X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U ), :=( W, W )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1868, [ =( multiply( multiply( multiply( divide( divide( Y, Z ), T
% 0.81/1.57 ), divide( T, divide( U, divide( Z, Y ) ) ) ), divide( U, divide( W, X )
% 0.81/1.57 ) ), W ), X ) ] )
% 0.81/1.57 , clause( 1867, [ =( X, multiply( multiply( multiply( divide( divide( Y, Z
% 0.81/1.57 ), T ), divide( T, divide( U, divide( Z, Y ) ) ) ), divide( U, divide( W
% 0.81/1.57 , X ) ) ), W ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U ), :=( W, W )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 34, [ =( multiply( multiply( multiply( divide( divide( T, Z ), X )
% 0.81/1.57 , divide( X, divide( Y, divide( Z, T ) ) ) ), divide( Y, divide( U, W ) )
% 0.81/1.57 ), U ), W ) ] )
% 0.81/1.57 , clause( 1868, [ =( multiply( multiply( multiply( divide( divide( Y, Z ),
% 0.81/1.57 T ), divide( T, divide( U, divide( Z, Y ) ) ) ), divide( U, divide( W, X
% 0.81/1.57 ) ) ), W ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, W ), :=( Y, T ), :=( Z, Z ), :=( T, X ), :=( U
% 0.81/1.57 , Y ), :=( W, U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1870, [ =( T, multiply( multiply( divide( X, Y ), divide( divide( Y
% 0.81/1.57 , X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 28, [ =( multiply( multiply( divide( U, W ), divide( divide( W, U
% 0.81/1.57 ), divide( V0, Y ) ) ), V0 ), Y ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, X ), :=( W, Y ), :=( V0, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1873, [ =( X, multiply( multiply( multiply( Y, Z ), divide( divide(
% 0.81/1.57 inverse( Z ), Y ), divide( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1870, [ =( T, multiply( multiply( divide( X, Y ), divide(
% 0.81/1.57 divide( Y, X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, Z )] ), substitution( 1, [
% 0.81/1.57 :=( X, Y ), :=( Y, inverse( Z ) ), :=( Z, T ), :=( T, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1876, [ =( multiply( multiply( multiply( Y, Z ), divide( divide(
% 0.81/1.57 inverse( Z ), Y ), divide( T, X ) ) ), T ), X ) ] )
% 0.81/1.57 , clause( 1873, [ =( X, multiply( multiply( multiply( Y, Z ), divide(
% 0.81/1.57 divide( inverse( Z ), Y ), divide( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 35, [ =( multiply( multiply( multiply( X, Y ), divide( divide(
% 0.81/1.57 inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.57 , clause( 1876, [ =( multiply( multiply( multiply( Y, Z ), divide( divide(
% 0.81/1.57 inverse( Z ), Y ), divide( T, X ) ) ), T ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, T ), :=( Y, X ), :=( Z, Y ), :=( T, Z )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1880, [ =( T, multiply( multiply( divide( X, Y ), divide( divide( Y
% 0.81/1.57 , X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 28, [ =( multiply( multiply( divide( U, W ), divide( divide( W, U
% 0.81/1.57 ), divide( V0, Y ) ) ), V0 ), Y ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, X ), :=( W, Y ), :=( V0, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1884, [ =( X, multiply( multiply( divide( inverse( Y ), Z ), divide(
% 0.81/1.57 multiply( Z, Y ), divide( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1880, [ =( T, multiply( multiply( divide( X, Y ), divide(
% 0.81/1.57 divide( Y, X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 9, substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), substitution( 1, [
% 0.81/1.57 :=( X, inverse( Y ) ), :=( Y, Z ), :=( Z, T ), :=( T, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1887, [ =( multiply( multiply( divide( inverse( Y ), Z ), divide(
% 0.81/1.57 multiply( Z, Y ), divide( T, X ) ) ), T ), X ) ] )
% 0.81/1.57 , clause( 1884, [ =( X, multiply( multiply( divide( inverse( Y ), Z ),
% 0.81/1.57 divide( multiply( Z, Y ), divide( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 36, [ =( multiply( multiply( divide( inverse( Y ), X ), divide(
% 0.81/1.57 multiply( X, Y ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.57 , clause( 1887, [ =( multiply( multiply( divide( inverse( Y ), Z ), divide(
% 0.81/1.57 multiply( Z, Y ), divide( T, X ) ) ), T ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, T ), :=( Y, Y ), :=( Z, X ), :=( T, Z )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1890, [ =( T, multiply( multiply( divide( X, Y ), divide( divide( Y
% 0.81/1.57 , X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 28, [ =( multiply( multiply( divide( U, W ), divide( divide( W, U
% 0.81/1.57 ), divide( V0, Y ) ) ), V0 ), Y ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, X ), :=( W, Y ), :=( V0, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1895, [ =( inverse( X ), multiply( multiply( divide( Y, Z ), divide(
% 0.81/1.57 divide( Z, Y ), multiply( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1890, [ =( T, multiply( multiply( divide( X, Y ), divide(
% 0.81/1.57 divide( Y, X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 12, substitution( 0, [ :=( X, T ), :=( Y, X )] ), substitution( 1, [
% 0.81/1.57 :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, inverse( X ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1898, [ =( multiply( multiply( divide( Y, Z ), divide( divide( Z, Y
% 0.81/1.57 ), multiply( T, X ) ) ), T ), inverse( X ) ) ] )
% 0.81/1.57 , clause( 1895, [ =( inverse( X ), multiply( multiply( divide( Y, Z ),
% 0.81/1.57 divide( divide( Z, Y ), multiply( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 37, [ =( multiply( multiply( divide( Z, T ), divide( divide( T, Z )
% 0.81/1.57 , multiply( X, Y ) ) ), X ), inverse( Y ) ) ] )
% 0.81/1.57 , clause( 1898, [ =( multiply( multiply( divide( Y, Z ), divide( divide( Z
% 0.81/1.57 , Y ), multiply( T, X ) ) ), T ), inverse( X ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, X )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1900, [ =( T, multiply( multiply( divide( inverse( X ), Y ), divide(
% 0.81/1.57 multiply( Y, X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 36, [ =( multiply( multiply( divide( inverse( Y ), X ), divide(
% 0.81/1.57 multiply( X, Y ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1903, [ =( X, multiply( multiply( multiply( inverse( Y ), Z ),
% 0.81/1.57 divide( multiply( inverse( Z ), Y ), divide( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1900, [ =( T, multiply( multiply( divide( inverse( X ), Y ),
% 0.81/1.57 divide( multiply( Y, X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 4, substitution( 0, [ :=( X, inverse( Y ) ), :=( Y, Z )] ),
% 0.81/1.57 substitution( 1, [ :=( X, Y ), :=( Y, inverse( Z ) ), :=( Z, T ), :=( T,
% 0.81/1.57 X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1905, [ =( multiply( multiply( multiply( inverse( Y ), Z ), divide(
% 0.81/1.57 multiply( inverse( Z ), Y ), divide( T, X ) ) ), T ), X ) ] )
% 0.81/1.57 , clause( 1903, [ =( X, multiply( multiply( multiply( inverse( Y ), Z ),
% 0.81/1.57 divide( multiply( inverse( Z ), Y ), divide( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 40, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.57 multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.57 , clause( 1905, [ =( multiply( multiply( multiply( inverse( Y ), Z ),
% 0.81/1.57 divide( multiply( inverse( Z ), Y ), divide( T, X ) ) ), T ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, T ), :=( Y, X ), :=( Z, Y ), :=( T, Z )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1908, [ =( T, multiply( multiply( divide( inverse( X ), Y ), divide(
% 0.81/1.57 multiply( Y, X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 36, [ =( multiply( multiply( divide( inverse( Y ), X ), divide(
% 0.81/1.57 multiply( X, Y ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1912, [ =( inverse( X ), multiply( multiply( divide( inverse( Y ),
% 0.81/1.57 Z ), divide( multiply( Z, Y ), multiply( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1908, [ =( T, multiply( multiply( divide( inverse( X ), Y ),
% 0.81/1.57 divide( multiply( Y, X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 13, substitution( 0, [ :=( X, T ), :=( Y, X )] ), substitution( 1, [
% 0.81/1.57 :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, inverse( X ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1914, [ =( multiply( multiply( divide( inverse( Y ), Z ), divide(
% 0.81/1.57 multiply( Z, Y ), multiply( T, X ) ) ), T ), inverse( X ) ) ] )
% 0.81/1.57 , clause( 1912, [ =( inverse( X ), multiply( multiply( divide( inverse( Y )
% 0.81/1.57 , Z ), divide( multiply( Z, Y ), multiply( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 41, [ =( multiply( multiply( divide( inverse( Z ), T ), divide(
% 0.81/1.57 multiply( T, Z ), multiply( X, Y ) ) ), X ), inverse( Y ) ) ] )
% 0.81/1.57 , clause( 1914, [ =( multiply( multiply( divide( inverse( Y ), Z ), divide(
% 0.81/1.57 multiply( Z, Y ), multiply( T, X ) ) ), T ), inverse( X ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, X )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1916, [ =( inverse( T ), multiply( multiply( divide( X, Y ), divide(
% 0.81/1.57 divide( Y, X ), multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 37, [ =( multiply( multiply( divide( Z, T ), divide( divide( T, Z
% 0.81/1.57 ), multiply( X, Y ) ) ), X ), inverse( Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1919, [ =( inverse( X ), multiply( multiply( multiply( Y, Z ),
% 0.81/1.57 divide( divide( inverse( Z ), Y ), multiply( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1916, [ =( inverse( T ), multiply( multiply( divide( X, Y ),
% 0.81/1.57 divide( divide( Y, X ), multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 5, substitution( 0, [ :=( X, Y ), :=( Y, Z )] ), substitution( 1, [
% 0.81/1.57 :=( X, Y ), :=( Y, inverse( Z ) ), :=( Z, T ), :=( T, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1921, [ =( multiply( multiply( multiply( Y, Z ), divide( divide(
% 0.81/1.57 inverse( Z ), Y ), multiply( T, X ) ) ), T ), inverse( X ) ) ] )
% 0.81/1.57 , clause( 1919, [ =( inverse( X ), multiply( multiply( multiply( Y, Z ),
% 0.81/1.57 divide( divide( inverse( Z ), Y ), multiply( T, X ) ) ), T ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 44, [ =( multiply( multiply( multiply( X, Y ), divide( divide(
% 0.81/1.57 inverse( Y ), X ), multiply( Z, T ) ) ), Z ), inverse( T ) ) ] )
% 0.81/1.57 , clause( 1921, [ =( multiply( multiply( multiply( Y, Z ), divide( divide(
% 0.81/1.57 inverse( Z ), Y ), multiply( T, X ) ) ), T ), inverse( X ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, T ), :=( Y, X ), :=( Z, Y ), :=( T, Z )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1923, [ =( inverse( divide( Z, divide( Y, divide( U, T ) ) ) ),
% 0.81/1.57 divide( inverse( divide( X, Y ) ), divide( divide( Z, divide( T, U ) ), X
% 0.81/1.57 ) ) ) ] )
% 0.81/1.57 , clause( 4, [ =( divide( inverse( divide( U, Y ) ), divide( divide( X,
% 0.81/1.57 divide( T, Z ) ), U ) ), inverse( divide( X, divide( Y, divide( Z, T ) )
% 0.81/1.57 ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, U ), :=( T, T ),
% 0.81/1.57 :=( U, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1928, [ =( inverse( divide( X, divide( divide( Y, divide( divide( Z
% 0.81/1.57 , T ), X ) ), divide( T, Z ) ) ) ), Y ) ] )
% 0.81/1.57 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.57 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.57 , 0, clause( 1923, [ =( inverse( divide( Z, divide( Y, divide( U, T ) ) ) )
% 0.81/1.57 , divide( inverse( divide( X, Y ) ), divide( divide( Z, divide( T, U ) )
% 0.81/1.57 , X ) ) ) ] )
% 0.81/1.57 , 0, 15, substitution( 0, [ :=( X, U ), :=( Y, Y ), :=( Z, divide( Z, T ) )
% 0.81/1.57 , :=( T, X )] ), substitution( 1, [ :=( X, U ), :=( Y, divide( Y, divide(
% 0.81/1.57 divide( Z, T ), X ) ) ), :=( Z, X ), :=( T, Z ), :=( U, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 46, [ =( inverse( divide( U, divide( divide( Y, divide( divide( Z,
% 0.81/1.57 T ), U ) ), divide( T, Z ) ) ) ), Y ) ] )
% 0.81/1.57 , clause( 1928, [ =( inverse( divide( X, divide( divide( Y, divide( divide(
% 0.81/1.57 Z, T ), X ) ), divide( T, Z ) ) ) ), Y ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1940, [ =( Y, inverse( divide( X, divide( divide( Y, divide( divide(
% 0.81/1.57 Z, T ), X ) ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 46, [ =( inverse( divide( U, divide( divide( Y, divide( divide( Z
% 0.81/1.57 , T ), U ) ), divide( T, Z ) ) ) ), Y ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1945, [ =( X, inverse( inverse( divide( X, divide( T, divide(
% 0.81/1.57 inverse( divide( divide( Y, Z ), T ) ), divide( Z, Y ) ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 4, [ =( divide( inverse( divide( U, Y ) ), divide( divide( X,
% 0.81/1.57 divide( T, Z ) ), U ) ), inverse( divide( X, divide( Y, divide( Z, T ) )
% 0.81/1.57 ) ) ) ] )
% 0.81/1.57 , 0, clause( 1940, [ =( Y, inverse( divide( X, divide( divide( Y, divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.57 , 0, 3, substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, inverse( divide(
% 0.81/1.57 divide( Y, Z ), T ) ) ), :=( T, divide( Z, Y ) ), :=( U, divide( Y, Z ) )] )
% 0.81/1.57 , substitution( 1, [ :=( X, inverse( divide( divide( Y, Z ), T ) ) ),
% 0.81/1.57 :=( Y, X ), :=( Z, Z ), :=( T, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1949, [ =( inverse( inverse( divide( X, divide( Y, divide( inverse(
% 0.81/1.57 divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ), X ) ] )
% 0.81/1.57 , clause( 1945, [ =( X, inverse( inverse( divide( X, divide( T, divide(
% 0.81/1.57 inverse( divide( divide( Y, Z ), T ) ), divide( Z, Y ) ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, T ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 50, [ =( inverse( inverse( divide( T, divide( Z, divide( inverse(
% 0.81/1.57 divide( divide( X, Y ), Z ) ), divide( Y, X ) ) ) ) ) ), T ) ] )
% 0.81/1.57 , clause( 1949, [ =( inverse( inverse( divide( X, divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ), X ) ]
% 0.81/1.57 )
% 0.81/1.57 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1954, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1961, [ =( multiply( X, divide( Y, divide( divide( Z, divide(
% 0.81/1.57 divide( T, U ), Y ) ), divide( U, T ) ) ) ), divide( X, Z ) ) ] )
% 0.81/1.57 , clause( 46, [ =( inverse( divide( U, divide( divide( Y, divide( divide( Z
% 0.81/1.57 , T ), U ) ), divide( T, Z ) ) ) ), Y ) ] )
% 0.81/1.57 , 0, clause( 1954, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , 0, 18, substitution( 0, [ :=( X, W ), :=( Y, Z ), :=( Z, T ), :=( T, U )
% 0.81/1.57 , :=( U, Y )] ), substitution( 1, [ :=( X, X ), :=( Y, divide( Y, divide(
% 0.81/1.57 divide( Z, divide( divide( T, U ), Y ) ), divide( U, T ) ) ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 51, [ =( multiply( U, divide( X, divide( divide( Y, divide( divide(
% 0.81/1.57 Z, T ), X ) ), divide( T, Z ) ) ) ), divide( U, Y ) ) ] )
% 0.81/1.57 , clause( 1961, [ =( multiply( X, divide( Y, divide( divide( Z, divide(
% 0.81/1.57 divide( T, U ), Y ) ), divide( U, T ) ) ) ), divide( X, Z ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, Y ), :=( T, Z ), :=( U
% 0.81/1.57 , T )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1964, [ =( Y, inverse( divide( X, divide( divide( Y, divide( divide(
% 0.81/1.57 Z, T ), X ) ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 46, [ =( inverse( divide( U, divide( divide( Y, divide( divide( Z
% 0.81/1.57 , T ), U ) ), divide( T, Z ) ) ) ), Y ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1968, [ =( X, inverse( divide( Y, divide( divide( X, divide(
% 0.81/1.57 multiply( Z, T ), Y ) ), divide( inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1964, [ =( Y, inverse( divide( X, divide( divide( Y, divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.57 , 0, 9, substitution( 0, [ :=( X, Z ), :=( Y, T )] ), substitution( 1, [
% 0.81/1.57 :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, inverse( T ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1971, [ =( inverse( divide( Y, divide( divide( X, divide( multiply(
% 0.81/1.57 Z, T ), Y ) ), divide( inverse( T ), Z ) ) ) ), X ) ] )
% 0.81/1.57 , clause( 1968, [ =( X, inverse( divide( Y, divide( divide( X, divide(
% 0.81/1.57 multiply( Z, T ), Y ) ), divide( inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 52, [ =( inverse( divide( Z, divide( divide( T, divide( multiply( X
% 0.81/1.57 , Y ), Z ) ), divide( inverse( Y ), X ) ) ) ), T ) ] )
% 0.81/1.57 , clause( 1971, [ =( inverse( divide( Y, divide( divide( X, divide(
% 0.81/1.57 multiply( Z, T ), Y ) ), divide( inverse( T ), Z ) ) ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1974, [ =( Y, inverse( divide( X, divide( divide( Y, divide( divide(
% 0.81/1.57 Z, T ), X ) ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 46, [ =( inverse( divide( U, divide( divide( Y, divide( divide( Z
% 0.81/1.57 , T ), U ) ), divide( T, Z ) ) ) ), Y ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1979, [ =( X, inverse( divide( Y, divide( divide( X, divide( divide(
% 0.81/1.57 inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1974, [ =( Y, inverse( divide( X, divide( divide( Y, divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.57 , 0, 14, substitution( 0, [ :=( X, T ), :=( Y, Z )] ), substitution( 1, [
% 0.81/1.57 :=( X, Y ), :=( Y, X ), :=( Z, inverse( Z ) ), :=( T, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1982, [ =( inverse( divide( Y, divide( divide( X, divide( divide(
% 0.81/1.57 inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) ), X ) ] )
% 0.81/1.57 , clause( 1979, [ =( X, inverse( divide( Y, divide( divide( X, divide(
% 0.81/1.57 divide( inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 53, [ =( inverse( divide( Z, divide( divide( T, divide( divide(
% 0.81/1.57 inverse( Y ), X ), Z ) ), multiply( X, Y ) ) ) ), T ) ] )
% 0.81/1.57 , clause( 1982, [ =( inverse( divide( Y, divide( divide( X, divide( divide(
% 0.81/1.57 inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y ), :=( T, X )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1984, [ =( inverse( T ), multiply( multiply( divide( inverse( X ),
% 0.81/1.57 Y ), divide( multiply( Y, X ), multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 41, [ =( multiply( multiply( divide( inverse( Z ), T ), divide(
% 0.81/1.57 multiply( T, Z ), multiply( X, Y ) ) ), X ), inverse( Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1987, [ =( inverse( X ), multiply( multiply( multiply( inverse( Y )
% 0.81/1.57 , Z ), divide( multiply( inverse( Z ), Y ), multiply( T, X ) ) ), T ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1984, [ =( inverse( T ), multiply( multiply( divide( inverse(
% 0.81/1.57 X ), Y ), divide( multiply( Y, X ), multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 5, substitution( 0, [ :=( X, inverse( Y ) ), :=( Y, Z )] ),
% 0.81/1.57 substitution( 1, [ :=( X, Y ), :=( Y, inverse( Z ) ), :=( Z, T ), :=( T,
% 0.81/1.57 X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1988, [ =( multiply( multiply( multiply( inverse( Y ), Z ), divide(
% 0.81/1.57 multiply( inverse( Z ), Y ), multiply( T, X ) ) ), T ), inverse( X ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 1987, [ =( inverse( X ), multiply( multiply( multiply( inverse( Y
% 0.81/1.57 ), Z ), divide( multiply( inverse( Z ), Y ), multiply( T, X ) ) ), T ) )
% 0.81/1.57 ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 56, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.57 multiply( inverse( Y ), X ), multiply( Z, T ) ) ), Z ), inverse( T ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 1988, [ =( multiply( multiply( multiply( inverse( Y ), Z ),
% 0.81/1.57 divide( multiply( inverse( Z ), Y ), multiply( T, X ) ) ), T ), inverse(
% 0.81/1.57 X ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, T ), :=( Y, X ), :=( Z, Y ), :=( T, Z )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1990, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y,
% 0.81/1.57 divide( inverse( Z ), T ) ) ) ), multiply( multiply( T, Z ), X ) ) ) ] )
% 0.81/1.57 , clause( 17, [ =( divide( inverse( divide( inverse( Z ), divide( T, divide(
% 0.81/1.57 inverse( Y ), X ) ) ) ), multiply( multiply( X, Y ), Z ) ), T ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1993, [ =( X, divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.57 divide( inverse( divide( divide( inverse( Z ), T ), multiply( Y, U ) ) )
% 0.81/1.57 , multiply( T, Z ) ) ) ) ), inverse( U ) ) ) ] )
% 0.81/1.57 , clause( 44, [ =( multiply( multiply( multiply( X, Y ), divide( divide(
% 0.81/1.57 inverse( Y ), X ), multiply( Z, T ) ) ), Z ), inverse( T ) ) ] )
% 0.81/1.57 , 0, clause( 1990, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y
% 0.81/1.57 , divide( inverse( Z ), T ) ) ) ), multiply( multiply( T, Z ), X ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, 22, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y ), :=( T, U )] )
% 0.81/1.57 , substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, divide( divide(
% 0.81/1.57 inverse( Z ), T ), multiply( Y, U ) ) ), :=( T, multiply( T, Z ) )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 1995, [ =( X, multiply( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.57 divide( inverse( divide( divide( inverse( Z ), T ), multiply( Y, U ) ) )
% 0.81/1.57 , multiply( T, Z ) ) ) ) ), U ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 1993, [ =( X, divide( inverse( divide( inverse( Y ), divide( X
% 0.81/1.57 , divide( inverse( divide( divide( inverse( Z ), T ), multiply( Y, U ) )
% 0.81/1.57 ), multiply( T, Z ) ) ) ) ), inverse( U ) ) ) ] )
% 0.81/1.57 , 0, 2, substitution( 0, [ :=( X, inverse( divide( inverse( Y ), divide( X
% 0.81/1.57 , divide( inverse( divide( divide( inverse( Z ), T ), multiply( Y, U ) )
% 0.81/1.57 ), multiply( T, Z ) ) ) ) ) ), :=( Y, U )] ), substitution( 1, [ :=( X,
% 0.81/1.57 X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1996, [ =( multiply( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.57 divide( inverse( divide( divide( inverse( Z ), T ), multiply( Y, U ) ) )
% 0.81/1.57 , multiply( T, Z ) ) ) ) ), U ), X ) ] )
% 0.81/1.57 , clause( 1995, [ =( X, multiply( inverse( divide( inverse( Y ), divide( X
% 0.81/1.57 , divide( inverse( divide( divide( inverse( Z ), T ), multiply( Y, U ) )
% 0.81/1.57 ), multiply( T, Z ) ) ) ) ), U ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 57, [ =( multiply( inverse( divide( inverse( Z ), divide( U, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Y ), X ), multiply( Z, T ) ) ),
% 0.81/1.57 multiply( X, Y ) ) ) ) ), T ), U ) ] )
% 0.81/1.57 , clause( 1996, [ =( multiply( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.57 divide( inverse( divide( divide( inverse( Z ), T ), multiply( Y, U ) ) )
% 0.81/1.57 , multiply( T, Z ) ) ) ) ), U ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, Z ), :=( Z, Y ), :=( T, X ), :=( U
% 0.81/1.57 , T )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 1998, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y,
% 0.81/1.57 multiply( Z, T ) ) ) ), multiply( divide( inverse( T ), Z ), X ) ) ) ] )
% 0.81/1.57 , clause( 13, [ =( divide( inverse( divide( inverse( Z ), divide( T,
% 0.81/1.57 multiply( Y, X ) ) ) ), multiply( divide( inverse( X ), Y ), Z ) ), T ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2002, [ =( X, divide( inverse( divide( inverse( Y ), divide( X,
% 0.81/1.57 inverse( W ) ) ) ), multiply( divide( inverse( U ), multiply( multiply( Z
% 0.81/1.57 , T ), divide( divide( inverse( T ), Z ), multiply( U, W ) ) ) ), Y ) ) )
% 0.81/1.57 ] )
% 0.81/1.57 , clause( 44, [ =( multiply( multiply( multiply( X, Y ), divide( divide(
% 0.81/1.57 inverse( Y ), X ), multiply( Z, T ) ) ), Z ), inverse( T ) ) ] )
% 0.81/1.57 , 0, clause( 1998, [ =( Y, divide( inverse( divide( inverse( X ), divide( Y
% 0.81/1.57 , multiply( Z, T ) ) ) ), multiply( divide( inverse( T ), Z ), X ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, 9, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T, W )] )
% 0.81/1.57 , substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, multiply( multiply( Z
% 0.81/1.57 , T ), divide( divide( inverse( T ), Z ), multiply( U, W ) ) ) ), :=( T,
% 0.81/1.57 U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2003, [ =( X, inverse( divide( inverse( T ), divide( divide( X,
% 0.81/1.57 inverse( Z ) ), divide( inverse( divide( divide( inverse( W ), U ),
% 0.81/1.57 multiply( T, Z ) ) ), multiply( U, W ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 19, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.57 divide( X, multiply( T, Z ) ), U ) ), inverse( divide( X, divide( Y,
% 0.81/1.57 divide( inverse( Z ), T ) ) ) ) ) ] )
% 0.81/1.57 , 0, clause( 2002, [ =( X, divide( inverse( divide( inverse( Y ), divide( X
% 0.81/1.57 , inverse( W ) ) ) ), multiply( divide( inverse( U ), multiply( multiply(
% 0.81/1.57 Z, T ), divide( divide( inverse( T ), Z ), multiply( U, W ) ) ) ), Y ) )
% 0.81/1.57 ) ] )
% 0.81/1.57 , 0, 2, substitution( 0, [ :=( X, inverse( T ) ), :=( Y, divide( X, inverse(
% 0.81/1.57 Z ) ) ), :=( Z, divide( divide( inverse( W ), U ), multiply( T, Z ) ) ),
% 0.81/1.57 :=( T, multiply( U, W ) ), :=( U, Y )] ), substitution( 1, [ :=( X, X ),
% 0.81/1.57 :=( Y, Y ), :=( Z, U ), :=( T, W ), :=( U, T ), :=( W, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2004, [ =( X, inverse( divide( inverse( Y ), divide( multiply( X, Z
% 0.81/1.57 ), divide( inverse( divide( divide( inverse( T ), U ), multiply( Y, Z )
% 0.81/1.57 ) ), multiply( U, T ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2003, [ =( X, inverse( divide( inverse( T ), divide( divide( X
% 0.81/1.57 , inverse( Z ) ), divide( inverse( divide( divide( inverse( W ), U ),
% 0.81/1.57 multiply( T, Z ) ) ), multiply( U, W ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, 7, substitution( 0, [ :=( X, X ), :=( Y, Z )] ), substitution( 1, [
% 0.81/1.57 :=( X, X ), :=( Y, W ), :=( Z, Z ), :=( T, Y ), :=( U, U ), :=( W, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2005, [ =( inverse( divide( inverse( Y ), divide( multiply( X, Z )
% 0.81/1.57 , divide( inverse( divide( divide( inverse( T ), U ), multiply( Y, Z ) )
% 0.81/1.57 ), multiply( U, T ) ) ) ) ), X ) ] )
% 0.81/1.57 , clause( 2004, [ =( X, inverse( divide( inverse( Y ), divide( multiply( X
% 0.81/1.57 , Z ), divide( inverse( divide( divide( inverse( T ), U ), multiply( Y, Z
% 0.81/1.57 ) ) ), multiply( U, T ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 58, [ =( inverse( divide( inverse( Z ), divide( multiply( W, T ),
% 0.81/1.57 divide( inverse( divide( divide( inverse( Y ), X ), multiply( Z, T ) ) )
% 0.81/1.57 , multiply( X, Y ) ) ) ) ), W ) ] )
% 0.81/1.57 , clause( 2005, [ =( inverse( divide( inverse( Y ), divide( multiply( X, Z
% 0.81/1.57 ), divide( inverse( divide( divide( inverse( T ), U ), multiply( Y, Z )
% 0.81/1.57 ) ), multiply( U, T ) ) ) ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, W ), :=( Y, Z ), :=( Z, T ), :=( T, Y ), :=( U
% 0.81/1.57 , X )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2007, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2012, [ =( multiply( X, divide( Y, divide( divide( Z, divide(
% 0.81/1.57 multiply( T, U ), Y ) ), divide( inverse( U ), T ) ) ) ), divide( X, Z )
% 0.81/1.57 ) ] )
% 0.81/1.57 , clause( 52, [ =( inverse( divide( Z, divide( divide( T, divide( multiply(
% 0.81/1.57 X, Y ), Z ) ), divide( inverse( Y ), X ) ) ) ), T ) ] )
% 0.81/1.57 , 0, clause( 2007, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , 0, 19, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, Y ), :=( T, Z )] )
% 0.81/1.57 , substitution( 1, [ :=( X, X ), :=( Y, divide( Y, divide( divide( Z,
% 0.81/1.57 divide( multiply( T, U ), Y ) ), divide( inverse( U ), T ) ) ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 60, [ =( multiply( U, divide( X, divide( divide( Y, divide(
% 0.81/1.57 multiply( Z, T ), X ) ), divide( inverse( T ), Z ) ) ) ), divide( U, Y )
% 0.81/1.57 ) ] )
% 0.81/1.57 , clause( 2012, [ =( multiply( X, divide( Y, divide( divide( Z, divide(
% 0.81/1.57 multiply( T, U ), Y ) ), divide( inverse( U ), T ) ) ) ), divide( X, Z )
% 0.81/1.57 ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, Y ), :=( T, Z ), :=( U
% 0.81/1.57 , T )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2015, [ =( Y, inverse( divide( X, divide( divide( Y, divide(
% 0.81/1.57 multiply( Z, T ), X ) ), divide( inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 52, [ =( inverse( divide( Z, divide( divide( T, divide( multiply(
% 0.81/1.57 X, Y ), Z ) ), divide( inverse( Y ), X ) ) ) ), T ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2018, [ =( X, inverse( divide( inverse( Y ), divide( divide( X,
% 0.81/1.57 multiply( multiply( Z, T ), Y ) ), divide( inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2015, [ =( Y, inverse( divide( X, divide( divide( Y, divide(
% 0.81/1.57 multiply( Z, T ), X ) ), divide( inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.57 , 0, 9, substitution( 0, [ :=( X, multiply( Z, T ) ), :=( Y, Y )] ),
% 0.81/1.57 substitution( 1, [ :=( X, inverse( Y ) ), :=( Y, X ), :=( Z, Z ), :=( T,
% 0.81/1.57 T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2020, [ =( inverse( divide( inverse( Y ), divide( divide( X,
% 0.81/1.57 multiply( multiply( Z, T ), Y ) ), divide( inverse( T ), Z ) ) ) ), X ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 2018, [ =( X, inverse( divide( inverse( Y ), divide( divide( X,
% 0.81/1.57 multiply( multiply( Z, T ), Y ) ), divide( inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 61, [ =( inverse( divide( inverse( Z ), divide( divide( T, multiply(
% 0.81/1.57 multiply( X, Y ), Z ) ), divide( inverse( Y ), X ) ) ) ), T ) ] )
% 0.81/1.57 , clause( 2020, [ =( inverse( divide( inverse( Y ), divide( divide( X,
% 0.81/1.57 multiply( multiply( Z, T ), Y ) ), divide( inverse( T ), Z ) ) ) ), X ) ]
% 0.81/1.57 )
% 0.81/1.57 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2023, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2028, [ =( multiply( X, divide( Y, divide( divide( Z, divide(
% 0.81/1.57 divide( inverse( T ), U ), Y ) ), multiply( U, T ) ) ) ), divide( X, Z )
% 0.81/1.57 ) ] )
% 0.81/1.57 , clause( 53, [ =( inverse( divide( Z, divide( divide( T, divide( divide(
% 0.81/1.57 inverse( Y ), X ), Z ) ), multiply( X, Y ) ) ) ), T ) ] )
% 0.81/1.57 , 0, clause( 2023, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , 0, 19, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, Y ), :=( T, Z )] )
% 0.81/1.57 , substitution( 1, [ :=( X, X ), :=( Y, divide( Y, divide( divide( Z,
% 0.81/1.57 divide( divide( inverse( T ), U ), Y ) ), multiply( U, T ) ) ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 66, [ =( multiply( U, divide( X, divide( divide( Y, divide( divide(
% 0.81/1.57 inverse( Z ), T ), X ) ), multiply( T, Z ) ) ) ), divide( U, Y ) ) ] )
% 0.81/1.57 , clause( 2028, [ =( multiply( X, divide( Y, divide( divide( Z, divide(
% 0.81/1.57 divide( inverse( T ), U ), Y ) ), multiply( U, T ) ) ) ), divide( X, Z )
% 0.81/1.57 ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, Y ), :=( T, Z ), :=( U
% 0.81/1.57 , T )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2031, [ =( X, inverse( inverse( divide( X, divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 50, [ =( inverse( inverse( divide( T, divide( Z, divide( inverse(
% 0.81/1.57 divide( divide( X, Y ), Z ) ), divide( Y, X ) ) ) ) ) ), T ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, Y ), :=( T, X )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2032, [ =( inverse( divide( divide( inverse( divide( divide( X, Y )
% 0.81/1.57 , divide( Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ) ),
% 0.81/1.57 inverse( inverse( U ) ) ) ] )
% 0.81/1.57 , clause( 0, [ =( divide( inverse( divide( X, divide( Y, divide( Z, T ) ) )
% 0.81/1.57 ), divide( divide( T, Z ), X ) ), Y ) ] )
% 0.81/1.57 , 0, clause( 2031, [ =( X, inverse( inverse( divide( X, divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, 22, substitution( 0, [ :=( X, divide( inverse( divide( divide( X, Y )
% 0.81/1.57 , divide( Z, T ) ) ), divide( Y, X ) ) ), :=( Y, U ), :=( Z, T ), :=( T,
% 0.81/1.57 Z )] ), substitution( 1, [ :=( X, inverse( divide( divide( inverse(
% 0.81/1.57 divide( divide( X, Y ), divide( Z, T ) ) ), divide( Y, X ) ), divide( U,
% 0.81/1.57 divide( T, Z ) ) ) ) ), :=( Y, divide( Z, T ) ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 72, [ =( inverse( divide( divide( inverse( divide( divide( X, Y ),
% 0.81/1.57 divide( Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ) ),
% 0.81/1.57 inverse( inverse( U ) ) ) ] )
% 0.81/1.57 , clause( 2032, [ =( inverse( divide( divide( inverse( divide( divide( X, Y
% 0.81/1.57 ), divide( Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ) )
% 0.81/1.57 , inverse( inverse( U ) ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.57 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2039, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2046, [ =( multiply( X, inverse( divide( Y, divide( Z, divide(
% 0.81/1.57 inverse( divide( divide( T, U ), Z ) ), divide( U, T ) ) ) ) ) ), divide(
% 0.81/1.57 X, Y ) ) ] )
% 0.81/1.57 , clause( 50, [ =( inverse( inverse( divide( T, divide( Z, divide( inverse(
% 0.81/1.57 divide( divide( X, Y ), Z ) ), divide( Y, X ) ) ) ) ) ), T ) ] )
% 0.81/1.57 , 0, clause( 2039, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , 0, 20, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, Z ), :=( T, Y )] )
% 0.81/1.57 , substitution( 1, [ :=( X, X ), :=( Y, inverse( divide( Y, divide( Z,
% 0.81/1.57 divide( inverse( divide( divide( T, U ), Z ) ), divide( U, T ) ) ) ) ) )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 73, [ =( multiply( U, inverse( divide( X, divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ), divide(
% 0.81/1.57 U, X ) ) ] )
% 0.81/1.57 , clause( 2046, [ =( multiply( X, inverse( divide( Y, divide( Z, divide(
% 0.81/1.57 inverse( divide( divide( T, U ), Z ) ), divide( U, T ) ) ) ) ) ), divide(
% 0.81/1.57 X, Y ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, Y ), :=( T, Z ), :=( U
% 0.81/1.57 , T )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2049, [ =( X, inverse( inverse( divide( X, divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 50, [ =( inverse( inverse( divide( T, divide( Z, divide( inverse(
% 0.81/1.57 divide( divide( X, Y ), Z ) ), divide( Y, X ) ) ) ) ) ), T ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, Y ), :=( T, X )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2052, [ =( X, inverse( inverse( divide( X, divide( inverse( Y ),
% 0.81/1.57 divide( inverse( multiply( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) )
% 0.81/1.57 ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2049, [ =( X, inverse( inverse( divide( X, divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, 11, substitution( 0, [ :=( X, divide( Z, T ) ), :=( Y, Y )] ),
% 0.81/1.57 substitution( 1, [ :=( X, X ), :=( Y, inverse( Y ) ), :=( Z, Z ), :=( T,
% 0.81/1.57 T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2055, [ =( inverse( inverse( divide( X, divide( inverse( Y ),
% 0.81/1.57 divide( inverse( multiply( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) )
% 0.81/1.57 ), X ) ] )
% 0.81/1.57 , clause( 2052, [ =( X, inverse( inverse( divide( X, divide( inverse( Y ),
% 0.81/1.57 divide( inverse( multiply( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) )
% 0.81/1.57 ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 74, [ =( inverse( inverse( divide( T, divide( inverse( Z ), divide(
% 0.81/1.57 inverse( multiply( divide( X, Y ), Z ) ), divide( Y, X ) ) ) ) ) ), T ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 2055, [ =( inverse( inverse( divide( X, divide( inverse( Y ),
% 0.81/1.57 divide( inverse( multiply( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) )
% 0.81/1.57 ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2059, [ =( T, multiply( multiply( multiply( inverse( X ), Y ),
% 0.81/1.57 divide( multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 40, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.57 multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2063, [ =( divide( X, Y ), multiply( divide( multiply( inverse( Z )
% 0.81/1.57 , T ), U ), divide( U, divide( divide( Y, X ), multiply( inverse( T ), Z
% 0.81/1.57 ) ) ) ) ) ] )
% 0.81/1.57 , clause( 51, [ =( multiply( U, divide( X, divide( divide( Y, divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ) ) ), divide( U, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2059, [ =( T, multiply( multiply( multiply( inverse( X ), Y )
% 0.81/1.57 , divide( multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 5, substitution( 0, [ :=( X, multiply( inverse( T ), Z ) ), :=( Y, U )
% 0.81/1.57 , :=( Z, Y ), :=( T, X ), :=( U, multiply( inverse( Z ), T ) )] ),
% 0.81/1.57 substitution( 1, [ :=( X, Z ), :=( Y, T ), :=( Z, divide( U, divide(
% 0.81/1.57 divide( Y, X ), multiply( inverse( T ), Z ) ) ) ), :=( T, divide( X, Y )
% 0.81/1.57 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2067, [ =( multiply( divide( multiply( inverse( Z ), T ), U ),
% 0.81/1.57 divide( U, divide( divide( Y, X ), multiply( inverse( T ), Z ) ) ) ),
% 0.81/1.57 divide( X, Y ) ) ] )
% 0.81/1.57 , clause( 2063, [ =( divide( X, Y ), multiply( divide( multiply( inverse( Z
% 0.81/1.57 ), T ), U ), divide( U, divide( divide( Y, X ), multiply( inverse( T ),
% 0.81/1.57 Z ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 75, [ =( multiply( divide( multiply( inverse( X ), Y ), Z ), divide(
% 0.81/1.57 Z, divide( divide( T, U ), multiply( inverse( Y ), X ) ) ) ), divide( U,
% 0.81/1.57 T ) ) ] )
% 0.81/1.57 , clause( 2067, [ =( multiply( divide( multiply( inverse( Z ), T ), U ),
% 0.81/1.57 divide( U, divide( divide( Y, X ), multiply( inverse( T ), Z ) ) ) ),
% 0.81/1.57 divide( X, Y ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, X ), :=( T, Y ), :=( U
% 0.81/1.57 , Z )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2071, [ =( T, multiply( multiply( divide( X, Y ), divide( divide( Y
% 0.81/1.57 , X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 28, [ =( multiply( multiply( divide( U, W ), divide( divide( W, U
% 0.81/1.57 ), divide( V0, Y ) ) ), V0 ), Y ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, X ), :=( W, Y ), :=( V0, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2075, [ =( divide( X, Y ), multiply( divide( divide( Z, T ), U ),
% 0.81/1.57 divide( U, divide( divide( Y, X ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 51, [ =( multiply( U, divide( X, divide( divide( Y, divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ) ) ), divide( U, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2071, [ =( T, multiply( multiply( divide( X, Y ), divide(
% 0.81/1.57 divide( Y, X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 5, substitution( 0, [ :=( X, divide( T, Z ) ), :=( Y, U ), :=( Z, Y )
% 0.81/1.57 , :=( T, X ), :=( U, divide( Z, T ) )] ), substitution( 1, [ :=( X, Z ),
% 0.81/1.57 :=( Y, T ), :=( Z, divide( U, divide( divide( Y, X ), divide( T, Z ) ) )
% 0.81/1.57 ), :=( T, divide( X, Y ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2077, [ =( multiply( divide( divide( Z, T ), U ), divide( U, divide(
% 0.81/1.57 divide( Y, X ), divide( T, Z ) ) ) ), divide( X, Y ) ) ] )
% 0.81/1.57 , clause( 2075, [ =( divide( X, Y ), multiply( divide( divide( Z, T ), U )
% 0.81/1.57 , divide( U, divide( divide( Y, X ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 78, [ =( multiply( divide( divide( X, Y ), Z ), divide( Z, divide(
% 0.81/1.57 divide( T, U ), divide( Y, X ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.57 , clause( 2077, [ =( multiply( divide( divide( Z, T ), U ), divide( U,
% 0.81/1.57 divide( divide( Y, X ), divide( T, Z ) ) ) ), divide( X, Y ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, X ), :=( T, Y ), :=( U
% 0.81/1.57 , Z )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2079, [ =( divide( U, T ), multiply( divide( divide( X, Y ), Z ),
% 0.81/1.57 divide( Z, divide( divide( T, U ), divide( Y, X ) ) ) ) ) ] )
% 0.81/1.57 , clause( 78, [ =( multiply( divide( divide( X, Y ), Z ), divide( Z, divide(
% 0.81/1.57 divide( T, U ), divide( Y, X ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2083, [ =( divide( X, Y ), multiply( multiply( divide( Z, T ), U )
% 0.81/1.57 , divide( inverse( U ), divide( divide( Y, X ), divide( T, Z ) ) ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2079, [ =( divide( U, T ), multiply( divide( divide( X, Y ), Z
% 0.81/1.57 ), divide( Z, divide( divide( T, U ), divide( Y, X ) ) ) ) ) ] )
% 0.81/1.57 , 0, 5, substitution( 0, [ :=( X, divide( Z, T ) ), :=( Y, U )] ),
% 0.81/1.57 substitution( 1, [ :=( X, Z ), :=( Y, T ), :=( Z, inverse( U ) ), :=( T,
% 0.81/1.57 Y ), :=( U, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2088, [ =( multiply( multiply( divide( Z, T ), U ), divide( inverse(
% 0.81/1.57 U ), divide( divide( Y, X ), divide( T, Z ) ) ) ), divide( X, Y ) ) ] )
% 0.81/1.57 , clause( 2083, [ =( divide( X, Y ), multiply( multiply( divide( Z, T ), U
% 0.81/1.57 ), divide( inverse( U ), divide( divide( Y, X ), divide( T, Z ) ) ) ) )
% 0.81/1.57 ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 79, [ =( multiply( multiply( divide( X, Y ), Z ), divide( inverse(
% 0.81/1.57 Z ), divide( divide( T, U ), divide( Y, X ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.57 , clause( 2088, [ =( multiply( multiply( divide( Z, T ), U ), divide(
% 0.81/1.57 inverse( U ), divide( divide( Y, X ), divide( T, Z ) ) ) ), divide( X, Y
% 0.81/1.57 ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, X ), :=( T, Y ), :=( U
% 0.81/1.57 , Z )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2093, [ =( divide( U, T ), multiply( divide( divide( X, Y ), Z ),
% 0.81/1.57 divide( Z, divide( divide( T, U ), divide( Y, X ) ) ) ) ) ] )
% 0.81/1.57 , clause( 78, [ =( multiply( divide( divide( X, Y ), Z ), divide( Z, divide(
% 0.81/1.57 divide( T, U ), divide( Y, X ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2099, [ =( divide( inverse( X ), Y ), multiply( divide( divide( Z,
% 0.81/1.57 T ), U ), divide( U, divide( multiply( Y, X ), divide( T, Z ) ) ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2093, [ =( divide( U, T ), multiply( divide( divide( X, Y ), Z
% 0.81/1.57 ), divide( Z, divide( divide( T, U ), divide( Y, X ) ) ) ) ) ] )
% 0.81/1.57 , 0, 14, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 0.81/1.57 :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T, Y ), :=( U, inverse( X ) )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2104, [ =( multiply( divide( divide( Z, T ), U ), divide( U, divide(
% 0.81/1.57 multiply( Y, X ), divide( T, Z ) ) ) ), divide( inverse( X ), Y ) ) ] )
% 0.81/1.57 , clause( 2099, [ =( divide( inverse( X ), Y ), multiply( divide( divide( Z
% 0.81/1.57 , T ), U ), divide( U, divide( multiply( Y, X ), divide( T, Z ) ) ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 80, [ =( multiply( divide( divide( Z, T ), U ), divide( U, divide(
% 0.81/1.57 multiply( X, Y ), divide( T, Z ) ) ) ), divide( inverse( Y ), X ) ) ] )
% 0.81/1.57 , clause( 2104, [ =( multiply( divide( divide( Z, T ), U ), divide( U,
% 0.81/1.57 divide( multiply( Y, X ), divide( T, Z ) ) ) ), divide( inverse( X ), Y )
% 0.81/1.57 ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.57 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2107, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2112, [ =( multiply( X, inverse( divide( Y, divide( inverse( Z ),
% 0.81/1.57 divide( inverse( multiply( divide( T, U ), Z ) ), divide( U, T ) ) ) ) )
% 0.81/1.57 ), divide( X, Y ) ) ] )
% 0.81/1.57 , clause( 74, [ =( inverse( inverse( divide( T, divide( inverse( Z ),
% 0.81/1.57 divide( inverse( multiply( divide( X, Y ), Z ) ), divide( Y, X ) ) ) ) )
% 0.81/1.57 ), T ) ] )
% 0.81/1.57 , 0, clause( 2107, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , 0, 21, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, Z ), :=( T, Y )] )
% 0.81/1.57 , substitution( 1, [ :=( X, X ), :=( Y, inverse( divide( Y, divide(
% 0.81/1.57 inverse( Z ), divide( inverse( multiply( divide( T, U ), Z ) ), divide( U
% 0.81/1.57 , T ) ) ) ) ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 84, [ =( multiply( U, inverse( divide( X, divide( inverse( Y ),
% 0.81/1.57 divide( inverse( multiply( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) )
% 0.81/1.57 ), divide( U, X ) ) ] )
% 0.81/1.57 , clause( 2112, [ =( multiply( X, inverse( divide( Y, divide( inverse( Z )
% 0.81/1.57 , divide( inverse( multiply( divide( T, U ), Z ) ), divide( U, T ) ) ) )
% 0.81/1.57 ) ), divide( X, Y ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, Y ), :=( T, Z ), :=( U
% 0.81/1.57 , T )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2115, [ =( divide( U, T ), multiply( multiply( divide( X, Y ), Z )
% 0.81/1.57 , divide( inverse( Z ), divide( divide( T, U ), divide( Y, X ) ) ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 79, [ =( multiply( multiply( divide( X, Y ), Z ), divide( inverse(
% 0.81/1.57 Z ), divide( divide( T, U ), divide( Y, X ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2120, [ =( divide( X, Y ), multiply( multiply( divide( inverse( V0
% 0.81/1.57 ), W ), V1 ), divide( inverse( V1 ), divide( divide( Y, X ), divide(
% 0.81/1.57 multiply( divide( T, U ), divide( divide( U, T ), divide( Z, multiply( W
% 0.81/1.57 , V0 ) ) ) ), inverse( Z ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 11, [ =( divide( inverse( Z ), multiply( divide( Y, X ), divide(
% 0.81/1.57 divide( X, Y ), divide( Z, multiply( T, U ) ) ) ) ), divide( inverse( U )
% 0.81/1.57 , T ) ) ] )
% 0.81/1.57 , 0, clause( 2115, [ =( divide( U, T ), multiply( multiply( divide( X, Y )
% 0.81/1.57 , Z ), divide( inverse( Z ), divide( divide( T, U ), divide( Y, X ) ) ) )
% 0.81/1.57 ) ] )
% 0.81/1.57 , 0, 6, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, Z ), :=( T, W ),
% 0.81/1.57 :=( U, V0 )] ), substitution( 1, [ :=( X, inverse( Z ) ), :=( Y, multiply(
% 0.81/1.57 divide( T, U ), divide( divide( U, T ), divide( Z, multiply( W, V0 ) ) )
% 0.81/1.57 ) ), :=( Z, V1 ), :=( T, Y ), :=( U, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2129, [ =( divide( X, Y ), multiply( multiply( divide( inverse( Z )
% 0.81/1.57 , T ), U ), divide( inverse( U ), divide( divide( Y, X ), multiply(
% 0.81/1.57 multiply( divide( W, V0 ), divide( divide( V0, W ), divide( V1, multiply(
% 0.81/1.57 T, Z ) ) ) ), V1 ) ) ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2120, [ =( divide( X, Y ), multiply( multiply( divide( inverse(
% 0.81/1.57 V0 ), W ), V1 ), divide( inverse( V1 ), divide( divide( Y, X ), divide(
% 0.81/1.57 multiply( divide( T, U ), divide( divide( U, T ), divide( Z, multiply( W
% 0.81/1.57 , V0 ) ) ) ), inverse( Z ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, 18, substitution( 0, [ :=( X, multiply( divide( W, V0 ), divide(
% 0.81/1.57 divide( V0, W ), divide( V1, multiply( T, Z ) ) ) ) ), :=( Y, V1 )] ),
% 0.81/1.57 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, V1 ), :=( T, W ), :=( U
% 0.81/1.57 , V0 ), :=( W, T ), :=( V0, Z ), :=( V1, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2130, [ =( divide( X, Y ), multiply( multiply( divide( inverse( Z )
% 0.81/1.57 , T ), U ), divide( inverse( U ), divide( divide( Y, X ), multiply( T, Z
% 0.81/1.57 ) ) ) ) ) ] )
% 0.81/1.57 , clause( 28, [ =( multiply( multiply( divide( U, W ), divide( divide( W, U
% 0.81/1.57 ), divide( V0, Y ) ) ), V0 ), Y ) ] )
% 0.81/1.57 , 0, clause( 2129, [ =( divide( X, Y ), multiply( multiply( divide( inverse(
% 0.81/1.57 Z ), T ), U ), divide( inverse( U ), divide( divide( Y, X ), multiply(
% 0.81/1.57 multiply( divide( W, V0 ), divide( divide( V0, W ), divide( V1, multiply(
% 0.81/1.57 T, Z ) ) ) ), V1 ) ) ) ) ) ] )
% 0.81/1.57 , 0, 18, substitution( 0, [ :=( X, V2 ), :=( Y, multiply( T, Z ) ), :=( Z,
% 0.81/1.57 V3 ), :=( T, V4 ), :=( U, W ), :=( W, V0 ), :=( V0, V1 )] ),
% 0.81/1.57 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.57 , U ), :=( W, W ), :=( V0, V0 ), :=( V1, V1 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2131, [ =( multiply( multiply( divide( inverse( Z ), T ), U ),
% 0.81/1.57 divide( inverse( U ), divide( divide( Y, X ), multiply( T, Z ) ) ) ),
% 0.81/1.57 divide( X, Y ) ) ] )
% 0.81/1.57 , clause( 2130, [ =( divide( X, Y ), multiply( multiply( divide( inverse( Z
% 0.81/1.57 ), T ), U ), divide( inverse( U ), divide( divide( Y, X ), multiply( T,
% 0.81/1.57 Z ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 87, [ =( multiply( multiply( divide( inverse( U ), T ), W ), divide(
% 0.81/1.57 inverse( W ), divide( divide( V0, V1 ), multiply( T, U ) ) ) ), divide(
% 0.81/1.57 V1, V0 ) ) ] )
% 0.81/1.57 , clause( 2131, [ =( multiply( multiply( divide( inverse( Z ), T ), U ),
% 0.81/1.57 divide( inverse( U ), divide( divide( Y, X ), multiply( T, Z ) ) ) ),
% 0.81/1.57 divide( X, Y ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, V1 ), :=( Y, V0 ), :=( Z, U ), :=( T, T ), :=(
% 0.81/1.57 U, W )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2133, [ =( T, multiply( multiply( multiply( inverse( X ), Y ),
% 0.81/1.57 divide( multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 40, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.57 multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2139, [ =( divide( inverse( X ), Y ), multiply( divide( multiply(
% 0.81/1.57 inverse( Z ), T ), U ), divide( U, divide( multiply( Y, X ), multiply(
% 0.81/1.57 inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 60, [ =( multiply( U, divide( X, divide( divide( Y, divide(
% 0.81/1.57 multiply( Z, T ), X ) ), divide( inverse( T ), Z ) ) ) ), divide( U, Y )
% 0.81/1.57 ) ] )
% 0.81/1.57 , 0, clause( 2133, [ =( T, multiply( multiply( multiply( inverse( X ), Y )
% 0.81/1.57 , divide( multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 6, substitution( 0, [ :=( X, multiply( inverse( T ), Z ) ), :=( Y, U )
% 0.81/1.57 , :=( Z, Y ), :=( T, X ), :=( U, multiply( inverse( Z ), T ) )] ),
% 0.81/1.57 substitution( 1, [ :=( X, Z ), :=( Y, T ), :=( Z, divide( U, divide(
% 0.81/1.57 multiply( Y, X ), multiply( inverse( T ), Z ) ) ) ), :=( T, divide(
% 0.81/1.57 inverse( X ), Y ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2143, [ =( multiply( divide( multiply( inverse( Z ), T ), U ),
% 0.81/1.57 divide( U, divide( multiply( Y, X ), multiply( inverse( T ), Z ) ) ) ),
% 0.81/1.57 divide( inverse( X ), Y ) ) ] )
% 0.81/1.57 , clause( 2139, [ =( divide( inverse( X ), Y ), multiply( divide( multiply(
% 0.81/1.57 inverse( Z ), T ), U ), divide( U, divide( multiply( Y, X ), multiply(
% 0.81/1.57 inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 92, [ =( multiply( divide( multiply( inverse( X ), Y ), Z ), divide(
% 0.81/1.57 Z, divide( multiply( T, U ), multiply( inverse( Y ), X ) ) ) ), divide(
% 0.81/1.57 inverse( U ), T ) ) ] )
% 0.81/1.57 , clause( 2143, [ =( multiply( divide( multiply( inverse( Z ), T ), U ),
% 0.81/1.57 divide( U, divide( multiply( Y, X ), multiply( inverse( T ), Z ) ) ) ),
% 0.81/1.57 divide( inverse( X ), Y ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, X ), :=( T, Y ), :=( U
% 0.81/1.57 , Z )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2147, [ =( X, inverse( inverse( divide( X, divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 50, [ =( inverse( inverse( divide( T, divide( Z, divide( inverse(
% 0.81/1.57 divide( divide( X, Y ), Z ) ), divide( Y, X ) ) ) ) ) ), T ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, Y ), :=( T, X )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2151, [ =( divide( inverse( divide( divide( X, Y ), divide( divide(
% 0.81/1.57 Z, T ), inverse( divide( divide( T, Z ), U ) ) ) ) ), divide( Y, X ) ),
% 0.81/1.57 inverse( inverse( inverse( U ) ) ) ) ] )
% 0.81/1.57 , clause( 72, [ =( inverse( divide( divide( inverse( divide( divide( X, Y )
% 0.81/1.57 , divide( Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ) ),
% 0.81/1.57 inverse( inverse( U ) ) ) ] )
% 0.81/1.57 , 0, clause( 2147, [ =( X, inverse( inverse( divide( X, divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, 21, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, divide( Z, T ) )
% 0.81/1.57 , :=( T, inverse( divide( divide( T, Z ), U ) ) ), :=( U, U )] ),
% 0.81/1.57 substitution( 1, [ :=( X, divide( inverse( divide( divide( X, Y ), divide(
% 0.81/1.57 divide( Z, T ), inverse( divide( divide( T, Z ), U ) ) ) ) ), divide( Y,
% 0.81/1.57 X ) ) ), :=( Y, U ), :=( Z, T ), :=( T, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2155, [ =( divide( inverse( divide( divide( X, Y ), multiply(
% 0.81/1.57 divide( Z, T ), divide( divide( T, Z ), U ) ) ) ), divide( Y, X ) ),
% 0.81/1.57 inverse( inverse( inverse( U ) ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2151, [ =( divide( inverse( divide( divide( X, Y ), divide(
% 0.81/1.57 divide( Z, T ), inverse( divide( divide( T, Z ), U ) ) ) ) ), divide( Y,
% 0.81/1.57 X ) ), inverse( inverse( inverse( U ) ) ) ) ] )
% 0.81/1.57 , 0, 7, substitution( 0, [ :=( X, divide( Z, T ) ), :=( Y, divide( divide(
% 0.81/1.57 T, Z ), U ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.57 :=( T, T ), :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 103, [ =( divide( inverse( divide( divide( X, Y ), multiply( divide(
% 0.81/1.57 Z, T ), divide( divide( T, Z ), U ) ) ) ), divide( Y, X ) ), inverse(
% 0.81/1.57 inverse( inverse( U ) ) ) ) ] )
% 0.81/1.57 , clause( 2155, [ =( divide( inverse( divide( divide( X, Y ), multiply(
% 0.81/1.57 divide( Z, T ), divide( divide( T, Z ), U ) ) ) ), divide( Y, X ) ),
% 0.81/1.57 inverse( inverse( inverse( U ) ) ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.57 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2158, [ =( Y, divide( inverse( divide( X, divide( Y, Z ) ) ),
% 0.81/1.57 divide( multiply( divide( divide( T, U ), W ), divide( W, divide( Z,
% 0.81/1.57 divide( U, T ) ) ) ), X ) ) ) ] )
% 0.81/1.57 , clause( 5, [ =( divide( inverse( divide( U, divide( W, Y ) ) ), divide(
% 0.81/1.57 multiply( divide( divide( T, Z ), X ), divide( X, divide( Y, divide( Z, T
% 0.81/1.57 ) ) ) ), U ) ), W ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, W ), :=( Y, Z ), :=( Z, U ), :=( T, T ),
% 0.81/1.57 :=( U, X ), :=( W, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2165, [ =( X, divide( inverse( inverse( X ) ), divide( multiply(
% 0.81/1.57 divide( divide( W, V0 ), V1 ), divide( V1, divide( divide( U, T ), divide(
% 0.81/1.57 V0, W ) ) ) ), divide( inverse( divide( divide( Y, Z ), divide( T, U ) )
% 0.81/1.57 ), divide( Z, Y ) ) ) ) ) ] )
% 0.81/1.57 , clause( 72, [ =( inverse( divide( divide( inverse( divide( divide( X, Y )
% 0.81/1.57 , divide( Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ) ),
% 0.81/1.57 inverse( inverse( U ) ) ) ] )
% 0.81/1.57 , 0, clause( 2158, [ =( Y, divide( inverse( divide( X, divide( Y, Z ) ) ),
% 0.81/1.57 divide( multiply( divide( divide( T, U ), W ), divide( W, divide( Z,
% 0.81/1.57 divide( U, T ) ) ) ), X ) ) ) ] )
% 0.81/1.57 , 0, 3, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, U ),
% 0.81/1.57 :=( U, X )] ), substitution( 1, [ :=( X, divide( inverse( divide( divide(
% 0.81/1.57 Y, Z ), divide( T, U ) ) ), divide( Z, Y ) ) ), :=( Y, X ), :=( Z, divide(
% 0.81/1.57 U, T ) ), :=( T, W ), :=( U, V0 ), :=( W, V1 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2166, [ =( X, divide( inverse( inverse( X ) ), divide( divide( W, U
% 0.81/1.57 ), divide( inverse( divide( divide( V0, V1 ), divide( W, U ) ) ), divide(
% 0.81/1.57 V1, V0 ) ) ) ) ) ] )
% 0.81/1.57 , clause( 78, [ =( multiply( divide( divide( X, Y ), Z ), divide( Z, divide(
% 0.81/1.57 divide( T, U ), divide( Y, X ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.57 , 0, clause( 2165, [ =( X, divide( inverse( inverse( X ) ), divide(
% 0.81/1.57 multiply( divide( divide( W, V0 ), V1 ), divide( V1, divide( divide( U, T
% 0.81/1.57 ), divide( V0, W ) ) ) ), divide( inverse( divide( divide( Y, Z ),
% 0.81/1.57 divide( T, U ) ) ), divide( Z, Y ) ) ) ) ) ] )
% 0.81/1.57 , 0, 7, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, U ),
% 0.81/1.57 :=( U, W )] ), substitution( 1, [ :=( X, X ), :=( Y, V0 ), :=( Z, V1 ),
% 0.81/1.57 :=( T, W ), :=( U, U ), :=( W, Y ), :=( V0, Z ), :=( V1, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2167, [ =( divide( inverse( inverse( X ) ), divide( divide( Y, Z )
% 0.81/1.57 , divide( inverse( divide( divide( T, U ), divide( Y, Z ) ) ), divide( U
% 0.81/1.57 , T ) ) ) ), X ) ] )
% 0.81/1.57 , clause( 2166, [ =( X, divide( inverse( inverse( X ) ), divide( divide( W
% 0.81/1.57 , U ), divide( inverse( divide( divide( V0, V1 ), divide( W, U ) ) ),
% 0.81/1.57 divide( V1, V0 ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, W ), :=( Z, V0 ), :=( T, V1 ),
% 0.81/1.57 :=( U, Z ), :=( W, Y ), :=( V0, T ), :=( V1, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 104, [ =( divide( inverse( inverse( U ) ), divide( divide( Z, T ),
% 0.81/1.57 divide( inverse( divide( divide( X, Y ), divide( Z, T ) ) ), divide( Y, X
% 0.81/1.57 ) ) ) ), U ) ] )
% 0.81/1.57 , clause( 2167, [ =( divide( inverse( inverse( X ) ), divide( divide( Y, Z
% 0.81/1.57 ), divide( inverse( divide( divide( T, U ), divide( Y, Z ) ) ), divide(
% 0.81/1.57 U, T ) ) ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, U ), :=( Y, Z ), :=( Z, T ), :=( T, X ), :=( U
% 0.81/1.57 , Y )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2168, [ =( X, divide( inverse( inverse( X ) ), divide( divide( Y, Z
% 0.81/1.57 ), divide( inverse( divide( divide( T, U ), divide( Y, Z ) ) ), divide(
% 0.81/1.57 U, T ) ) ) ) ) ] )
% 0.81/1.57 , clause( 104, [ =( divide( inverse( inverse( U ) ), divide( divide( Z, T )
% 0.81/1.57 , divide( inverse( divide( divide( X, Y ), divide( Z, T ) ) ), divide( Y
% 0.81/1.57 , X ) ) ) ), U ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, Y ), :=( T, Z ),
% 0.81/1.57 :=( U, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2172, [ =( X, divide( inverse( inverse( X ) ), divide( divide(
% 0.81/1.57 inverse( inverse( Y ) ), divide( divide( Z, T ), divide( inverse( divide(
% 0.81/1.57 divide( U, W ), divide( Z, T ) ) ), divide( W, U ) ) ) ), divide( inverse(
% 0.81/1.57 divide( divide( V0, V1 ), Y ) ), divide( V1, V0 ) ) ) ) ) ] )
% 0.81/1.57 , clause( 104, [ =( divide( inverse( inverse( U ) ), divide( divide( Z, T )
% 0.81/1.57 , divide( inverse( divide( divide( X, Y ), divide( Z, T ) ) ), divide( Y
% 0.81/1.57 , X ) ) ) ), U ) ] )
% 0.81/1.57 , 0, clause( 2168, [ =( X, divide( inverse( inverse( X ) ), divide( divide(
% 0.81/1.57 Y, Z ), divide( inverse( divide( divide( T, U ), divide( Y, Z ) ) ),
% 0.81/1.57 divide( U, T ) ) ) ) ) ] )
% 0.81/1.57 , 0, 33, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, Z ), :=( T, T )
% 0.81/1.57 , :=( U, Y )] ), substitution( 1, [ :=( X, X ), :=( Y, inverse( inverse(
% 0.81/1.57 Y ) ) ), :=( Z, divide( divide( Z, T ), divide( inverse( divide( divide(
% 0.81/1.57 U, W ), divide( Z, T ) ) ), divide( W, U ) ) ) ), :=( T, V0 ), :=( U, V1
% 0.81/1.57 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2175, [ =( X, divide( inverse( inverse( X ) ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( V0, V1 ), Y ) ), divide( V1, V0 ) ) ) ) ) ] )
% 0.81/1.57 , clause( 104, [ =( divide( inverse( inverse( U ) ), divide( divide( Z, T )
% 0.81/1.57 , divide( inverse( divide( divide( X, Y ), divide( Z, T ) ) ), divide( Y
% 0.81/1.57 , X ) ) ) ), U ) ] )
% 0.81/1.57 , 0, clause( 2172, [ =( X, divide( inverse( inverse( X ) ), divide( divide(
% 0.81/1.57 inverse( inverse( Y ) ), divide( divide( Z, T ), divide( inverse( divide(
% 0.81/1.57 divide( U, W ), divide( Z, T ) ) ), divide( W, U ) ) ) ), divide( inverse(
% 0.81/1.57 divide( divide( V0, V1 ), Y ) ), divide( V1, V0 ) ) ) ) ) ] )
% 0.81/1.57 , 0, 7, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, Z ), :=( T, T ),
% 0.81/1.57 :=( U, Y )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.57 :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 ), :=( V1, V1 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2177, [ =( divide( inverse( inverse( X ) ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ), X ) ] )
% 0.81/1.57 , clause( 2175, [ =( X, divide( inverse( inverse( X ) ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( V0, V1 ), Y ) ), divide( V1, V0 ) ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, U ), :=( T, W ),
% 0.81/1.57 :=( U, V0 ), :=( W, V1 ), :=( V0, Z ), :=( V1, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 106, [ =( divide( inverse( inverse( W ) ), divide( X, divide(
% 0.81/1.57 inverse( divide( divide( V0, V1 ), X ) ), divide( V1, V0 ) ) ) ), W ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 2177, [ =( divide( inverse( inverse( X ) ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, W ), :=( Y, X ), :=( Z, V0 ), :=( T, V1 )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2182, [ =( X, divide( inverse( inverse( X ) ), divide( divide( Y, Z
% 0.81/1.57 ), divide( inverse( divide( divide( T, U ), divide( Y, Z ) ) ), divide(
% 0.81/1.57 U, T ) ) ) ) ) ] )
% 0.81/1.57 , clause( 104, [ =( divide( inverse( inverse( U ) ), divide( divide( Z, T )
% 0.81/1.57 , divide( inverse( divide( divide( X, Y ), divide( Z, T ) ) ), divide( Y
% 0.81/1.57 , X ) ) ) ), U ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, Y ), :=( T, Z ),
% 0.81/1.57 :=( U, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2189, [ =( divide( divide( inverse( divide( divide( X, Y ), divide(
% 0.81/1.57 Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ), divide(
% 0.81/1.57 inverse( inverse( inverse( U ) ) ), divide( divide( W, V0 ), divide(
% 0.81/1.57 inverse( divide( divide( V1, V2 ), divide( W, V0 ) ) ), divide( V2, V1 )
% 0.81/1.57 ) ) ) ) ] )
% 0.81/1.57 , clause( 72, [ =( inverse( divide( divide( inverse( divide( divide( X, Y )
% 0.81/1.57 , divide( Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ) ),
% 0.81/1.57 inverse( inverse( U ) ) ) ] )
% 0.81/1.57 , 0, clause( 2182, [ =( X, divide( inverse( inverse( X ) ), divide( divide(
% 0.81/1.57 Y, Z ), divide( inverse( divide( divide( T, U ), divide( Y, Z ) ) ),
% 0.81/1.57 divide( U, T ) ) ) ) ) ] )
% 0.81/1.57 , 0, 21, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )
% 0.81/1.57 , :=( U, U )] ), substitution( 1, [ :=( X, divide( divide( inverse(
% 0.81/1.57 divide( divide( X, Y ), divide( Z, T ) ) ), divide( Y, X ) ), divide( U,
% 0.81/1.57 divide( T, Z ) ) ) ), :=( Y, W ), :=( Z, V0 ), :=( T, V1 ), :=( U, V2 )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2191, [ =( divide( divide( inverse( divide( divide( X, Y ), divide(
% 0.81/1.57 Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ), inverse( U )
% 0.81/1.57 ) ] )
% 0.81/1.57 , clause( 104, [ =( divide( inverse( inverse( U ) ), divide( divide( Z, T )
% 0.81/1.57 , divide( inverse( divide( divide( X, Y ), divide( Z, T ) ) ), divide( Y
% 0.81/1.57 , X ) ) ) ), U ) ] )
% 0.81/1.57 , 0, clause( 2189, [ =( divide( divide( inverse( divide( divide( X, Y ),
% 0.81/1.57 divide( Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ),
% 0.81/1.57 divide( inverse( inverse( inverse( U ) ) ), divide( divide( W, V0 ),
% 0.81/1.57 divide( inverse( divide( divide( V1, V2 ), divide( W, V0 ) ) ), divide(
% 0.81/1.57 V2, V1 ) ) ) ) ) ] )
% 0.81/1.57 , 0, 19, substitution( 0, [ :=( X, V1 ), :=( Y, V2 ), :=( Z, W ), :=( T, V0
% 0.81/1.57 ), :=( U, inverse( U ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ),
% 0.81/1.57 :=( Z, Z ), :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 ), :=( V1, V1
% 0.81/1.57 ), :=( V2, V2 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 107, [ =( divide( divide( inverse( divide( divide( X, Y ), divide(
% 0.81/1.57 Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ), inverse( U )
% 0.81/1.57 ) ] )
% 0.81/1.57 , clause( 2191, [ =( divide( divide( inverse( divide( divide( X, Y ),
% 0.81/1.57 divide( Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ),
% 0.81/1.57 inverse( U ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.57 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2194, [ =( X, divide( inverse( inverse( X ) ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 106, [ =( divide( inverse( inverse( W ) ), divide( X, divide(
% 0.81/1.57 inverse( divide( divide( V0, V1 ), X ) ), divide( V1, V0 ) ) ) ), W ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Y ), :=( Y, U ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, V1 ), :=( W, X ), :=( V0, Z ), :=( V1, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2198, [ =( X, divide( inverse( inverse( X ) ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( inverse( V0 ), W ), Y ) ), divide( multiply(
% 0.81/1.57 multiply( inverse( T ), U ), divide( multiply( inverse( U ), T ), divide(
% 0.81/1.57 Z, multiply( W, V0 ) ) ) ), inverse( Z ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 25, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ),
% 0.81/1.57 X ), divide( multiply( inverse( X ), Y ), divide( Z, multiply( T, U ) ) )
% 0.81/1.57 ) ), divide( inverse( U ), T ) ) ] )
% 0.81/1.57 , 0, clause( 2194, [ =( X, divide( inverse( inverse( X ) ), divide( Y,
% 0.81/1.57 divide( inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, 11, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, Z ), :=( T, W )
% 0.81/1.57 , :=( U, V0 )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z,
% 0.81/1.57 inverse( Z ) ), :=( T, multiply( multiply( inverse( T ), U ), divide(
% 0.81/1.57 multiply( inverse( U ), T ), divide( Z, multiply( W, V0 ) ) ) ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2203, [ =( X, divide( inverse( inverse( X ) ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), T ), Y ) ), multiply( multiply(
% 0.81/1.57 multiply( inverse( U ), W ), divide( multiply( inverse( W ), U ), divide(
% 0.81/1.57 V0, multiply( T, Z ) ) ) ), V0 ) ) ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2198, [ =( X, divide( inverse( inverse( X ) ), divide( Y,
% 0.81/1.57 divide( inverse( divide( divide( inverse( V0 ), W ), Y ) ), divide(
% 0.81/1.57 multiply( multiply( inverse( T ), U ), divide( multiply( inverse( U ), T
% 0.81/1.57 ), divide( Z, multiply( W, V0 ) ) ) ), inverse( Z ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, 16, substitution( 0, [ :=( X, multiply( multiply( inverse( U ), W ),
% 0.81/1.57 divide( multiply( inverse( W ), U ), divide( V0, multiply( T, Z ) ) ) ) )
% 0.81/1.57 , :=( Y, V0 )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, V0 )
% 0.81/1.57 , :=( T, U ), :=( U, W ), :=( W, T ), :=( V0, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2204, [ =( X, divide( inverse( inverse( X ) ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) )
% 0.81/1.57 ) ] )
% 0.81/1.57 , clause( 40, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.57 multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.57 , 0, clause( 2203, [ =( X, divide( inverse( inverse( X ) ), divide( Y,
% 0.81/1.57 divide( inverse( divide( divide( inverse( Z ), T ), Y ) ), multiply(
% 0.81/1.57 multiply( multiply( inverse( U ), W ), divide( multiply( inverse( W ), U
% 0.81/1.57 ), divide( V0, multiply( T, Z ) ) ) ), V0 ) ) ) ) ) ] )
% 0.81/1.57 , 0, 16, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T,
% 0.81/1.57 multiply( T, Z ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z,
% 0.81/1.57 Z ), :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2205, [ =( divide( inverse( inverse( X ) ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) )
% 0.81/1.57 , X ) ] )
% 0.81/1.57 , clause( 2204, [ =( X, divide( inverse( inverse( X ) ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) )
% 0.81/1.57 ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 112, [ =( divide( inverse( inverse( W ) ), divide( V0, divide(
% 0.81/1.57 inverse( divide( divide( inverse( U ), T ), V0 ) ), multiply( T, U ) ) )
% 0.81/1.57 ), W ) ] )
% 0.81/1.57 , clause( 2205, [ =( divide( inverse( inverse( X ) ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) )
% 0.81/1.57 , X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, U ), :=( T, T )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2207, [ =( Y, divide( inverse( divide( X, divide( Y, Z ) ) ),
% 0.81/1.57 divide( multiply( divide( divide( T, U ), W ), divide( W, divide( Z,
% 0.81/1.57 divide( U, T ) ) ) ), X ) ) ) ] )
% 0.81/1.57 , clause( 5, [ =( divide( inverse( divide( U, divide( W, Y ) ) ), divide(
% 0.81/1.57 multiply( divide( divide( T, Z ), X ), divide( X, divide( Y, divide( Z, T
% 0.81/1.57 ) ) ) ), U ) ), W ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, W ), :=( Y, Z ), :=( Z, U ), :=( T, T ),
% 0.81/1.57 :=( U, X ), :=( W, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2215, [ =( X, divide( inverse( Y ), divide( multiply( divide(
% 0.81/1.57 divide( U, W ), V0 ), divide( V0, divide( divide( inverse( divide( divide(
% 0.81/1.57 Z, T ), X ) ), divide( T, Z ) ), divide( W, U ) ) ) ), inverse( inverse(
% 0.81/1.57 Y ) ) ) ) ) ] )
% 0.81/1.57 , clause( 106, [ =( divide( inverse( inverse( W ) ), divide( X, divide(
% 0.81/1.57 inverse( divide( divide( V0, V1 ), X ) ), divide( V1, V0 ) ) ) ), W ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, clause( 2207, [ =( Y, divide( inverse( divide( X, divide( Y, Z ) ) ),
% 0.81/1.57 divide( multiply( divide( divide( T, U ), W ), divide( W, divide( Z,
% 0.81/1.57 divide( U, T ) ) ) ), X ) ) ) ] )
% 0.81/1.57 , 0, 4, substitution( 0, [ :=( X, X ), :=( Y, V1 ), :=( Z, V2 ), :=( T, V3
% 0.81/1.57 ), :=( U, V4 ), :=( W, Y ), :=( V0, Z ), :=( V1, T )] ), substitution( 1
% 0.81/1.57 , [ :=( X, inverse( inverse( Y ) ) ), :=( Y, X ), :=( Z, divide( inverse(
% 0.81/1.57 divide( divide( Z, T ), X ) ), divide( T, Z ) ) ), :=( T, U ), :=( U, W )
% 0.81/1.57 , :=( W, V0 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2227, [ =( X, divide( inverse( Y ), multiply( multiply( divide(
% 0.81/1.57 divide( Z, T ), U ), divide( U, divide( divide( inverse( divide( divide(
% 0.81/1.57 W, V0 ), X ) ), divide( V0, W ) ), divide( T, Z ) ) ) ), inverse( Y ) ) )
% 0.81/1.57 ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2215, [ =( X, divide( inverse( Y ), divide( multiply( divide(
% 0.81/1.57 divide( U, W ), V0 ), divide( V0, divide( divide( inverse( divide( divide(
% 0.81/1.57 Z, T ), X ) ), divide( T, Z ) ), divide( W, U ) ) ) ), inverse( inverse(
% 0.81/1.57 Y ) ) ) ) ) ] )
% 0.81/1.57 , 0, 5, substitution( 0, [ :=( X, multiply( divide( divide( Z, T ), U ),
% 0.81/1.57 divide( U, divide( divide( inverse( divide( divide( W, V0 ), X ) ),
% 0.81/1.57 divide( V0, W ) ), divide( T, Z ) ) ) ) ), :=( Y, inverse( Y ) )] ),
% 0.81/1.57 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, W ), :=( T, V0 ), :=( U
% 0.81/1.57 , Z ), :=( W, T ), :=( V0, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2228, [ =( X, divide( inverse( Y ), multiply( divide( divide( V0, W
% 0.81/1.57 ), inverse( divide( divide( W, V0 ), X ) ) ), inverse( Y ) ) ) ) ] )
% 0.81/1.57 , clause( 78, [ =( multiply( divide( divide( X, Y ), Z ), divide( Z, divide(
% 0.81/1.57 divide( T, U ), divide( Y, X ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.57 , 0, clause( 2227, [ =( X, divide( inverse( Y ), multiply( multiply( divide(
% 0.81/1.57 divide( Z, T ), U ), divide( U, divide( divide( inverse( divide( divide(
% 0.81/1.57 W, V0 ), X ) ), divide( V0, W ) ), divide( T, Z ) ) ) ), inverse( Y ) ) )
% 0.81/1.57 ) ] )
% 0.81/1.57 , 0, 6, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T,
% 0.81/1.57 inverse( divide( divide( W, V0 ), X ) ) ), :=( U, divide( V0, W ) )] ),
% 0.81/1.57 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.57 , U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2229, [ =( X, divide( inverse( Y ), multiply( multiply( divide( Z,
% 0.81/1.57 T ), divide( divide( T, Z ), X ) ), inverse( Y ) ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2228, [ =( X, divide( inverse( Y ), multiply( divide( divide(
% 0.81/1.57 V0, W ), inverse( divide( divide( W, V0 ), X ) ) ), inverse( Y ) ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, 6, substitution( 0, [ :=( X, divide( Z, T ) ), :=( Y, divide( divide(
% 0.81/1.57 T, Z ), X ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, U ),
% 0.81/1.57 :=( T, W ), :=( U, V0 ), :=( W, T ), :=( V0, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2230, [ =( divide( inverse( Y ), multiply( multiply( divide( Z, T )
% 0.81/1.57 , divide( divide( T, Z ), X ) ), inverse( Y ) ) ), X ) ] )
% 0.81/1.57 , clause( 2229, [ =( X, divide( inverse( Y ), multiply( multiply( divide( Z
% 0.81/1.57 , T ), divide( divide( T, Z ), X ) ), inverse( Y ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 115, [ =( divide( inverse( X ), multiply( multiply( divide( T, Z )
% 0.81/1.57 , divide( divide( Z, T ), Y ) ), inverse( X ) ) ), Y ) ] )
% 0.81/1.57 , clause( 2230, [ =( divide( inverse( Y ), multiply( multiply( divide( Z, T
% 0.81/1.57 ), divide( divide( T, Z ), X ) ), inverse( Y ) ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, T ), :=( T, Z )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2232, [ =( T, divide( inverse( X ), multiply( multiply( divide( Y,
% 0.81/1.57 Z ), divide( divide( Z, Y ), T ) ), inverse( X ) ) ) ) ] )
% 0.81/1.57 , clause( 115, [ =( divide( inverse( X ), multiply( multiply( divide( T, Z
% 0.81/1.57 ), divide( divide( Z, T ), Y ) ), inverse( X ) ) ), Y ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Z ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2242, [ =( X, divide( inverse( divide( inverse( Y ), divide( divide(
% 0.81/1.57 Z, T ), divide( inverse( divide( divide( U, W ), divide( Y, T ) ) ),
% 0.81/1.57 divide( W, U ) ) ) ) ), multiply( multiply( divide( V0, V1 ), divide(
% 0.81/1.57 divide( V1, V0 ), X ) ), Z ) ) ) ] )
% 0.81/1.57 , clause( 32, [ =( inverse( divide( inverse( Z ), divide( divide( W, T ),
% 0.81/1.57 divide( inverse( divide( divide( Y, X ), divide( Z, T ) ) ), divide( X, Y
% 0.81/1.57 ) ) ) ) ), W ) ] )
% 0.81/1.57 , 0, clause( 2232, [ =( T, divide( inverse( X ), multiply( multiply( divide(
% 0.81/1.57 Y, Z ), divide( divide( Z, Y ), T ) ), inverse( X ) ) ) ) ] )
% 0.81/1.57 , 0, 33, substitution( 0, [ :=( X, W ), :=( Y, U ), :=( Z, Y ), :=( T, T )
% 0.81/1.57 , :=( U, V2 ), :=( W, Z )] ), substitution( 1, [ :=( X, divide( inverse(
% 0.81/1.57 Y ), divide( divide( Z, T ), divide( inverse( divide( divide( U, W ),
% 0.81/1.57 divide( Y, T ) ) ), divide( W, U ) ) ) ) ), :=( Y, V0 ), :=( Z, V1 ),
% 0.81/1.57 :=( T, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2243, [ =( X, divide( Z, multiply( multiply( divide( V0, V1 ),
% 0.81/1.57 divide( divide( V1, V0 ), X ) ), Z ) ) ) ] )
% 0.81/1.57 , clause( 32, [ =( inverse( divide( inverse( Z ), divide( divide( W, T ),
% 0.81/1.57 divide( inverse( divide( divide( Y, X ), divide( Z, T ) ) ), divide( X, Y
% 0.81/1.57 ) ) ) ) ), W ) ] )
% 0.81/1.57 , 0, clause( 2242, [ =( X, divide( inverse( divide( inverse( Y ), divide(
% 0.81/1.57 divide( Z, T ), divide( inverse( divide( divide( U, W ), divide( Y, T ) )
% 0.81/1.57 ), divide( W, U ) ) ) ) ), multiply( multiply( divide( V0, V1 ), divide(
% 0.81/1.57 divide( V1, V0 ), X ) ), Z ) ) ) ] )
% 0.81/1.57 , 0, 3, substitution( 0, [ :=( X, W ), :=( Y, U ), :=( Z, Y ), :=( T, T ),
% 0.81/1.57 :=( U, V2 ), :=( W, Z )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ),
% 0.81/1.57 :=( Z, Z ), :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 ), :=( V1, V1
% 0.81/1.57 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2245, [ =( divide( Y, multiply( multiply( divide( Z, T ), divide(
% 0.81/1.57 divide( T, Z ), X ) ), Y ) ), X ) ] )
% 0.81/1.57 , clause( 2243, [ =( X, divide( Z, multiply( multiply( divide( V0, V1 ),
% 0.81/1.57 divide( divide( V1, V0 ), X ) ), Z ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, U ), :=( Z, Y ), :=( T, W ),
% 0.81/1.57 :=( U, V0 ), :=( W, V1 ), :=( V0, Z ), :=( V1, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 121, [ =( divide( Y, multiply( multiply( divide( W, V0 ), divide(
% 0.81/1.57 divide( V0, W ), V1 ) ), Y ) ), V1 ) ] )
% 0.81/1.57 , clause( 2245, [ =( divide( Y, multiply( multiply( divide( Z, T ), divide(
% 0.81/1.57 divide( T, Z ), X ) ), Y ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, V1 ), :=( Y, Y ), :=( Z, W ), :=( T, V0 )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2248, [ =( T, divide( X, multiply( multiply( divide( Y, Z ), divide(
% 0.81/1.57 divide( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , clause( 121, [ =( divide( Y, multiply( multiply( divide( W, V0 ), divide(
% 0.81/1.57 divide( V0, W ), V1 ) ), Y ) ), V1 ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, V1 ), :=( W, Y ), :=( V0, Z ), :=( V1, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2253, [ =( X, divide( Y, multiply( multiply( divide( inverse( V0 )
% 0.81/1.57 , W ), divide( divide( multiply( multiply( inverse( T ), U ), divide(
% 0.81/1.57 multiply( inverse( U ), T ), divide( Z, multiply( W, V0 ) ) ) ), inverse(
% 0.81/1.57 Z ) ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 25, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ),
% 0.81/1.57 X ), divide( multiply( inverse( X ), Y ), divide( Z, multiply( T, U ) ) )
% 0.81/1.57 ) ), divide( inverse( U ), T ) ) ] )
% 0.81/1.57 , 0, clause( 2248, [ =( T, divide( X, multiply( multiply( divide( Y, Z ),
% 0.81/1.57 divide( divide( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , 0, 6, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, Z ), :=( T, W ),
% 0.81/1.57 :=( U, V0 )] ), substitution( 1, [ :=( X, Y ), :=( Y, inverse( Z ) ),
% 0.81/1.57 :=( Z, multiply( multiply( inverse( T ), U ), divide( multiply( inverse(
% 0.81/1.57 U ), T ), divide( Z, multiply( W, V0 ) ) ) ) ), :=( T, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2258, [ =( X, divide( Y, multiply( multiply( divide( inverse( Z ),
% 0.81/1.57 T ), divide( multiply( multiply( multiply( inverse( U ), W ), divide(
% 0.81/1.57 multiply( inverse( W ), U ), divide( V0, multiply( T, Z ) ) ) ), V0 ), X
% 0.81/1.57 ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2253, [ =( X, divide( Y, multiply( multiply( divide( inverse(
% 0.81/1.57 V0 ), W ), divide( divide( multiply( multiply( inverse( T ), U ), divide(
% 0.81/1.57 multiply( inverse( U ), T ), divide( Z, multiply( W, V0 ) ) ) ), inverse(
% 0.81/1.57 Z ) ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, 11, substitution( 0, [ :=( X, multiply( multiply( inverse( U ), W ),
% 0.81/1.57 divide( multiply( inverse( W ), U ), divide( V0, multiply( T, Z ) ) ) ) )
% 0.81/1.57 , :=( Y, V0 )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, V0 )
% 0.81/1.57 , :=( T, U ), :=( U, W ), :=( W, T ), :=( V0, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2259, [ =( X, divide( Y, multiply( multiply( divide( inverse( Z ),
% 0.81/1.57 T ), divide( multiply( T, Z ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 40, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.57 multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.57 , 0, clause( 2258, [ =( X, divide( Y, multiply( multiply( divide( inverse(
% 0.81/1.57 Z ), T ), divide( multiply( multiply( multiply( inverse( U ), W ), divide(
% 0.81/1.57 multiply( inverse( W ), U ), divide( V0, multiply( T, Z ) ) ) ), V0 ), X
% 0.81/1.57 ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, 11, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T,
% 0.81/1.57 multiply( T, Z ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z,
% 0.81/1.57 Z ), :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2260, [ =( divide( Y, multiply( multiply( divide( inverse( Z ), T )
% 0.81/1.57 , divide( multiply( T, Z ), X ) ), Y ) ), X ) ] )
% 0.81/1.57 , clause( 2259, [ =( X, divide( Y, multiply( multiply( divide( inverse( Z )
% 0.81/1.57 , T ), divide( multiply( T, Z ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 126, [ =( divide( W, multiply( multiply( divide( inverse( U ), T )
% 0.81/1.57 , divide( multiply( T, U ), V0 ) ), W ) ), V0 ) ] )
% 0.81/1.57 , clause( 2260, [ =( divide( Y, multiply( multiply( divide( inverse( Z ), T
% 0.81/1.57 ), divide( multiply( T, Z ), X ) ), Y ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, V0 ), :=( Y, W ), :=( Z, U ), :=( T, T )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2262, [ =( T, divide( X, multiply( multiply( divide( Y, Z ), divide(
% 0.81/1.57 divide( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , clause( 121, [ =( divide( Y, multiply( multiply( divide( W, V0 ), divide(
% 0.81/1.57 divide( V0, W ), V1 ) ), Y ) ), V1 ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, V1 ), :=( W, Y ), :=( V0, Z ), :=( V1, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2268, [ =( X, divide( Y, multiply( multiply( divide( multiply(
% 0.81/1.57 multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z ), divide(
% 0.81/1.57 U, multiply( W, V0 ) ) ) ), inverse( U ) ), divide( divide( inverse( V0 )
% 0.81/1.57 , W ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 25, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ),
% 0.81/1.57 X ), divide( multiply( inverse( X ), Y ), divide( Z, multiply( T, U ) ) )
% 0.81/1.57 ) ), divide( inverse( U ), T ) ) ] )
% 0.81/1.57 , 0, clause( 2262, [ =( T, divide( X, multiply( multiply( divide( Y, Z ),
% 0.81/1.57 divide( divide( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , 0, 25, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, U ), :=( T, W )
% 0.81/1.57 , :=( U, V0 )] ), substitution( 1, [ :=( X, Y ), :=( Y, multiply(
% 0.81/1.57 multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z ), divide(
% 0.81/1.57 U, multiply( W, V0 ) ) ) ) ), :=( Z, inverse( U ) ), :=( T, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2269, [ =( X, divide( Y, multiply( multiply( multiply( multiply(
% 0.81/1.57 multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z ), divide(
% 0.81/1.57 U, multiply( W, V0 ) ) ) ), U ), divide( divide( inverse( V0 ), W ), X )
% 0.81/1.57 ), Y ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2268, [ =( X, divide( Y, multiply( multiply( divide( multiply(
% 0.81/1.57 multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z ), divide(
% 0.81/1.57 U, multiply( W, V0 ) ) ) ), inverse( U ) ), divide( divide( inverse( V0 )
% 0.81/1.57 , W ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, 6, substitution( 0, [ :=( X, multiply( multiply( inverse( Z ), T ),
% 0.81/1.57 divide( multiply( inverse( T ), Z ), divide( U, multiply( W, V0 ) ) ) ) )
% 0.81/1.57 , :=( Y, U )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.57 :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2270, [ =( X, divide( Y, multiply( multiply( multiply( W, V0 ),
% 0.81/1.57 divide( divide( inverse( V0 ), W ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 40, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.57 multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.57 , 0, clause( 2269, [ =( X, divide( Y, multiply( multiply( multiply(
% 0.81/1.57 multiply( multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z
% 0.81/1.57 ), divide( U, multiply( W, V0 ) ) ) ), U ), divide( divide( inverse( V0
% 0.81/1.57 ), W ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, 6, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T,
% 0.81/1.57 multiply( W, V0 ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z
% 0.81/1.57 , Z ), :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2271, [ =( divide( Y, multiply( multiply( multiply( Z, T ), divide(
% 0.81/1.57 divide( inverse( T ), Z ), X ) ), Y ) ), X ) ] )
% 0.81/1.57 , clause( 2270, [ =( X, divide( Y, multiply( multiply( multiply( W, V0 ),
% 0.81/1.57 divide( divide( inverse( V0 ), W ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, U ), :=( T, W ),
% 0.81/1.57 :=( U, V0 ), :=( W, Z ), :=( V0, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 127, [ =( divide( W, multiply( multiply( multiply( T, U ), divide(
% 0.81/1.57 divide( inverse( U ), T ), V0 ) ), W ) ), V0 ) ] )
% 0.81/1.57 , clause( 2271, [ =( divide( Y, multiply( multiply( multiply( Z, T ),
% 0.81/1.57 divide( divide( inverse( T ), Z ), X ) ), Y ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, V0 ), :=( Y, W ), :=( Z, T ), :=( T, U )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2273, [ =( inverse( T ), multiply( multiply( divide( X, Y ), divide(
% 0.81/1.57 divide( Y, X ), multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 37, [ =( multiply( multiply( divide( Z, T ), divide( divide( T, Z
% 0.81/1.57 ), multiply( X, Y ) ) ), X ), inverse( Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2277, [ =( inverse( divide( X, Y ) ), multiply( multiply( divide( Y
% 0.81/1.57 , X ), U ), multiply( divide( Z, T ), divide( divide( T, Z ), U ) ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 121, [ =( divide( Y, multiply( multiply( divide( W, V0 ), divide(
% 0.81/1.57 divide( V0, W ), V1 ) ), Y ) ), V1 ) ] )
% 0.81/1.57 , 0, clause( 2273, [ =( inverse( T ), multiply( multiply( divide( X, Y ),
% 0.81/1.57 divide( divide( Y, X ), multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 10, substitution( 0, [ :=( X, W ), :=( Y, divide( X, Y ) ), :=( Z, V0
% 0.81/1.57 ), :=( T, V1 ), :=( U, V2 ), :=( W, Z ), :=( V0, T ), :=( V1, U )] ),
% 0.81/1.57 substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, multiply( divide( Z, T
% 0.81/1.57 ), divide( divide( T, Z ), U ) ) ), :=( T, divide( X, Y ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2280, [ =( multiply( multiply( divide( Y, X ), Z ), multiply(
% 0.81/1.57 divide( T, U ), divide( divide( U, T ), Z ) ) ), inverse( divide( X, Y )
% 0.81/1.57 ) ) ] )
% 0.81/1.57 , clause( 2277, [ =( inverse( divide( X, Y ) ), multiply( multiply( divide(
% 0.81/1.57 Y, X ), U ), multiply( divide( Z, T ), divide( divide( T, Z ), U ) ) ) )
% 0.81/1.57 ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, T ), :=( T, U ),
% 0.81/1.57 :=( U, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 138, [ =( multiply( multiply( divide( Y, X ), U ), multiply( divide(
% 0.81/1.57 Z, T ), divide( divide( T, Z ), U ) ) ), inverse( divide( X, Y ) ) ) ] )
% 0.81/1.57 , clause( 2280, [ =( multiply( multiply( divide( Y, X ), Z ), multiply(
% 0.81/1.57 divide( T, U ), divide( divide( U, T ), Z ) ) ), inverse( divide( X, Y )
% 0.81/1.57 ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, U ), :=( T, Z ), :=( U
% 0.81/1.57 , T )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2283, [ =( T, divide( X, multiply( multiply( divide( Y, Z ), divide(
% 0.81/1.57 divide( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , clause( 121, [ =( divide( Y, multiply( multiply( divide( W, V0 ), divide(
% 0.81/1.57 divide( V0, W ), V1 ) ), Y ) ), V1 ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, V1 ), :=( W, Y ), :=( V0, Z ), :=( V1, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2285, [ =( inverse( X ), divide( Y, multiply( multiply( divide( Z,
% 0.81/1.57 T ), multiply( divide( T, Z ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2283, [ =( T, divide( X, multiply( multiply( divide( Y, Z ),
% 0.81/1.57 divide( divide( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , 0, 10, substitution( 0, [ :=( X, divide( T, Z ) ), :=( Y, X )] ),
% 0.81/1.57 substitution( 1, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, inverse( X
% 0.81/1.57 ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2288, [ =( divide( Y, multiply( multiply( divide( Z, T ), multiply(
% 0.81/1.57 divide( T, Z ), X ) ), Y ) ), inverse( X ) ) ] )
% 0.81/1.57 , clause( 2285, [ =( inverse( X ), divide( Y, multiply( multiply( divide( Z
% 0.81/1.57 , T ), multiply( divide( T, Z ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 144, [ =( divide( T, multiply( multiply( divide( Y, X ), multiply(
% 0.81/1.57 divide( X, Y ), Z ) ), T ) ), inverse( Z ) ) ] )
% 0.81/1.57 , clause( 2288, [ =( divide( Y, multiply( multiply( divide( Z, T ),
% 0.81/1.57 multiply( divide( T, Z ), X ) ), Y ) ), inverse( X ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, Y ), :=( T, X )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2291, [ =( T, divide( X, multiply( multiply( divide( inverse( Y ),
% 0.81/1.57 Z ), divide( multiply( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , clause( 126, [ =( divide( W, multiply( multiply( divide( inverse( U ), T
% 0.81/1.57 ), divide( multiply( T, U ), V0 ) ), W ) ), V0 ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T, Z ),
% 0.81/1.57 :=( U, Y ), :=( W, X ), :=( V0, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2292, [ =( X, divide( Y, multiply( multiply( multiply( inverse( Z )
% 0.81/1.57 , T ), divide( multiply( inverse( T ), Z ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2291, [ =( T, divide( X, multiply( multiply( divide( inverse(
% 0.81/1.57 Y ), Z ), divide( multiply( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , 0, 6, substitution( 0, [ :=( X, inverse( Z ) ), :=( Y, T )] ),
% 0.81/1.57 substitution( 1, [ :=( X, Y ), :=( Y, Z ), :=( Z, inverse( T ) ), :=( T,
% 0.81/1.57 X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2294, [ =( divide( Y, multiply( multiply( multiply( inverse( Z ), T
% 0.81/1.57 ), divide( multiply( inverse( T ), Z ), X ) ), Y ) ), X ) ] )
% 0.81/1.57 , clause( 2292, [ =( X, divide( Y, multiply( multiply( multiply( inverse( Z
% 0.81/1.57 ), T ), divide( multiply( inverse( T ), Z ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 151, [ =( divide( Z, multiply( multiply( multiply( inverse( X ), Y
% 0.81/1.57 ), divide( multiply( inverse( Y ), X ), T ) ), Z ) ), T ) ] )
% 0.81/1.57 , clause( 2294, [ =( divide( Y, multiply( multiply( multiply( inverse( Z )
% 0.81/1.57 , T ), divide( multiply( inverse( T ), Z ), X ) ), Y ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2297, [ =( inverse( T ), divide( X, multiply( multiply( divide( Y,
% 0.81/1.57 Z ), multiply( divide( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , clause( 144, [ =( divide( T, multiply( multiply( divide( Y, X ), multiply(
% 0.81/1.57 divide( X, Y ), Z ) ), T ) ), inverse( Z ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, T ), :=( T, X )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2304, [ =( inverse( X ), divide( Y, multiply( multiply( divide(
% 0.81/1.57 multiply( multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z
% 0.81/1.57 ), divide( U, multiply( W, V0 ) ) ) ), inverse( U ) ), multiply( divide(
% 0.81/1.57 inverse( V0 ), W ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 25, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ),
% 0.81/1.57 X ), divide( multiply( inverse( X ), Y ), divide( Z, multiply( T, U ) ) )
% 0.81/1.57 ) ), divide( inverse( U ), T ) ) ] )
% 0.81/1.57 , 0, clause( 2297, [ =( inverse( T ), divide( X, multiply( multiply( divide(
% 0.81/1.57 Y, Z ), multiply( divide( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , 0, 26, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, U ), :=( T, W )
% 0.81/1.57 , :=( U, V0 )] ), substitution( 1, [ :=( X, Y ), :=( Y, multiply(
% 0.81/1.57 multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z ), divide(
% 0.81/1.57 U, multiply( W, V0 ) ) ) ) ), :=( Z, inverse( U ) ), :=( T, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2305, [ =( inverse( X ), divide( Y, multiply( multiply( multiply(
% 0.81/1.57 multiply( multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z
% 0.81/1.57 ), divide( U, multiply( W, V0 ) ) ) ), U ), multiply( divide( inverse(
% 0.81/1.57 V0 ), W ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2304, [ =( inverse( X ), divide( Y, multiply( multiply( divide(
% 0.81/1.57 multiply( multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z
% 0.81/1.57 ), divide( U, multiply( W, V0 ) ) ) ), inverse( U ) ), multiply( divide(
% 0.81/1.57 inverse( V0 ), W ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, 7, substitution( 0, [ :=( X, multiply( multiply( inverse( Z ), T ),
% 0.81/1.57 divide( multiply( inverse( T ), Z ), divide( U, multiply( W, V0 ) ) ) ) )
% 0.81/1.57 , :=( Y, U )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.57 :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2306, [ =( inverse( X ), divide( Y, multiply( multiply( multiply( W
% 0.81/1.57 , V0 ), multiply( divide( inverse( V0 ), W ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 40, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.57 multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.57 , 0, clause( 2305, [ =( inverse( X ), divide( Y, multiply( multiply(
% 0.81/1.57 multiply( multiply( multiply( inverse( Z ), T ), divide( multiply(
% 0.81/1.57 inverse( T ), Z ), divide( U, multiply( W, V0 ) ) ) ), U ), multiply(
% 0.81/1.57 divide( inverse( V0 ), W ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, 7, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T,
% 0.81/1.57 multiply( W, V0 ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z
% 0.81/1.57 , Z ), :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2307, [ =( divide( Y, multiply( multiply( multiply( Z, T ),
% 0.81/1.57 multiply( divide( inverse( T ), Z ), X ) ), Y ) ), inverse( X ) ) ] )
% 0.81/1.57 , clause( 2306, [ =( inverse( X ), divide( Y, multiply( multiply( multiply(
% 0.81/1.57 W, V0 ), multiply( divide( inverse( V0 ), W ), X ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, U ), :=( T, W ),
% 0.81/1.57 :=( U, V0 ), :=( W, Z ), :=( V0, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 153, [ =( divide( W, multiply( multiply( multiply( T, U ), multiply(
% 0.81/1.57 divide( inverse( U ), T ), V0 ) ), W ) ), inverse( V0 ) ) ] )
% 0.81/1.57 , clause( 2307, [ =( divide( Y, multiply( multiply( multiply( Z, T ),
% 0.81/1.57 multiply( divide( inverse( T ), Z ), X ) ), Y ) ), inverse( X ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, V0 ), :=( Y, W ), :=( Z, T ), :=( T, U )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2309, [ =( Y, inverse( divide( inverse( X ), divide( divide( Y,
% 0.81/1.57 multiply( multiply( Z, T ), X ) ), divide( inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 61, [ =( inverse( divide( inverse( Z ), divide( divide( T,
% 0.81/1.57 multiply( multiply( X, Y ), Z ) ), divide( inverse( Y ), X ) ) ) ), T ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2312, [ =( X, inverse( divide( inverse( X ), divide( inverse( T ),
% 0.81/1.57 divide( inverse( multiply( divide( Z, Y ), T ) ), divide( Y, Z ) ) ) ) )
% 0.81/1.57 ) ] )
% 0.81/1.57 , clause( 144, [ =( divide( T, multiply( multiply( divide( Y, X ), multiply(
% 0.81/1.57 divide( X, Y ), Z ) ), T ) ), inverse( Z ) ) ] )
% 0.81/1.57 , 0, clause( 2309, [ =( Y, inverse( divide( inverse( X ), divide( divide( Y
% 0.81/1.57 , multiply( multiply( Z, T ), X ) ), divide( inverse( T ), Z ) ) ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, 7, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, T ), :=( T, X )] )
% 0.81/1.57 , substitution( 1, [ :=( X, X ), :=( Y, X ), :=( Z, divide( Y, Z ) ),
% 0.81/1.57 :=( T, multiply( divide( Z, Y ), T ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2314, [ =( inverse( divide( inverse( X ), divide( inverse( Y ),
% 0.81/1.57 divide( inverse( multiply( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) )
% 0.81/1.57 , X ) ] )
% 0.81/1.57 , clause( 2312, [ =( X, inverse( divide( inverse( X ), divide( inverse( T )
% 0.81/1.57 , divide( inverse( multiply( divide( Z, Y ), T ) ), divide( Y, Z ) ) ) )
% 0.81/1.57 ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Z ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 159, [ =( inverse( divide( inverse( X ), divide( inverse( T ),
% 0.81/1.57 divide( inverse( multiply( divide( Z, Y ), T ) ), divide( Y, Z ) ) ) ) )
% 0.81/1.57 , X ) ] )
% 0.81/1.57 , clause( 2314, [ =( inverse( divide( inverse( X ), divide( inverse( Y ),
% 0.81/1.57 divide( inverse( multiply( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) )
% 0.81/1.57 , X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Z ), :=( T, Y )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2317, [ =( Y, inverse( divide( inverse( X ), divide( divide( Y,
% 0.81/1.57 multiply( multiply( Z, T ), X ) ), divide( inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.57 , clause( 61, [ =( inverse( divide( inverse( Z ), divide( divide( T,
% 0.81/1.57 multiply( multiply( X, Y ), Z ) ), divide( inverse( Y ), X ) ) ) ), T ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2320, [ =( X, inverse( divide( inverse( X ), divide( T, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), Y ), T ) ), multiply( Y, Z ) ) ) )
% 0.81/1.57 ) ) ] )
% 0.81/1.57 , clause( 127, [ =( divide( W, multiply( multiply( multiply( T, U ), divide(
% 0.81/1.57 divide( inverse( U ), T ), V0 ) ), W ) ), V0 ) ] )
% 0.81/1.57 , 0, clause( 2317, [ =( Y, inverse( divide( inverse( X ), divide( divide( Y
% 0.81/1.57 , multiply( multiply( Z, T ), X ) ), divide( inverse( T ), Z ) ) ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, 7, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T, Y )
% 0.81/1.57 , :=( U, Z ), :=( W, X ), :=( V0, T )] ), substitution( 1, [ :=( X, X ),
% 0.81/1.57 :=( Y, X ), :=( Z, multiply( Y, Z ) ), :=( T, divide( divide( inverse( Z
% 0.81/1.57 ), Y ), T ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2322, [ =( inverse( divide( inverse( X ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) )
% 0.81/1.57 ), X ) ] )
% 0.81/1.57 , clause( 2320, [ =( X, inverse( divide( inverse( X ), divide( T, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), Y ), T ) ), multiply( Y, Z ) ) ) )
% 0.81/1.57 ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Z ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 166, [ =( inverse( divide( inverse( X ), divide( T, divide( inverse(
% 0.81/1.57 divide( divide( inverse( Z ), Y ), T ) ), multiply( Y, Z ) ) ) ) ), X ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 2322, [ =( inverse( divide( inverse( X ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) )
% 0.81/1.57 ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Z ), :=( T, Y )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2325, [ =( inverse( T ), divide( X, multiply( multiply( multiply( Y
% 0.81/1.57 , Z ), multiply( divide( inverse( Z ), Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , clause( 153, [ =( divide( W, multiply( multiply( multiply( T, U ),
% 0.81/1.57 multiply( divide( inverse( U ), T ), V0 ) ), W ) ), inverse( V0 ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T, Y ),
% 0.81/1.57 :=( U, Z ), :=( W, X ), :=( V0, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2332, [ =( inverse( divide( divide( divide( X, Y ), inverse( Z ) )
% 0.81/1.57 , Z ) ), divide( T, multiply( inverse( divide( Y, X ) ), T ) ) ) ] )
% 0.81/1.57 , clause( 138, [ =( multiply( multiply( divide( Y, X ), U ), multiply(
% 0.81/1.57 divide( Z, T ), divide( divide( T, Z ), U ) ) ), inverse( divide( X, Y )
% 0.81/1.57 ) ) ] )
% 0.81/1.57 , 0, clause( 2325, [ =( inverse( T ), divide( X, multiply( multiply(
% 0.81/1.57 multiply( Y, Z ), multiply( divide( inverse( Z ), Y ), T ) ), X ) ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, 13, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, inverse( Z ) ),
% 0.81/1.57 :=( T, divide( X, Y ) ), :=( U, Z )] ), substitution( 1, [ :=( X, T ),
% 0.81/1.57 :=( Y, divide( X, Y ) ), :=( Z, Z ), :=( T, divide( divide( divide( X, Y
% 0.81/1.57 ), inverse( Z ) ), Z ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2334, [ =( inverse( divide( multiply( divide( X, Y ), Z ), Z ) ),
% 0.81/1.57 divide( T, multiply( inverse( divide( Y, X ) ), T ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2332, [ =( inverse( divide( divide( divide( X, Y ), inverse( Z
% 0.81/1.57 ) ), Z ) ), divide( T, multiply( inverse( divide( Y, X ) ), T ) ) ) ] )
% 0.81/1.57 , 0, 3, substitution( 0, [ :=( X, divide( X, Y ) ), :=( Y, Z )] ),
% 0.81/1.57 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2335, [ =( divide( T, multiply( inverse( divide( Y, X ) ), T ) ),
% 0.81/1.57 inverse( divide( multiply( divide( X, Y ), Z ), Z ) ) ) ] )
% 0.81/1.57 , clause( 2334, [ =( inverse( divide( multiply( divide( X, Y ), Z ), Z ) )
% 0.81/1.57 , divide( T, multiply( inverse( divide( Y, X ) ), T ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 212, [ =( divide( T, multiply( inverse( divide( Y, X ) ), T ) ),
% 0.81/1.57 inverse( divide( multiply( divide( X, Y ), Z ), Z ) ) ) ] )
% 0.81/1.57 , clause( 2335, [ =( divide( T, multiply( inverse( divide( Y, X ) ), T ) )
% 0.81/1.57 , inverse( divide( multiply( divide( X, Y ), Z ), Z ) ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2336, [ =( inverse( divide( multiply( divide( Z, Y ), T ), T ) ),
% 0.81/1.57 divide( X, multiply( inverse( divide( Y, Z ) ), X ) ) ) ] )
% 0.81/1.57 , clause( 212, [ =( divide( T, multiply( inverse( divide( Y, X ) ), T ) ),
% 0.81/1.57 inverse( divide( multiply( divide( X, Y ), Z ), Z ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, T ), :=( T, X )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2357, [ =( inverse( divide( multiply( divide( X, Y ), Z ), Z ) ),
% 0.81/1.57 inverse( divide( multiply( divide( X, Y ), U ), U ) ) ) ] )
% 0.81/1.57 , clause( 212, [ =( divide( T, multiply( inverse( divide( Y, X ) ), T ) ),
% 0.81/1.57 inverse( divide( multiply( divide( X, Y ), Z ), Z ) ) ) ] )
% 0.81/1.57 , 0, clause( 2336, [ =( inverse( divide( multiply( divide( Z, Y ), T ), T )
% 0.81/1.57 ), divide( X, multiply( inverse( divide( Y, Z ) ), X ) ) ) ] )
% 0.81/1.57 , 0, 9, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, U ), :=( T, T )] )
% 0.81/1.57 , substitution( 1, [ :=( X, T ), :=( Y, Y ), :=( Z, X ), :=( T, Z )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 213, [ =( inverse( divide( multiply( divide( Z, Y ), T ), T ) ),
% 0.81/1.57 inverse( divide( multiply( divide( Z, Y ), U ), U ) ) ) ] )
% 0.81/1.57 , clause( 2357, [ =( inverse( divide( multiply( divide( X, Y ), Z ), Z ) )
% 0.81/1.57 , inverse( divide( multiply( divide( X, Y ), U ), U ) ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, T ), :=( T, W ), :=( U
% 0.81/1.57 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2370, [ =( inverse( divide( multiply( divide( inverse( inverse( X )
% 0.81/1.57 ), divide( Y, divide( inverse( divide( divide( inverse( Z ), T ), Y ) )
% 0.81/1.57 , multiply( T, Z ) ) ) ), U ), U ) ), inverse( divide( multiply( X, W ),
% 0.81/1.57 W ) ) ) ] )
% 0.81/1.57 , clause( 112, [ =( divide( inverse( inverse( W ) ), divide( V0, divide(
% 0.81/1.57 inverse( divide( divide( inverse( U ), T ), V0 ) ), multiply( T, U ) ) )
% 0.81/1.57 ), W ) ] )
% 0.81/1.57 , 0, clause( 213, [ =( inverse( divide( multiply( divide( Z, Y ), T ), T )
% 0.81/1.57 ), inverse( divide( multiply( divide( Z, Y ), U ), U ) ) ) ] )
% 0.81/1.57 , 0, 26, substitution( 0, [ :=( X, V0 ), :=( Y, V1 ), :=( Z, V2 ), :=( T, T
% 0.81/1.57 ), :=( U, Z ), :=( W, X ), :=( V0, Y )] ), substitution( 1, [ :=( X, V3
% 0.81/1.57 ), :=( Y, divide( Y, divide( inverse( divide( divide( inverse( Z ), T )
% 0.81/1.57 , Y ) ), multiply( T, Z ) ) ) ), :=( Z, inverse( inverse( X ) ) ), :=( T
% 0.81/1.57 , U ), :=( U, W )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2371, [ =( inverse( divide( multiply( X, U ), U ) ), inverse(
% 0.81/1.57 divide( multiply( X, W ), W ) ) ) ] )
% 0.81/1.57 , clause( 112, [ =( divide( inverse( inverse( W ) ), divide( V0, divide(
% 0.81/1.57 inverse( divide( divide( inverse( U ), T ), V0 ) ), multiply( T, U ) ) )
% 0.81/1.57 ), W ) ] )
% 0.81/1.57 , 0, clause( 2370, [ =( inverse( divide( multiply( divide( inverse( inverse(
% 0.81/1.57 X ) ), divide( Y, divide( inverse( divide( divide( inverse( Z ), T ), Y )
% 0.81/1.57 ), multiply( T, Z ) ) ) ), U ), U ) ), inverse( divide( multiply( X, W )
% 0.81/1.57 , W ) ) ) ] )
% 0.81/1.57 , 0, 4, substitution( 0, [ :=( X, V0 ), :=( Y, V1 ), :=( Z, V2 ), :=( T, T
% 0.81/1.57 ), :=( U, Z ), :=( W, X ), :=( V0, Y )] ), substitution( 1, [ :=( X, X )
% 0.81/1.57 , :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U ), :=( W, W )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 228, [ =( inverse( divide( multiply( X, U ), U ) ), inverse( divide(
% 0.81/1.57 multiply( X, W ), W ) ) ) ] )
% 0.81/1.57 , clause( 2371, [ =( inverse( divide( multiply( X, U ), U ) ), inverse(
% 0.81/1.57 divide( multiply( X, W ), W ) ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, V0 ), :=( Z, V1 ), :=( T, V2 ),
% 0.81/1.57 :=( U, U ), :=( W, W )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2372, [ =( X, inverse( divide( inverse( X ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) )
% 0.81/1.57 ) ) ] )
% 0.81/1.57 , clause( 166, [ =( inverse( divide( inverse( X ), divide( T, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), Y ), T ) ), multiply( Y, Z ) ) ) )
% 0.81/1.57 ), X ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Z ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2374, [ =( divide( multiply( X, Y ), Y ), inverse( divide( inverse(
% 0.81/1.57 divide( multiply( X, W ), W ) ), divide( Z, divide( inverse( divide(
% 0.81/1.57 divide( inverse( T ), U ), Z ) ), multiply( U, T ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 228, [ =( inverse( divide( multiply( X, U ), U ) ), inverse(
% 0.81/1.57 divide( multiply( X, W ), W ) ) ) ] )
% 0.81/1.57 , 0, clause( 2372, [ =( X, inverse( divide( inverse( X ), divide( Y, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), T ), Y ) ), multiply( T, Z ) ) ) )
% 0.81/1.57 ) ) ] )
% 0.81/1.57 , 0, 8, substitution( 0, [ :=( X, X ), :=( Y, V0 ), :=( Z, V1 ), :=( T, V2
% 0.81/1.57 ), :=( U, Y ), :=( W, W )] ), substitution( 1, [ :=( X, divide( multiply(
% 0.81/1.57 X, Y ), Y ) ), :=( Y, Z ), :=( Z, T ), :=( T, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2376, [ =( divide( multiply( X, Y ), Y ), divide( multiply( X, Z )
% 0.81/1.57 , Z ) ) ] )
% 0.81/1.57 , clause( 166, [ =( inverse( divide( inverse( X ), divide( T, divide(
% 0.81/1.57 inverse( divide( divide( inverse( Z ), Y ), T ) ), multiply( Y, Z ) ) ) )
% 0.81/1.57 ), X ) ] )
% 0.81/1.57 , 0, clause( 2374, [ =( divide( multiply( X, Y ), Y ), inverse( divide(
% 0.81/1.57 inverse( divide( multiply( X, W ), W ) ), divide( Z, divide( inverse(
% 0.81/1.57 divide( divide( inverse( T ), U ), Z ) ), multiply( U, T ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, 6, substitution( 0, [ :=( X, divide( multiply( X, Z ), Z ) ), :=( Y, W
% 0.81/1.57 ), :=( Z, U ), :=( T, T )] ), substitution( 1, [ :=( X, X ), :=( Y, Y )
% 0.81/1.57 , :=( Z, T ), :=( T, U ), :=( U, W ), :=( W, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 236, [ =( divide( multiply( X, Z ), Z ), divide( multiply( X, Y ),
% 0.81/1.57 Y ) ) ] )
% 0.81/1.57 , clause( 2376, [ =( divide( multiply( X, Y ), Y ), divide( multiply( X, Z
% 0.81/1.57 ), Z ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, Y )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2377, [ =( T, divide( X, multiply( multiply( divide( inverse( Y ),
% 0.81/1.57 Z ), divide( multiply( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , clause( 126, [ =( divide( W, multiply( multiply( divide( inverse( U ), T
% 0.81/1.57 ), divide( multiply( T, U ), V0 ) ), W ) ), V0 ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T, Z ),
% 0.81/1.57 :=( U, Y ), :=( W, X ), :=( V0, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2378, [ =( X, divide( Y, multiply( multiply( divide( inverse( X ),
% 0.81/1.57 Z ), divide( multiply( Z, T ), T ) ), Y ) ) ) ] )
% 0.81/1.57 , clause( 236, [ =( divide( multiply( X, Z ), Z ), divide( multiply( X, Y )
% 0.81/1.57 , Y ) ) ] )
% 0.81/1.57 , 0, clause( 2377, [ =( T, divide( X, multiply( multiply( divide( inverse(
% 0.81/1.57 Y ), Z ), divide( multiply( Z, Y ), T ) ), X ) ) ) ] )
% 0.81/1.57 , 0, 10, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X )] ),
% 0.81/1.57 substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2379, [ =( divide( Y, multiply( multiply( divide( inverse( X ), Z )
% 0.81/1.57 , divide( multiply( Z, T ), T ) ), Y ) ), X ) ] )
% 0.81/1.57 , clause( 2378, [ =( X, divide( Y, multiply( multiply( divide( inverse( X )
% 0.81/1.57 , Z ), divide( multiply( Z, T ), T ) ), Y ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 273, [ =( divide( T, multiply( multiply( divide( inverse( Y ), X )
% 0.81/1.57 , divide( multiply( X, Z ), Z ) ), T ) ), Y ) ] )
% 0.81/1.57 , clause( 2379, [ =( divide( Y, multiply( multiply( divide( inverse( X ), Z
% 0.81/1.57 ), divide( multiply( Z, T ), T ) ), Y ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Y ), :=( Y, T ), :=( Z, X ), :=( T, Z )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2380, [ =( W, multiply( multiply( multiply( divide( divide( X, Y )
% 0.81/1.57 , Z ), divide( Z, divide( T, divide( Y, X ) ) ) ), divide( T, divide( U,
% 0.81/1.57 W ) ) ), U ) ) ] )
% 0.81/1.57 , clause( 34, [ =( multiply( multiply( multiply( divide( divide( T, Z ), X
% 0.81/1.57 ), divide( X, divide( Y, divide( Z, T ) ) ) ), divide( Y, divide( U, W )
% 0.81/1.57 ) ), U ), W ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, Y ), :=( T, X ),
% 0.81/1.57 :=( U, U ), :=( W, W )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2386, [ =( X, multiply( multiply( multiply( divide( divide( Y, Z )
% 0.81/1.57 , T ), divide( T, divide( multiply( U, divide( W, X ) ), divide( Z, Y ) )
% 0.81/1.57 ) ), divide( multiply( U, V0 ), V0 ) ), W ) ) ] )
% 0.81/1.57 , clause( 236, [ =( divide( multiply( X, Z ), Z ), divide( multiply( X, Y )
% 0.81/1.57 , Y ) ) ] )
% 0.81/1.57 , 0, clause( 2380, [ =( W, multiply( multiply( multiply( divide( divide( X
% 0.81/1.57 , Y ), Z ), divide( Z, divide( T, divide( Y, X ) ) ) ), divide( T, divide(
% 0.81/1.57 U, W ) ) ), U ) ) ] )
% 0.81/1.57 , 0, 21, substitution( 0, [ :=( X, U ), :=( Y, V0 ), :=( Z, divide( W, X )
% 0.81/1.57 )] ), substitution( 1, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T,
% 0.81/1.57 multiply( U, divide( W, X ) ) ), :=( U, W ), :=( W, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2388, [ =( X, multiply( multiply( divide( inverse( divide( W, X ) )
% 0.81/1.57 , U ), divide( multiply( U, V0 ), V0 ) ), W ) ) ] )
% 0.81/1.57 , clause( 80, [ =( multiply( divide( divide( Z, T ), U ), divide( U, divide(
% 0.81/1.57 multiply( X, Y ), divide( T, Z ) ) ) ), divide( inverse( Y ), X ) ) ] )
% 0.81/1.57 , 0, clause( 2386, [ =( X, multiply( multiply( multiply( divide( divide( Y
% 0.81/1.57 , Z ), T ), divide( T, divide( multiply( U, divide( W, X ) ), divide( Z,
% 0.81/1.57 Y ) ) ) ), divide( multiply( U, V0 ), V0 ) ), W ) ) ] )
% 0.81/1.57 , 0, 4, substitution( 0, [ :=( X, U ), :=( Y, divide( W, X ) ), :=( Z, Y )
% 0.81/1.57 , :=( T, Z ), :=( U, T )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ),
% 0.81/1.57 :=( Z, Z ), :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2389, [ =( multiply( multiply( divide( inverse( divide( Y, X ) ), Z
% 0.81/1.57 ), divide( multiply( Z, T ), T ) ), Y ), X ) ] )
% 0.81/1.57 , clause( 2388, [ =( X, multiply( multiply( divide( inverse( divide( W, X )
% 0.81/1.57 ), U ), divide( multiply( U, V0 ), V0 ) ), W ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, U ), :=( Z, W ), :=( T, V0 ),
% 0.81/1.57 :=( U, Z ), :=( W, Y ), :=( V0, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 278, [ =( multiply( multiply( divide( inverse( divide( Y, Z ) ), X
% 0.81/1.57 ), divide( multiply( X, T ), T ) ), Y ), Z ) ] )
% 0.81/1.57 , clause( 2389, [ =( multiply( multiply( divide( inverse( divide( Y, X ) )
% 0.81/1.57 , Z ), divide( multiply( Z, T ), T ) ), Y ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X ), :=( T, T )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2390, [ =( divide( U, T ), divide( inverse( X ), multiply( multiply(
% 0.81/1.57 inverse( Y ), Z ), divide( multiply( inverse( Z ), Y ), divide( X, divide(
% 0.81/1.57 T, U ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 26, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ),
% 0.81/1.57 X ), divide( multiply( inverse( X ), Y ), divide( Z, divide( T, U ) ) ) )
% 0.81/1.57 ), divide( U, T ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X ), :=( T, T ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2395, [ =( divide( X, multiply( Y, X ) ), divide( inverse( Z ),
% 0.81/1.57 multiply( multiply( inverse( T ), U ), divide( multiply( inverse( U ), T
% 0.81/1.57 ), divide( Z, divide( multiply( Y, W ), W ) ) ) ) ) ) ] )
% 0.81/1.57 , clause( 236, [ =( divide( multiply( X, Z ), Z ), divide( multiply( X, Y )
% 0.81/1.57 , Y ) ) ] )
% 0.81/1.57 , 0, clause( 2390, [ =( divide( U, T ), divide( inverse( X ), multiply(
% 0.81/1.57 multiply( inverse( Y ), Z ), divide( multiply( inverse( Z ), Y ), divide(
% 0.81/1.57 X, divide( T, U ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, 21, substitution( 0, [ :=( X, Y ), :=( Y, W ), :=( Z, X )] ),
% 0.81/1.57 substitution( 1, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T, multiply( Y
% 0.81/1.57 , X ) ), :=( U, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2396, [ =( divide( X, multiply( Y, X ) ), divide( W, multiply( Y, W
% 0.81/1.57 ) ) ) ] )
% 0.81/1.57 , clause( 26, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ),
% 0.81/1.57 X ), divide( multiply( inverse( X ), Y ), divide( Z, divide( T, U ) ) ) )
% 0.81/1.57 ), divide( U, T ) ) ] )
% 0.81/1.57 , 0, clause( 2395, [ =( divide( X, multiply( Y, X ) ), divide( inverse( Z )
% 0.81/1.57 , multiply( multiply( inverse( T ), U ), divide( multiply( inverse( U ),
% 0.81/1.57 T ), divide( Z, divide( multiply( Y, W ), W ) ) ) ) ) ) ] )
% 0.81/1.57 , 0, 6, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, Z ), :=( T,
% 0.81/1.57 multiply( Y, W ) ), :=( U, W )] ), substitution( 1, [ :=( X, X ), :=( Y,
% 0.81/1.57 Y ), :=( Z, Z ), :=( T, T ), :=( U, U ), :=( W, W )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 284, [ =( divide( Z, multiply( X, Z ) ), divide( Y, multiply( X, Y
% 0.81/1.57 ) ) ) ] )
% 0.81/1.57 , clause( 2396, [ =( divide( X, multiply( Y, X ) ), divide( W, multiply( Y
% 0.81/1.57 , W ) ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Z ), :=( Y, X ), :=( Z, T ), :=( T, U ), :=( U
% 0.81/1.57 , W ), :=( W, Y )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2397, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2398, [ =( multiply( multiply( X, inverse( Y ) ), Y ), divide(
% 0.81/1.57 multiply( X, Z ), Z ) ) ] )
% 0.81/1.57 , clause( 236, [ =( divide( multiply( X, Z ), Z ), divide( multiply( X, Y )
% 0.81/1.57 , Y ) ) ] )
% 0.81/1.57 , 0, clause( 2397, [ =( multiply( X, Y ), divide( X, inverse( Y ) ) ) ] )
% 0.81/1.57 , 0, 7, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, inverse( Y ) )] )
% 0.81/1.57 , substitution( 1, [ :=( X, multiply( X, inverse( Y ) ) ), :=( Y, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2399, [ =( divide( multiply( X, Z ), Z ), multiply( multiply( X,
% 0.81/1.57 inverse( Y ) ), Y ) ) ] )
% 0.81/1.57 , clause( 2398, [ =( multiply( multiply( X, inverse( Y ) ), Y ), divide(
% 0.81/1.57 multiply( X, Z ), Z ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 358, [ =( divide( multiply( X, Z ), Z ), multiply( multiply( X,
% 0.81/1.57 inverse( Y ) ), Y ) ) ] )
% 0.81/1.57 , clause( 2399, [ =( divide( multiply( X, Z ), Z ), multiply( multiply( X,
% 0.81/1.57 inverse( Y ) ), Y ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2400, [ =( inverse( T ), multiply( multiply( divide( X, Y ), divide(
% 0.81/1.57 divide( Y, X ), multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 37, [ =( multiply( multiply( divide( Z, T ), divide( divide( T, Z
% 0.81/1.57 ), multiply( X, Y ) ) ), X ), inverse( Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2402, [ =( inverse( divide( X, Y ) ), multiply( multiply( divide( Y
% 0.81/1.57 , X ), divide( T, multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , clause( 284, [ =( divide( Z, multiply( X, Z ) ), divide( Y, multiply( X,
% 0.81/1.57 Y ) ) ) ] )
% 0.81/1.57 , 0, clause( 2400, [ =( inverse( T ), multiply( multiply( divide( X, Y ),
% 0.81/1.57 divide( divide( Y, X ), multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, 10, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, divide( X, Y ) )] )
% 0.81/1.57 , substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, divide( X
% 0.81/1.57 , Y ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2405, [ =( multiply( multiply( divide( Y, X ), divide( Z, multiply(
% 0.81/1.57 T, Z ) ) ), T ), inverse( divide( X, Y ) ) ) ] )
% 0.81/1.57 , clause( 2402, [ =( inverse( divide( X, Y ) ), multiply( multiply( divide(
% 0.81/1.57 Y, X ), divide( T, multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, T ), :=( T, Z )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 430, [ =( multiply( multiply( divide( Y, X ), divide( T, multiply(
% 0.81/1.57 Z, T ) ) ), Z ), inverse( divide( X, Y ) ) ) ] )
% 0.81/1.57 , clause( 2405, [ =( multiply( multiply( divide( Y, X ), divide( Z,
% 0.81/1.57 multiply( T, Z ) ) ), T ), inverse( divide( X, Y ) ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, T ), :=( T, Z )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2408, [ =( Y, divide( X, multiply( multiply( divide( inverse( Y ),
% 0.81/1.57 Z ), divide( multiply( Z, T ), T ) ), X ) ) ) ] )
% 0.81/1.57 , clause( 273, [ =( divide( T, multiply( multiply( divide( inverse( Y ), X
% 0.81/1.57 ), divide( multiply( X, Z ), Z ) ), T ) ), Y ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, T ), :=( T, X )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2417, [ =( X, divide( Y, divide( divide( inverse( X ), divide(
% 0.81/1.57 divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ] )
% 0.81/1.57 , clause( 33, [ =( multiply( multiply( Y, divide( multiply( divide( divide(
% 0.81/1.57 T, Z ), X ), divide( X, divide( Y, divide( Z, T ) ) ) ), divide( U, W ) )
% 0.81/1.57 ), U ), W ) ] )
% 0.81/1.57 , 0, clause( 2408, [ =( Y, divide( X, multiply( multiply( divide( inverse(
% 0.81/1.57 Y ), Z ), divide( multiply( Z, T ), T ) ), X ) ) ) ] )
% 0.81/1.57 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, divide( inverse( X ), divide(
% 0.81/1.57 divide( Z, T ), Y ) ) ), :=( Z, T ), :=( T, Z ), :=( U, Y ), :=( W,
% 0.81/1.57 divide( divide( inverse( X ), divide( divide( Z, T ), Y ) ), divide( T, Z
% 0.81/1.57 ) ) )] ), substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, divide(
% 0.81/1.57 divide( Z, T ), Y ) ), :=( T, divide( Y, divide( divide( inverse( X ),
% 0.81/1.57 divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2419, [ =( divide( Y, divide( divide( inverse( X ), divide( divide(
% 0.81/1.57 Z, T ), Y ) ), divide( T, Z ) ) ), X ) ] )
% 0.81/1.57 , clause( 2417, [ =( X, divide( Y, divide( divide( inverse( X ), divide(
% 0.81/1.57 divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 765, [ =( divide( T, divide( divide( inverse( X ), divide( divide(
% 0.81/1.57 Y, Z ), T ) ), divide( Z, Y ) ) ), X ) ] )
% 0.81/1.57 , clause( 2419, [ =( divide( Y, divide( divide( inverse( X ), divide(
% 0.81/1.57 divide( Z, T ), Y ) ), divide( T, Z ) ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Y ), :=( T, Z )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2421, [ =( Y, divide( X, divide( divide( inverse( Y ), divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ) ) ) ] )
% 0.81/1.57 , clause( 765, [ =( divide( T, divide( divide( inverse( X ), divide( divide(
% 0.81/1.57 Y, Z ), T ) ), divide( Z, Y ) ) ), X ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, X )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2426, [ =( X, divide( divide( Y, Z ), divide( T, divide( divide(
% 0.81/1.57 divide( Z, Y ), inverse( X ) ), inverse( T ) ) ) ) ) ] )
% 0.81/1.57 , clause( 765, [ =( divide( T, divide( divide( inverse( X ), divide( divide(
% 0.81/1.57 Y, Z ), T ) ), divide( Z, Y ) ) ), X ) ] )
% 0.81/1.57 , 0, clause( 2421, [ =( Y, divide( X, divide( divide( inverse( Y ), divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ) ) ) ] )
% 0.81/1.57 , 0, 7, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y ), :=( T,
% 0.81/1.57 inverse( X ) )] ), substitution( 1, [ :=( X, divide( Y, Z ) ), :=( Y, X )
% 0.81/1.57 , :=( Z, inverse( T ) ), :=( T, divide( divide( Z, Y ), inverse( X ) ) )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2431, [ =( X, divide( divide( Y, Z ), divide( T, divide( multiply(
% 0.81/1.57 divide( Z, Y ), X ), inverse( T ) ) ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2426, [ =( X, divide( divide( Y, Z ), divide( T, divide(
% 0.81/1.57 divide( divide( Z, Y ), inverse( X ) ), inverse( T ) ) ) ) ) ] )
% 0.81/1.57 , 0, 9, substitution( 0, [ :=( X, divide( Z, Y ) ), :=( Y, X )] ),
% 0.81/1.57 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2433, [ =( X, divide( divide( Y, Z ), divide( T, multiply( multiply(
% 0.81/1.57 divide( Z, Y ), X ), T ) ) ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2431, [ =( X, divide( divide( Y, Z ), divide( T, divide(
% 0.81/1.57 multiply( divide( Z, Y ), X ), inverse( T ) ) ) ) ) ] )
% 0.81/1.57 , 0, 8, substitution( 0, [ :=( X, multiply( divide( Z, Y ), X ) ), :=( Y, T
% 0.81/1.57 )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2434, [ =( divide( divide( Y, Z ), divide( T, multiply( multiply(
% 0.81/1.57 divide( Z, Y ), X ), T ) ) ), X ) ] )
% 0.81/1.57 , clause( 2433, [ =( X, divide( divide( Y, Z ), divide( T, multiply(
% 0.81/1.57 multiply( divide( Z, Y ), X ), T ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 772, [ =( divide( divide( T, Z ), divide( Y, multiply( multiply(
% 0.81/1.57 divide( Z, T ), X ), Y ) ) ), X ) ] )
% 0.81/1.57 , clause( 2434, [ =( divide( divide( Y, Z ), divide( T, multiply( multiply(
% 0.81/1.57 divide( Z, Y ), X ), T ) ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Z ), :=( T, Y )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2435, [ =( Y, multiply( multiply( divide( inverse( divide( X, Y ) )
% 0.81/1.57 , Z ), divide( multiply( Z, T ), T ) ), X ) ) ] )
% 0.81/1.57 , clause( 278, [ =( multiply( multiply( divide( inverse( divide( Y, Z ) ),
% 0.81/1.57 X ), divide( multiply( X, T ), T ) ), Y ), Z ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, X ), :=( Z, Y ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2437, [ =( X, divide( divide( inverse( divide( Y, X ) ), divide(
% 0.81/1.57 divide( Z, T ), Y ) ), divide( T, Z ) ) ) ] )
% 0.81/1.57 , clause( 33, [ =( multiply( multiply( Y, divide( multiply( divide( divide(
% 0.81/1.57 T, Z ), X ), divide( X, divide( Y, divide( Z, T ) ) ) ), divide( U, W ) )
% 0.81/1.57 ), U ), W ) ] )
% 0.81/1.57 , 0, clause( 2435, [ =( Y, multiply( multiply( divide( inverse( divide( X,
% 0.81/1.57 Y ) ), Z ), divide( multiply( Z, T ), T ) ), X ) ) ] )
% 0.81/1.57 , 0, 2, substitution( 0, [ :=( X, Y ), :=( Y, divide( inverse( divide( Y, X
% 0.81/1.57 ) ), divide( divide( Z, T ), Y ) ) ), :=( Z, T ), :=( T, Z ), :=( U, Y )
% 0.81/1.57 , :=( W, divide( divide( inverse( divide( Y, X ) ), divide( divide( Z, T
% 0.81/1.57 ), Y ) ), divide( T, Z ) ) )] ), substitution( 1, [ :=( X, Y ), :=( Y, X
% 0.81/1.57 ), :=( Z, divide( divide( Z, T ), Y ) ), :=( T, divide( Y, divide(
% 0.81/1.57 divide( inverse( divide( Y, X ) ), divide( divide( Z, T ), Y ) ), divide(
% 0.81/1.57 T, Z ) ) ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2439, [ =( divide( divide( inverse( divide( Y, X ) ), divide(
% 0.81/1.57 divide( Z, T ), Y ) ), divide( T, Z ) ), X ) ] )
% 0.81/1.57 , clause( 2437, [ =( X, divide( divide( inverse( divide( Y, X ) ), divide(
% 0.81/1.57 divide( Z, T ), Y ) ), divide( T, Z ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 939, [ =( divide( divide( inverse( divide( X, Y ) ), divide( divide(
% 0.81/1.57 Z, T ), X ) ), divide( T, Z ) ), Y ) ] )
% 0.81/1.57 , clause( 2439, [ =( divide( divide( inverse( divide( Y, X ) ), divide(
% 0.81/1.57 divide( Z, T ), Y ) ), divide( T, Z ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, T )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2442, [ =( W, multiply( multiply( multiply( divide( divide( X, Y )
% 0.81/1.57 , Z ), divide( Z, divide( T, divide( Y, X ) ) ) ), divide( T, divide( U,
% 0.81/1.57 W ) ) ), U ) ) ] )
% 0.81/1.57 , clause( 34, [ =( multiply( multiply( multiply( divide( divide( T, Z ), X
% 0.81/1.57 ), divide( X, divide( Y, divide( Z, T ) ) ) ), divide( Y, divide( U, W )
% 0.81/1.57 ) ), U ), W ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, Y ), :=( T, X ),
% 0.81/1.57 :=( U, U ), :=( W, W )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2450, [ =( X, multiply( multiply( multiply( divide( divide( Y, Z )
% 0.81/1.57 , T ), divide( T, divide( divide( inverse( divide( U, W ) ), divide(
% 0.81/1.57 divide( X, V0 ), U ) ), divide( Z, Y ) ) ) ), W ), V0 ) ) ] )
% 0.81/1.57 , clause( 939, [ =( divide( divide( inverse( divide( X, Y ) ), divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ), Y ) ] )
% 0.81/1.57 , 0, clause( 2442, [ =( W, multiply( multiply( multiply( divide( divide( X
% 0.81/1.57 , Y ), Z ), divide( Z, divide( T, divide( Y, X ) ) ) ), divide( T, divide(
% 0.81/1.57 U, W ) ) ), U ) ) ] )
% 0.81/1.57 , 0, 26, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, X ), :=( T, V0 )] )
% 0.81/1.57 , substitution( 1, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, divide(
% 0.81/1.57 inverse( divide( U, W ) ), divide( divide( X, V0 ), U ) ) ), :=( U, V0 )
% 0.81/1.57 , :=( W, X )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2452, [ =( X, multiply( multiply( divide( divide( divide( X, V0 ),
% 0.81/1.57 U ), inverse( divide( U, W ) ) ), W ), V0 ) ) ] )
% 0.81/1.57 , clause( 78, [ =( multiply( divide( divide( X, Y ), Z ), divide( Z, divide(
% 0.81/1.57 divide( T, U ), divide( Y, X ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.57 , 0, clause( 2450, [ =( X, multiply( multiply( multiply( divide( divide( Y
% 0.81/1.57 , Z ), T ), divide( T, divide( divide( inverse( divide( U, W ) ), divide(
% 0.81/1.57 divide( X, V0 ), U ) ), divide( Z, Y ) ) ) ), W ), V0 ) ) ] )
% 0.81/1.57 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T,
% 0.81/1.57 inverse( divide( U, W ) ) ), :=( U, divide( divide( X, V0 ), U ) )] ),
% 0.81/1.57 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.57 , U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2453, [ =( X, multiply( multiply( multiply( divide( divide( X, Y )
% 0.81/1.57 , Z ), divide( Z, T ) ), T ), Y ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2452, [ =( X, multiply( multiply( divide( divide( divide( X,
% 0.81/1.57 V0 ), U ), inverse( divide( U, W ) ) ), W ), V0 ) ) ] )
% 0.81/1.57 , 0, 4, substitution( 0, [ :=( X, divide( divide( X, Y ), Z ) ), :=( Y,
% 0.81/1.57 divide( Z, T ) )] ), substitution( 1, [ :=( X, X ), :=( Y, U ), :=( Z, W
% 0.81/1.57 ), :=( T, V0 ), :=( U, Z ), :=( W, T ), :=( V0, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2454, [ =( multiply( multiply( multiply( divide( divide( X, Y ), Z
% 0.81/1.57 ), divide( Z, T ) ), T ), Y ), X ) ] )
% 0.81/1.57 , clause( 2453, [ =( X, multiply( multiply( multiply( divide( divide( X, Y
% 0.81/1.57 ), Z ), divide( Z, T ) ), T ), Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 965, [ =( multiply( multiply( multiply( divide( divide( Z, T ), X )
% 0.81/1.57 , divide( X, Y ) ), Y ), T ), Z ) ] )
% 0.81/1.57 , clause( 2454, [ =( multiply( multiply( multiply( divide( divide( X, Y ),
% 0.81/1.57 Z ), divide( Z, T ) ), T ), Y ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2455, [ =( X, multiply( multiply( multiply( divide( divide( X, Y )
% 0.81/1.57 , Z ), divide( Z, T ) ), T ), Y ) ) ] )
% 0.81/1.57 , clause( 965, [ =( multiply( multiply( multiply( divide( divide( Z, T ), X
% 0.81/1.57 ), divide( X, Y ) ), Y ), T ), Z ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2456, [ =( multiply( multiply( X, inverse( Z ) ), Z ), divide(
% 0.81/1.57 multiply( X, Y ), Y ) ) ] )
% 0.81/1.57 , clause( 358, [ =( divide( multiply( X, Z ), Z ), multiply( multiply( X,
% 0.81/1.57 inverse( Y ) ), Y ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2458, [ =( X, divide( multiply( multiply( divide( divide( X, Y ), Z
% 0.81/1.57 ), divide( Z, inverse( Y ) ) ), T ), T ) ) ] )
% 0.81/1.57 , clause( 2456, [ =( multiply( multiply( X, inverse( Z ) ), Z ), divide(
% 0.81/1.57 multiply( X, Y ), Y ) ) ] )
% 0.81/1.57 , 0, clause( 2455, [ =( X, multiply( multiply( multiply( divide( divide( X
% 0.81/1.57 , Y ), Z ), divide( Z, T ) ), T ), Y ) ) ] )
% 0.81/1.57 , 0, 2, substitution( 0, [ :=( X, multiply( divide( divide( X, Y ), Z ),
% 0.81/1.57 divide( Z, inverse( Y ) ) ) ), :=( Y, T ), :=( Z, Y )] ), substitution( 1
% 0.81/1.57 , [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, inverse( Y ) )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2459, [ =( X, divide( multiply( multiply( divide( divide( X, Y ), Z
% 0.81/1.57 ), multiply( Z, Y ) ), T ), T ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2458, [ =( X, divide( multiply( multiply( divide( divide( X, Y
% 0.81/1.57 ), Z ), divide( Z, inverse( Y ) ) ), T ), T ) ) ] )
% 0.81/1.57 , 0, 10, substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), substitution( 1, [
% 0.81/1.57 :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2460, [ =( divide( multiply( multiply( divide( divide( X, Y ), Z )
% 0.81/1.57 , multiply( Z, Y ) ), T ), T ), X ) ] )
% 0.81/1.57 , clause( 2459, [ =( X, divide( multiply( multiply( divide( divide( X, Y )
% 0.81/1.57 , Z ), multiply( Z, Y ) ), T ), T ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 1032, [ =( divide( multiply( multiply( divide( divide( X, Y ), Z )
% 0.81/1.57 , multiply( Z, Y ) ), T ), T ), X ) ] )
% 0.81/1.57 , clause( 2460, [ =( divide( multiply( multiply( divide( divide( X, Y ), Z
% 0.81/1.57 ), multiply( Z, Y ) ), T ), T ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2462, [ =( X, divide( multiply( multiply( divide( divide( X, Y ), Z
% 0.81/1.57 ), multiply( Z, Y ) ), T ), T ) ) ] )
% 0.81/1.57 , clause( 1032, [ =( divide( multiply( multiply( divide( divide( X, Y ), Z
% 0.81/1.57 ), multiply( Z, Y ) ), T ), T ), X ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2469, [ =( inverse( divide( X, Y ) ), divide( multiply( multiply( Y
% 0.81/1.57 , multiply( divide( T, Z ), divide( divide( Z, T ), X ) ) ), U ), U ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 939, [ =( divide( divide( inverse( divide( X, Y ) ), divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ), Y ) ] )
% 0.81/1.57 , 0, clause( 2462, [ =( X, divide( multiply( multiply( divide( divide( X, Y
% 0.81/1.57 ), Z ), multiply( Z, Y ) ), T ), T ) ) ] )
% 0.81/1.57 , 0, 8, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 , substitution( 1, [ :=( X, inverse( divide( X, Y ) ) ), :=( Y, divide(
% 0.81/1.57 divide( Z, T ), X ) ), :=( Z, divide( T, Z ) ), :=( T, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2471, [ =( divide( multiply( multiply( Y, multiply( divide( Z, T )
% 0.81/1.57 , divide( divide( T, Z ), X ) ) ), U ), U ), inverse( divide( X, Y ) ) )
% 0.81/1.57 ] )
% 0.81/1.57 , clause( 2469, [ =( inverse( divide( X, Y ) ), divide( multiply( multiply(
% 0.81/1.57 Y, multiply( divide( T, Z ), divide( divide( Z, T ), X ) ) ), U ), U ) )
% 0.81/1.57 ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, T ), :=( T, Z ),
% 0.81/1.57 :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 1052, [ =( divide( multiply( multiply( Y, multiply( divide( T, Z )
% 0.81/1.57 , divide( divide( Z, T ), X ) ) ), U ), U ), inverse( divide( X, Y ) ) )
% 0.81/1.57 ] )
% 0.81/1.57 , clause( 2471, [ =( divide( multiply( multiply( Y, multiply( divide( Z, T
% 0.81/1.57 ), divide( divide( T, Z ), X ) ) ), U ), U ), inverse( divide( X, Y ) )
% 0.81/1.57 ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, T ), :=( T, Z ), :=( U
% 0.81/1.57 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2474, [ =( Y, divide( X, divide( divide( inverse( Y ), divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ) ) ) ] )
% 0.81/1.57 , clause( 765, [ =( divide( T, divide( divide( inverse( X ), divide( divide(
% 0.81/1.57 Y, Z ), T ) ), divide( Z, Y ) ) ), X ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, X )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2484, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ), divide(
% 0.81/1.57 Z, Y ) ), divide( X, inverse( T ) ) ) ] )
% 0.81/1.57 , clause( 107, [ =( divide( divide( inverse( divide( divide( X, Y ), divide(
% 0.81/1.57 Z, T ) ) ), divide( Y, X ) ), divide( U, divide( T, Z ) ) ), inverse( U )
% 0.81/1.57 ) ] )
% 0.81/1.57 , 0, clause( 2474, [ =( Y, divide( X, divide( divide( inverse( Y ), divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ) ) ) ] )
% 0.81/1.57 , 0, 14, substitution( 0, [ :=( X, X ), :=( Y, divide( divide( Y, Z ), T )
% 0.81/1.57 ), :=( Z, Z ), :=( T, Y ), :=( U, T )] ), substitution( 1, [ :=( X, X )
% 0.81/1.57 , :=( Y, divide( divide( X, divide( divide( Y, Z ), T ) ), divide( Z, Y )
% 0.81/1.57 ) ), :=( Z, divide( Y, Z ) ), :=( T, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2496, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ), divide(
% 0.81/1.57 Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.57 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.57 , 0, clause( 2484, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ),
% 0.81/1.57 divide( Z, Y ) ), divide( X, inverse( T ) ) ) ] )
% 0.81/1.57 , 0, 12, substitution( 0, [ :=( X, X ), :=( Y, T )] ), substitution( 1, [
% 0.81/1.57 :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 1114, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ), divide(
% 0.81/1.57 Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.57 , clause( 2496, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ),
% 0.81/1.57 divide( Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] ),
% 0.81/1.57 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2499, [ =( X, divide( multiply( multiply( divide( divide( X, Y ), Z
% 0.81/1.57 ), multiply( Z, Y ) ), T ), T ) ) ] )
% 0.81/1.57 , clause( 1032, [ =( divide( multiply( multiply( divide( divide( X, Y ), Z
% 0.81/1.57 ), multiply( Z, Y ) ), T ), T ), X ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2504, [ =( X, divide( multiply( multiply( multiply( X, T ),
% 0.81/1.57 multiply( divide( Z, Y ), divide( divide( Y, Z ), T ) ) ), U ), U ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , clause( 1114, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ),
% 0.81/1.57 divide( Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.57 , 0, clause( 2499, [ =( X, divide( multiply( multiply( divide( divide( X, Y
% 0.81/1.57 ), Z ), multiply( Z, Y ) ), T ), T ) ) ] )
% 0.81/1.57 , 0, 5, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.57 , substitution( 1, [ :=( X, X ), :=( Y, divide( divide( Y, Z ), T ) ),
% 0.81/1.57 :=( Z, divide( Z, Y ) ), :=( T, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2506, [ =( X, inverse( divide( Y, multiply( X, Y ) ) ) ) ] )
% 0.81/1.57 , clause( 1052, [ =( divide( multiply( multiply( Y, multiply( divide( T, Z
% 0.81/1.57 ), divide( divide( Z, T ), X ) ) ), U ), U ), inverse( divide( X, Y ) )
% 0.81/1.57 ) ] )
% 0.81/1.57 , 0, clause( 2504, [ =( X, divide( multiply( multiply( multiply( X, T ),
% 0.81/1.57 multiply( divide( Z, Y ), divide( divide( Y, Z ), T ) ) ), U ), U ) ) ]
% 0.81/1.57 )
% 0.81/1.57 , 0, 2, substitution( 0, [ :=( X, Y ), :=( Y, multiply( X, Y ) ), :=( Z, T
% 0.81/1.57 ), :=( T, Z ), :=( U, U )] ), substitution( 1, [ :=( X, X ), :=( Y, T )
% 0.81/1.57 , :=( Z, Z ), :=( T, Y ), :=( U, U )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2507, [ =( inverse( divide( Y, multiply( X, Y ) ) ), X ) ] )
% 0.81/1.57 , clause( 2506, [ =( X, inverse( divide( Y, multiply( X, Y ) ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 1138, [ =( inverse( divide( T, multiply( X, T ) ) ), X ) ] )
% 0.81/1.57 , clause( 2507, [ =( inverse( divide( Y, multiply( X, Y ) ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, T )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.57 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2509, [ =( Y, divide( X, divide( divide( inverse( Y ), divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ) ) ) ] )
% 0.81/1.57 , clause( 765, [ =( divide( T, divide( divide( inverse( X ), divide( divide(
% 0.81/1.57 Y, Z ), T ) ), divide( Z, Y ) ) ), X ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, X )] )
% 0.81/1.57 ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 paramod(
% 0.81/1.57 clause( 2518, [ =( X, divide( Y, multiply( inverse( X ), Y ) ) ) ] )
% 0.81/1.57 , clause( 1114, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ),
% 0.81/1.57 divide( Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.57 , 0, clause( 2509, [ =( Y, divide( X, divide( divide( inverse( Y ), divide(
% 0.81/1.57 divide( Z, T ), X ) ), divide( T, Z ) ) ) ) ] )
% 0.81/1.57 , 0, 4, substitution( 0, [ :=( X, inverse( X ) ), :=( Y, Z ), :=( Z, T ),
% 0.81/1.57 :=( T, Y )] ), substitution( 1, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ),
% 0.81/1.57 :=( T, T )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2522, [ =( divide( Y, multiply( inverse( X ), Y ) ), X ) ] )
% 0.81/1.57 , clause( 2518, [ =( X, divide( Y, multiply( inverse( X ), Y ) ) ) ] )
% 0.81/1.57 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 subsumption(
% 0.81/1.57 clause( 1160, [ =( divide( T, multiply( inverse( X ), T ) ), X ) ] )
% 0.81/1.57 , clause( 2522, [ =( divide( Y, multiply( inverse( X ), Y ) ), X ) ] )
% 0.81/1.57 , substitution( 0, [ :=( X, X ), :=( Y, T )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.57 )] ) ).
% 0.81/1.57
% 0.81/1.57
% 0.81/1.57 eqswap(
% 0.81/1.57 clause( 2527, [ =( multiply( X, T ), divide( divide( X, divide( divide( Y,
% 0.81/1.57 Z ), T ) ), divide( Z, Y ) ) ) ] )
% 0.81/1.57 , clause( 1114, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ),
% 0.81/1.58 divide( Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2531, [ =( multiply( X, Y ), divide( divide( X, divide( divide(
% 0.81/1.58 multiply( multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z
% 0.81/1.58 ), divide( U, multiply( W, V0 ) ) ) ), inverse( U ) ), Y ) ), divide(
% 0.81/1.58 inverse( V0 ), W ) ) ) ] )
% 0.81/1.58 , clause( 25, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ),
% 0.81/1.58 X ), divide( multiply( inverse( X ), Y ), divide( Z, multiply( T, U ) ) )
% 0.81/1.58 ) ), divide( inverse( U ), T ) ) ] )
% 0.81/1.58 , 0, clause( 2527, [ =( multiply( X, T ), divide( divide( X, divide( divide(
% 0.81/1.58 Y, Z ), T ) ), divide( Z, Y ) ) ) ] )
% 0.81/1.58 , 0, 27, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, U ), :=( T, W )
% 0.81/1.58 , :=( U, V0 )] ), substitution( 1, [ :=( X, X ), :=( Y, multiply(
% 0.81/1.58 multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z ), divide(
% 0.81/1.58 U, multiply( W, V0 ) ) ) ) ), :=( Z, inverse( U ) ), :=( T, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2532, [ =( multiply( X, Y ), divide( divide( X, divide( multiply(
% 0.81/1.58 multiply( multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z
% 0.81/1.58 ), divide( U, multiply( W, V0 ) ) ) ), U ), Y ) ), divide( inverse( V0 )
% 0.81/1.58 , W ) ) ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 2531, [ =( multiply( X, Y ), divide( divide( X, divide( divide(
% 0.81/1.58 multiply( multiply( inverse( Z ), T ), divide( multiply( inverse( T ), Z
% 0.81/1.58 ), divide( U, multiply( W, V0 ) ) ) ), inverse( U ) ), Y ) ), divide(
% 0.81/1.58 inverse( V0 ), W ) ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, multiply( multiply( inverse( Z ), T ),
% 0.81/1.58 divide( multiply( inverse( T ), Z ), divide( U, multiply( W, V0 ) ) ) ) )
% 0.81/1.58 , :=( Y, U )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2533, [ =( multiply( X, Y ), divide( divide( X, divide( multiply( W
% 0.81/1.58 , V0 ), Y ) ), divide( inverse( V0 ), W ) ) ) ] )
% 0.81/1.58 , clause( 40, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.58 multiply( inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.58 , 0, clause( 2532, [ =( multiply( X, Y ), divide( divide( X, divide(
% 0.81/1.58 multiply( multiply( multiply( inverse( Z ), T ), divide( multiply(
% 0.81/1.58 inverse( T ), Z ), divide( U, multiply( W, V0 ) ) ) ), U ), Y ) ), divide(
% 0.81/1.58 inverse( V0 ), W ) ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T,
% 0.81/1.58 multiply( W, V0 ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z
% 0.81/1.58 , Z ), :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2534, [ =( divide( divide( X, divide( multiply( Z, T ), Y ) ),
% 0.81/1.58 divide( inverse( T ), Z ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , clause( 2533, [ =( multiply( X, Y ), divide( divide( X, divide( multiply(
% 0.81/1.58 W, V0 ), Y ) ), divide( inverse( V0 ), W ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, U ), :=( T, W ),
% 0.81/1.58 :=( U, V0 ), :=( W, Z ), :=( V0, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1202, [ =( divide( divide( W, divide( multiply( T, U ), V0 ) ),
% 0.81/1.58 divide( inverse( U ), T ) ), multiply( W, V0 ) ) ] )
% 0.81/1.58 , clause( 2534, [ =( divide( divide( X, divide( multiply( Z, T ), Y ) ),
% 0.81/1.58 divide( inverse( T ), Z ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, T ), :=( T, U )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2536, [ =( divide( U, T ), divide( inverse( X ), multiply( multiply(
% 0.81/1.58 inverse( Y ), Z ), divide( multiply( inverse( Z ), Y ), divide( X, divide(
% 0.81/1.58 T, U ) ) ) ) ) ) ] )
% 0.81/1.58 , clause( 26, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ),
% 0.81/1.58 X ), divide( multiply( inverse( X ), Y ), divide( Z, divide( T, U ) ) ) )
% 0.81/1.58 ), divide( U, T ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X ), :=( T, T ),
% 0.81/1.58 :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2542, [ =( divide( divide( X, Y ), divide( Z, divide( divide( Y, X
% 0.81/1.58 ), T ) ) ), divide( inverse( U ), multiply( multiply( inverse( W ), V0 )
% 0.81/1.58 , divide( multiply( inverse( V0 ), W ), divide( U, multiply( Z, T ) ) ) )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , clause( 1114, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ),
% 0.81/1.58 divide( Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.58 , 0, clause( 2536, [ =( divide( U, T ), divide( inverse( X ), multiply(
% 0.81/1.58 multiply( inverse( Y ), Z ), divide( multiply( inverse( Z ), Y ), divide(
% 0.81/1.58 X, divide( T, U ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 27, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X ), :=( T, T )] )
% 0.81/1.58 , substitution( 1, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T, divide(
% 0.81/1.58 Z, divide( divide( Y, X ), T ) ) ), :=( U, divide( X, Y ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2543, [ =( divide( divide( X, Y ), divide( Z, divide( divide( Y, X
% 0.81/1.58 ), T ) ) ), divide( inverse( T ), Z ) ) ] )
% 0.81/1.58 , clause( 25, [ =( divide( inverse( Z ), multiply( multiply( inverse( Y ),
% 0.81/1.58 X ), divide( multiply( inverse( X ), Y ), divide( Z, multiply( T, U ) ) )
% 0.81/1.58 ) ), divide( inverse( U ), T ) ) ] )
% 0.81/1.58 , 0, clause( 2542, [ =( divide( divide( X, Y ), divide( Z, divide( divide(
% 0.81/1.58 Y, X ), T ) ) ), divide( inverse( U ), multiply( multiply( inverse( W ),
% 0.81/1.58 V0 ), divide( multiply( inverse( V0 ), W ), divide( U, multiply( Z, T ) )
% 0.81/1.58 ) ) ) ) ] )
% 0.81/1.58 , 0, 12, substitution( 0, [ :=( X, V0 ), :=( Y, W ), :=( Z, U ), :=( T, Z )
% 0.81/1.58 , :=( U, T )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T ), :=( U, U ), :=( W, W ), :=( V0, V0 )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1204, [ =( divide( divide( Z, Y ), divide( X, divide( divide( Y, Z
% 0.81/1.58 ), T ) ) ), divide( inverse( T ), X ) ) ] )
% 0.81/1.58 , clause( 2543, [ =( divide( divide( X, Y ), divide( Z, divide( divide( Y,
% 0.81/1.58 X ), T ) ) ), divide( inverse( T ), Z ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X ), :=( T, T )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2546, [ =( divide( X, Z ), multiply( X, divide( Y, divide( divide(
% 0.81/1.58 Z, divide( divide( T, U ), Y ) ), divide( U, T ) ) ) ) ) ] )
% 0.81/1.58 , clause( 51, [ =( multiply( U, divide( X, divide( divide( Y, divide(
% 0.81/1.58 divide( Z, T ), X ) ), divide( T, Z ) ) ) ), divide( U, Y ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, U ),
% 0.81/1.58 :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2550, [ =( divide( X, Y ), multiply( X, divide( Z, multiply( Y, Z )
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , clause( 1114, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ),
% 0.81/1.58 divide( Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.58 , 0, clause( 2546, [ =( divide( X, Z ), multiply( X, divide( Y, divide(
% 0.81/1.58 divide( Z, divide( divide( T, U ), Y ) ), divide( U, T ) ) ) ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, Y ), :=( Y, T ), :=( Z, U ), :=( T, Z )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Z ), :=( Z, Y ), :=( T, T ), :=(
% 0.81/1.58 U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2558, [ =( multiply( X, divide( Z, multiply( Y, Z ) ) ), divide( X
% 0.81/1.58 , Y ) ) ] )
% 0.81/1.58 , clause( 2550, [ =( divide( X, Y ), multiply( X, divide( Z, multiply( Y, Z
% 0.81/1.58 ) ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1221, [ =( multiply( U, divide( T, multiply( X, T ) ) ), divide( U
% 0.81/1.58 , X ) ) ] )
% 0.81/1.58 , clause( 2558, [ =( multiply( X, divide( Z, multiply( Y, Z ) ) ), divide(
% 0.81/1.58 X, Y ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, T )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2564, [ =( Y, inverse( divide( X, divide( divide( Y, divide( divide(
% 0.81/1.58 Z, T ), X ) ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.58 , clause( 46, [ =( inverse( divide( U, divide( divide( Y, divide( divide( Z
% 0.81/1.58 , T ), U ) ), divide( T, Z ) ) ) ), Y ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, U ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.58 :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2566, [ =( divide( X, divide( divide( Y, divide( Z, T ) ), U ) ),
% 0.81/1.58 inverse( divide( Y, divide( multiply( X, U ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1114, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ),
% 0.81/1.58 divide( Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.58 , 0, clause( 2564, [ =( Y, inverse( divide( X, divide( divide( Y, divide(
% 0.81/1.58 divide( Z, T ), X ) ), divide( T, Z ) ) ) ) ) ] )
% 0.81/1.58 , 0, 14, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, divide( Z, T ) )
% 0.81/1.58 , :=( T, U )] ), substitution( 1, [ :=( X, Y ), :=( Y, divide( X, divide(
% 0.81/1.58 divide( Y, divide( Z, T ) ), U ) ) ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2571, [ =( inverse( divide( Y, divide( multiply( X, U ), divide( T
% 0.81/1.58 , Z ) ) ) ), divide( X, divide( divide( Y, divide( Z, T ) ), U ) ) ) ] )
% 0.81/1.58 , clause( 2566, [ =( divide( X, divide( divide( Y, divide( Z, T ) ), U ) )
% 0.81/1.58 , inverse( divide( Y, divide( multiply( X, U ), divide( T, Z ) ) ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.58 :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1230, [ =( inverse( divide( Y, divide( multiply( X, U ), divide( T
% 0.81/1.58 , Z ) ) ) ), divide( X, divide( divide( Y, divide( Z, T ) ), U ) ) ) ] )
% 0.81/1.58 , clause( 2571, [ =( inverse( divide( Y, divide( multiply( X, U ), divide(
% 0.81/1.58 T, Z ) ) ) ), divide( X, divide( divide( Y, divide( Z, T ) ), U ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2576, [ =( Y, divide( inverse( divide( X, divide( Y, divide(
% 0.81/1.58 inverse( Z ), T ) ) ) ), divide( multiply( T, Z ), X ) ) ) ] )
% 0.81/1.58 , clause( 9, [ =( divide( inverse( divide( Z, divide( T, divide( inverse( Y
% 0.81/1.58 ), X ) ) ) ), divide( multiply( X, Y ), Z ) ), T ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2585, [ =( divide( X, divide( divide( Y, inverse( Z ) ), T ) ),
% 0.81/1.58 divide( inverse( divide( U, multiply( X, T ) ) ), divide( multiply( Y, Z
% 0.81/1.58 ), U ) ) ) ] )
% 0.81/1.58 , clause( 1114, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ),
% 0.81/1.58 divide( Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.58 , 0, clause( 2576, [ =( Y, divide( inverse( divide( X, divide( Y, divide(
% 0.81/1.58 inverse( Z ), T ) ) ) ), divide( multiply( T, Z ), X ) ) ) ] )
% 0.81/1.58 , 0, 13, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, inverse( Z ) ),
% 0.81/1.58 :=( T, T )] ), substitution( 1, [ :=( X, U ), :=( Y, divide( X, divide(
% 0.81/1.58 divide( Y, inverse( Z ) ), T ) ) ), :=( Z, Z ), :=( T, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2586, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 inverse( divide( U, multiply( X, T ) ) ), divide( multiply( Y, Z ), U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 2585, [ =( divide( X, divide( divide( Y, inverse( Z ) ), T ) )
% 0.81/1.58 , divide( inverse( divide( U, multiply( X, T ) ) ), divide( multiply( Y,
% 0.81/1.58 Z ), U ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, Z )] ), substitution( 1, [
% 0.81/1.58 :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2587, [ =( divide( inverse( divide( U, multiply( X, T ) ) ), divide(
% 0.81/1.58 multiply( Y, Z ), U ) ), divide( X, divide( multiply( Y, Z ), T ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , clause( 2586, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 inverse( divide( U, multiply( X, T ) ) ), divide( multiply( Y, Z ), U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.58 :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1238, [ =( divide( inverse( divide( U, multiply( X, T ) ) ), divide(
% 0.81/1.58 multiply( Y, Z ), U ) ), divide( X, divide( multiply( Y, Z ), T ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , clause( 2587, [ =( divide( inverse( divide( U, multiply( X, T ) ) ),
% 0.81/1.58 divide( multiply( Y, Z ), U ) ), divide( X, divide( multiply( Y, Z ), T )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2589, [ =( Y, multiply( multiply( divide( inverse( divide( X, Y ) )
% 0.81/1.58 , Z ), divide( multiply( Z, T ), T ) ), X ) ) ] )
% 0.81/1.58 , clause( 278, [ =( multiply( multiply( divide( inverse( divide( Y, Z ) ),
% 0.81/1.58 X ), divide( multiply( X, T ), T ) ), Y ), Z ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, X ), :=( Z, Y ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2592, [ =( multiply( X, Y ), multiply( multiply( divide( X, Z ),
% 0.81/1.58 divide( multiply( Z, T ), T ) ), Y ) ) ] )
% 0.81/1.58 , clause( 1138, [ =( inverse( divide( T, multiply( X, T ) ) ), X ) ] )
% 0.81/1.58 , 0, clause( 2589, [ =( Y, multiply( multiply( divide( inverse( divide( X,
% 0.81/1.58 Y ) ), Z ), divide( multiply( Z, T ), T ) ), X ) ) ] )
% 0.81/1.58 , 0, 7, substitution( 0, [ :=( X, X ), :=( Y, U ), :=( Z, W ), :=( T, Y )] )
% 0.81/1.58 , substitution( 1, [ :=( X, Y ), :=( Y, multiply( X, Y ) ), :=( Z, Z ),
% 0.81/1.58 :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2593, [ =( multiply( multiply( divide( X, Z ), divide( multiply( Z
% 0.81/1.58 , T ), T ) ), Y ), multiply( X, Y ) ) ] )
% 0.81/1.58 , clause( 2592, [ =( multiply( X, Y ), multiply( multiply( divide( X, Z ),
% 0.81/1.58 divide( multiply( Z, T ), T ) ), Y ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1246, [ =( multiply( multiply( divide( Y, Z ), divide( multiply( Z
% 0.81/1.58 , T ), T ) ), X ), multiply( Y, X ) ) ] )
% 0.81/1.58 , clause( 2593, [ =( multiply( multiply( divide( X, Z ), divide( multiply(
% 0.81/1.58 Z, T ), T ) ), Y ), multiply( X, Y ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, Z ), :=( T, T )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2595, [ =( Y, inverse( divide( X, multiply( Y, X ) ) ) ) ] )
% 0.81/1.58 , clause( 1138, [ =( inverse( divide( T, multiply( X, T ) ) ), X ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, X )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2599, [ =( multiply( divide( X, Y ), divide( Z, multiply( T, Z ) )
% 0.81/1.58 ), inverse( divide( T, inverse( divide( Y, X ) ) ) ) ) ] )
% 0.81/1.58 , clause( 430, [ =( multiply( multiply( divide( Y, X ), divide( T, multiply(
% 0.81/1.58 Z, T ) ) ), Z ), inverse( divide( X, Y ) ) ) ] )
% 0.81/1.58 , 0, clause( 2595, [ =( Y, inverse( divide( X, multiply( Y, X ) ) ) ) ] )
% 0.81/1.58 , 0, 13, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, T ), :=( T, Z )] )
% 0.81/1.58 , substitution( 1, [ :=( X, T ), :=( Y, multiply( divide( X, Y ), divide(
% 0.81/1.58 Z, multiply( T, Z ) ) ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2600, [ =( multiply( divide( X, Y ), divide( Z, multiply( T, Z ) )
% 0.81/1.58 ), inverse( multiply( T, divide( Y, X ) ) ) ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 2599, [ =( multiply( divide( X, Y ), divide( Z, multiply( T, Z
% 0.81/1.58 ) ) ), inverse( divide( T, inverse( divide( Y, X ) ) ) ) ) ] )
% 0.81/1.58 , 0, 11, substitution( 0, [ :=( X, T ), :=( Y, divide( Y, X ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2601, [ =( divide( divide( X, Y ), T ), inverse( multiply( T,
% 0.81/1.58 divide( Y, X ) ) ) ) ] )
% 0.81/1.58 , clause( 1221, [ =( multiply( U, divide( T, multiply( X, T ) ) ), divide(
% 0.81/1.58 U, X ) ) ] )
% 0.81/1.58 , 0, clause( 2600, [ =( multiply( divide( X, Y ), divide( Z, multiply( T, Z
% 0.81/1.58 ) ) ), inverse( multiply( T, divide( Y, X ) ) ) ) ] )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, W ), :=( T, Z ),
% 0.81/1.58 :=( U, divide( X, Y ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ),
% 0.81/1.58 :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2602, [ =( inverse( multiply( Z, divide( Y, X ) ) ), divide( divide(
% 0.81/1.58 X, Y ), Z ) ) ] )
% 0.81/1.58 , clause( 2601, [ =( divide( divide( X, Y ), T ), inverse( multiply( T,
% 0.81/1.58 divide( Y, X ) ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, T ), :=( T, Z )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1250, [ =( inverse( multiply( T, divide( Y, X ) ) ), divide( divide(
% 0.81/1.58 X, Y ), T ) ) ] )
% 0.81/1.58 , clause( 2602, [ =( inverse( multiply( Z, divide( Y, X ) ) ), divide(
% 0.81/1.58 divide( X, Y ), Z ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, T )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2604, [ =( Y, inverse( divide( inverse( X ), divide( multiply( Y, Z
% 0.81/1.58 ), divide( inverse( divide( divide( inverse( T ), U ), multiply( X, Z )
% 0.81/1.58 ) ), multiply( U, T ) ) ) ) ) ) ] )
% 0.81/1.58 , clause( 58, [ =( inverse( divide( inverse( Z ), divide( multiply( W, T )
% 0.81/1.58 , divide( inverse( divide( divide( inverse( Y ), X ), multiply( Z, T ) )
% 0.81/1.58 ), multiply( X, Y ) ) ) ) ), W ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, X ), :=( T, Z ),
% 0.81/1.58 :=( U, W ), :=( W, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2608, [ =( X, inverse( divide( inverse( Y ), divide( multiply( X,
% 0.81/1.58 divide( inverse( Z ), T ) ), divide( Y, multiply( T, Z ) ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1138, [ =( inverse( divide( T, multiply( X, T ) ) ), X ) ] )
% 0.81/1.58 , 0, clause( 2604, [ =( Y, inverse( divide( inverse( X ), divide( multiply(
% 0.81/1.58 Y, Z ), divide( inverse( divide( divide( inverse( T ), U ), multiply( X,
% 0.81/1.58 Z ) ) ), multiply( U, T ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 14, substitution( 0, [ :=( X, Y ), :=( Y, U ), :=( Z, W ), :=( T,
% 0.81/1.58 divide( inverse( Z ), T ) )] ), substitution( 1, [ :=( X, Y ), :=( Y, X )
% 0.81/1.58 , :=( Z, divide( inverse( Z ), T ) ), :=( T, Z ), :=( U, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2611, [ =( X, divide( X, divide( divide( inverse( Y ), divide(
% 0.81/1.58 multiply( T, Z ), Y ) ), divide( inverse( Z ), T ) ) ) ) ] )
% 0.81/1.58 , clause( 1230, [ =( inverse( divide( Y, divide( multiply( X, U ), divide(
% 0.81/1.58 T, Z ) ) ) ), divide( X, divide( divide( Y, divide( Z, T ) ), U ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , 0, clause( 2608, [ =( X, inverse( divide( inverse( Y ), divide( multiply(
% 0.81/1.58 X, divide( inverse( Z ), T ) ), divide( Y, multiply( T, Z ) ) ) ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, X ), :=( Y, inverse( Y ) ), :=( Z,
% 0.81/1.58 multiply( T, Z ) ), :=( T, Y ), :=( U, divide( inverse( Z ), T ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2612, [ =( X, divide( X, multiply( inverse( Y ), Y ) ) ) ] )
% 0.81/1.58 , clause( 1202, [ =( divide( divide( W, divide( multiply( T, U ), V0 ) ),
% 0.81/1.58 divide( inverse( U ), T ) ), multiply( W, V0 ) ) ] )
% 0.81/1.58 , 0, clause( 2611, [ =( X, divide( X, divide( divide( inverse( Y ), divide(
% 0.81/1.58 multiply( T, Z ), Y ) ), divide( inverse( Z ), T ) ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T, Z )
% 0.81/1.58 , :=( U, T ), :=( W, inverse( Y ) ), :=( V0, Y )] ), substitution( 1, [
% 0.81/1.58 :=( X, X ), :=( Y, Y ), :=( Z, T ), :=( T, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2613, [ =( divide( X, multiply( inverse( Y ), Y ) ), X ) ] )
% 0.81/1.58 , clause( 2612, [ =( X, divide( X, multiply( inverse( Y ), Y ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , clause( 2613, [ =( divide( X, multiply( inverse( Y ), Y ) ), X ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, T ), :=( Y, Z )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2615, [ =( Y, inverse( divide( X, multiply( Y, X ) ) ) ) ] )
% 0.81/1.58 , clause( 1138, [ =( inverse( divide( T, multiply( X, T ) ) ), X ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, X )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2619, [ =( multiply( divide( X, Y ), Z ), inverse( divide( multiply(
% 0.81/1.58 divide( T, U ), divide( divide( U, T ), Z ) ), inverse( divide( Y, X ) )
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , clause( 138, [ =( multiply( multiply( divide( Y, X ), U ), multiply(
% 0.81/1.58 divide( Z, T ), divide( divide( T, Z ), U ) ) ), inverse( divide( X, Y )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , 0, clause( 2615, [ =( Y, inverse( divide( X, multiply( Y, X ) ) ) ) ] )
% 0.81/1.58 , 0, 17, substitution( 0, [ :=( X, Y ), :=( Y, X ), :=( Z, T ), :=( T, U )
% 0.81/1.58 , :=( U, Z )] ), substitution( 1, [ :=( X, multiply( divide( T, U ),
% 0.81/1.58 divide( divide( U, T ), Z ) ) ), :=( Y, multiply( divide( X, Y ), Z ) )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2620, [ =( multiply( divide( X, Y ), Z ), inverse( multiply(
% 0.81/1.58 multiply( divide( T, U ), divide( divide( U, T ), Z ) ), divide( Y, X ) )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 2619, [ =( multiply( divide( X, Y ), Z ), inverse( divide(
% 0.81/1.58 multiply( divide( T, U ), divide( divide( U, T ), Z ) ), inverse( divide(
% 0.81/1.58 Y, X ) ) ) ) ) ] )
% 0.81/1.58 , 0, 7, substitution( 0, [ :=( X, multiply( divide( T, U ), divide( divide(
% 0.81/1.58 U, T ), Z ) ) ), :=( Y, divide( Y, X ) )] ), substitution( 1, [ :=( X, X
% 0.81/1.58 ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2621, [ =( multiply( divide( X, Y ), Z ), divide( divide( X, Y ),
% 0.81/1.58 multiply( divide( T, U ), divide( divide( U, T ), Z ) ) ) ) ] )
% 0.81/1.58 , clause( 1250, [ =( inverse( multiply( T, divide( Y, X ) ) ), divide(
% 0.81/1.58 divide( X, Y ), T ) ) ] )
% 0.81/1.58 , 0, clause( 2620, [ =( multiply( divide( X, Y ), Z ), inverse( multiply(
% 0.81/1.58 multiply( divide( T, U ), divide( divide( U, T ), Z ) ), divide( Y, X ) )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , 0, 6, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, W ), :=( T,
% 0.81/1.58 multiply( divide( T, U ), divide( divide( U, T ), Z ) ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2622, [ =( divide( divide( X, Y ), multiply( divide( T, U ), divide(
% 0.81/1.58 divide( U, T ), Z ) ) ), multiply( divide( X, Y ), Z ) ) ] )
% 0.81/1.58 , clause( 2621, [ =( multiply( divide( X, Y ), Z ), divide( divide( X, Y )
% 0.81/1.58 , multiply( divide( T, U ), divide( divide( U, T ), Z ) ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.58 :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1270, [ =( divide( divide( X, Y ), multiply( divide( T, U ), divide(
% 0.81/1.58 divide( U, T ), Z ) ) ), multiply( divide( X, Y ), Z ) ) ] )
% 0.81/1.58 , clause( 2622, [ =( divide( divide( X, Y ), multiply( divide( T, U ),
% 0.81/1.58 divide( divide( U, T ), Z ) ) ), multiply( divide( X, Y ), Z ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2624, [ =( Y, inverse( divide( X, multiply( Y, X ) ) ) ) ] )
% 0.81/1.58 , clause( 1138, [ =( inverse( divide( T, multiply( X, T ) ) ), X ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, X )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2629, [ =( multiply( multiply( inverse( X ), Y ), divide( multiply(
% 0.81/1.58 inverse( Y ), X ), Z ) ), inverse( Z ) ) ] )
% 0.81/1.58 , clause( 151, [ =( divide( Z, multiply( multiply( multiply( inverse( X ),
% 0.81/1.58 Y ), divide( multiply( inverse( Y ), X ), T ) ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2624, [ =( Y, inverse( divide( X, multiply( Y, X ) ) ) ) ] )
% 0.81/1.58 , 0, 13, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, T ), :=( T, Z )] )
% 0.81/1.58 , substitution( 1, [ :=( X, T ), :=( Y, multiply( multiply( inverse( X )
% 0.81/1.58 , Y ), divide( multiply( inverse( Y ), X ), Z ) ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1285, [ =( multiply( multiply( inverse( Y ), Z ), divide( multiply(
% 0.81/1.58 inverse( Z ), Y ), T ) ), inverse( T ) ) ] )
% 0.81/1.58 , clause( 2629, [ =( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.58 multiply( inverse( Y ), X ), Z ) ), inverse( Z ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2632, [ =( Y, inverse( divide( X, multiply( Y, X ) ) ) ) ] )
% 0.81/1.58 , clause( 1138, [ =( inverse( divide( T, multiply( X, T ) ) ), X ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, X )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2637, [ =( divide( multiply( inverse( X ), Y ), Z ), inverse(
% 0.81/1.58 divide( divide( Z, divide( multiply( T, U ), multiply( inverse( Y ), X )
% 0.81/1.58 ) ), divide( inverse( U ), T ) ) ) ) ] )
% 0.81/1.58 , clause( 92, [ =( multiply( divide( multiply( inverse( X ), Y ), Z ),
% 0.81/1.58 divide( Z, divide( multiply( T, U ), multiply( inverse( Y ), X ) ) ) ),
% 0.81/1.58 divide( inverse( U ), T ) ) ] )
% 0.81/1.58 , 0, clause( 2632, [ =( Y, inverse( divide( X, multiply( Y, X ) ) ) ) ] )
% 0.81/1.58 , 0, 19, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )
% 0.81/1.58 , :=( U, U )] ), substitution( 1, [ :=( X, divide( Z, divide( multiply( T
% 0.81/1.58 , U ), multiply( inverse( Y ), X ) ) ) ), :=( Y, divide( multiply(
% 0.81/1.58 inverse( X ), Y ), Z ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2638, [ =( divide( multiply( inverse( X ), Y ), Z ), inverse(
% 0.81/1.58 multiply( Z, multiply( inverse( Y ), X ) ) ) ) ] )
% 0.81/1.58 , clause( 1202, [ =( divide( divide( W, divide( multiply( T, U ), V0 ) ),
% 0.81/1.58 divide( inverse( U ), T ) ), multiply( W, V0 ) ) ] )
% 0.81/1.58 , 0, clause( 2637, [ =( divide( multiply( inverse( X ), Y ), Z ), inverse(
% 0.81/1.58 divide( divide( Z, divide( multiply( T, U ), multiply( inverse( Y ), X )
% 0.81/1.58 ) ), divide( inverse( U ), T ) ) ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, V1 ), :=( T, T )
% 0.81/1.58 , :=( U, U ), :=( W, Z ), :=( V0, multiply( inverse( Y ), X ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2639, [ =( inverse( multiply( Z, multiply( inverse( Y ), X ) ) ),
% 0.81/1.58 divide( multiply( inverse( X ), Y ), Z ) ) ] )
% 0.81/1.58 , clause( 2638, [ =( divide( multiply( inverse( X ), Y ), Z ), inverse(
% 0.81/1.58 multiply( Z, multiply( inverse( Y ), X ) ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1303, [ =( inverse( multiply( Z, multiply( inverse( Y ), X ) ) ),
% 0.81/1.58 divide( multiply( inverse( X ), Y ), Z ) ) ] )
% 0.81/1.58 , clause( 2639, [ =( inverse( multiply( Z, multiply( inverse( Y ), X ) ) )
% 0.81/1.58 , divide( multiply( inverse( X ), Y ), Z ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2641, [ =( X, divide( X, multiply( inverse( Y ), Y ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, Y ), :=( T, X )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2644, [ =( X, divide( X, multiply( Z, divide( Y, multiply( Z, Y ) )
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , clause( 1138, [ =( inverse( divide( T, multiply( X, T ) ) ), X ) ] )
% 0.81/1.58 , 0, clause( 2641, [ =( X, divide( X, multiply( inverse( Y ), Y ) ) ) ] )
% 0.81/1.58 , 0, 5, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T, Y )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, divide( Y, multiply( Z, Y ) ) )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2645, [ =( X, divide( X, divide( Y, Y ) ) ) ] )
% 0.81/1.58 , clause( 1221, [ =( multiply( U, divide( T, multiply( X, T ) ) ), divide(
% 0.81/1.58 U, X ) ) ] )
% 0.81/1.58 , 0, clause( 2644, [ =( X, divide( X, multiply( Z, divide( Y, multiply( Z,
% 0.81/1.58 Y ) ) ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, T ), :=( Z, U ), :=( T, Z ),
% 0.81/1.58 :=( U, Y )] ), substitution( 1, [ :=( X, X ), :=( Y, Z ), :=( Z, Y )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2646, [ =( divide( X, divide( Y, Y ) ), X ) ] )
% 0.81/1.58 , clause( 2645, [ =( X, divide( X, divide( Y, Y ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1318, [ =( divide( Z, divide( Y, Y ) ), Z ) ] )
% 0.81/1.58 , clause( 2646, [ =( divide( X, divide( Y, Y ) ), X ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2648, [ =( Y, multiply( multiply( divide( inverse( divide( X, Y ) )
% 0.81/1.58 , Z ), divide( multiply( Z, T ), T ) ), X ) ) ] )
% 0.81/1.58 , clause( 278, [ =( multiply( multiply( divide( inverse( divide( Y, Z ) ),
% 0.81/1.58 X ), divide( multiply( X, T ), T ) ), Y ), Z ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, X ), :=( Z, Y ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2651, [ =( multiply( inverse( X ), X ), multiply( multiply( divide(
% 0.81/1.58 inverse( Y ), Z ), divide( multiply( Z, T ), T ) ), Y ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2648, [ =( Y, multiply( multiply( divide( inverse( divide( X,
% 0.81/1.58 Y ) ), Z ), divide( multiply( Z, T ), T ) ), X ) ) ] )
% 0.81/1.58 , 0, 9, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.58 , substitution( 1, [ :=( X, Y ), :=( Y, multiply( inverse( X ), X ) ),
% 0.81/1.58 :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2653, [ =( multiply( inverse( X ), X ), multiply( inverse( Y ), Y )
% 0.81/1.58 ) ] )
% 0.81/1.58 , clause( 1246, [ =( multiply( multiply( divide( Y, Z ), divide( multiply(
% 0.81/1.58 Z, T ), T ) ), X ), multiply( Y, X ) ) ] )
% 0.81/1.58 , 0, clause( 2651, [ =( multiply( inverse( X ), X ), multiply( multiply(
% 0.81/1.58 divide( inverse( Y ), Z ), divide( multiply( Z, T ), T ) ), Y ) ) ] )
% 0.81/1.58 , 0, 5, substitution( 0, [ :=( X, Y ), :=( Y, inverse( Y ) ), :=( Z, Z ),
% 0.81/1.58 :=( T, T )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1339, [ =( multiply( inverse( X ), X ), multiply( inverse( Y ), Y )
% 0.81/1.58 ) ] )
% 0.81/1.58 , clause( 2653, [ =( multiply( inverse( X ), X ), multiply( inverse( Y ), Y
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2655, [ =( inverse( inverse( inverse( U ) ) ), divide( inverse(
% 0.81/1.58 divide( divide( X, Y ), multiply( divide( Z, T ), divide( divide( T, Z )
% 0.81/1.58 , U ) ) ) ), divide( Y, X ) ) ) ] )
% 0.81/1.58 , clause( 103, [ =( divide( inverse( divide( divide( X, Y ), multiply(
% 0.81/1.58 divide( Z, T ), divide( divide( T, Z ), U ) ) ) ), divide( Y, X ) ),
% 0.81/1.58 inverse( inverse( inverse( U ) ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.58 :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2659, [ =( inverse( inverse( inverse( X ) ) ), divide( inverse(
% 0.81/1.58 divide( Y, multiply( divide( T, U ), divide( divide( U, T ), X ) ) ) ),
% 0.81/1.58 divide( multiply( inverse( Z ), Z ), Y ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2655, [ =( inverse( inverse( inverse( U ) ) ), divide( inverse(
% 0.81/1.58 divide( divide( X, Y ), multiply( divide( Z, T ), divide( divide( T, Z )
% 0.81/1.58 , U ) ) ) ), divide( Y, X ) ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, Z ), :=( T, Y )] )
% 0.81/1.58 , substitution( 1, [ :=( X, Y ), :=( Y, multiply( inverse( Z ), Z ) ),
% 0.81/1.58 :=( Z, T ), :=( T, U ), :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2664, [ =( inverse( inverse( inverse( X ) ) ), divide( divide( Z, T
% 0.81/1.58 ), divide( multiply( inverse( U ), U ), divide( divide( T, Z ), X ) ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , clause( 1238, [ =( divide( inverse( divide( U, multiply( X, T ) ) ),
% 0.81/1.58 divide( multiply( Y, Z ), U ) ), divide( X, divide( multiply( Y, Z ), T )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , 0, clause( 2659, [ =( inverse( inverse( inverse( X ) ) ), divide( inverse(
% 0.81/1.58 divide( Y, multiply( divide( T, U ), divide( divide( U, T ), X ) ) ) ),
% 0.81/1.58 divide( multiply( inverse( Z ), Z ), Y ) ) ) ] )
% 0.81/1.58 , 0, 5, substitution( 0, [ :=( X, divide( Z, T ) ), :=( Y, inverse( U ) ),
% 0.81/1.58 :=( Z, U ), :=( T, divide( divide( T, Z ), X ) ), :=( U, Y )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, U ), :=( T, Z ), :=( U
% 0.81/1.58 , T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2665, [ =( inverse( inverse( inverse( X ) ) ), divide( inverse( X )
% 0.81/1.58 , multiply( inverse( T ), T ) ) ) ] )
% 0.81/1.58 , clause( 1204, [ =( divide( divide( Z, Y ), divide( X, divide( divide( Y,
% 0.81/1.58 Z ), T ) ) ), divide( inverse( T ), X ) ) ] )
% 0.81/1.58 , 0, clause( 2664, [ =( inverse( inverse( inverse( X ) ) ), divide( divide(
% 0.81/1.58 Z, T ), divide( multiply( inverse( U ), U ), divide( divide( T, Z ), X )
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , 0, 5, substitution( 0, [ :=( X, multiply( inverse( T ), T ) ), :=( Y, Z )
% 0.81/1.58 , :=( Z, Y ), :=( T, X )] ), substitution( 1, [ :=( X, X ), :=( Y, U ),
% 0.81/1.58 :=( Z, Y ), :=( T, Z ), :=( U, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2666, [ =( inverse( inverse( inverse( X ) ) ), inverse( X ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2665, [ =( inverse( inverse( inverse( X ) ) ), divide( inverse(
% 0.81/1.58 X ), multiply( inverse( T ), T ) ) ) ] )
% 0.81/1.58 , 0, 5, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, Y ), :=( T,
% 0.81/1.58 inverse( X ) )] ), substitution( 1, [ :=( X, X ), :=( Y, U ), :=( Z, W )
% 0.81/1.58 , :=( T, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1347, [ =( inverse( inverse( inverse( U ) ) ), inverse( U ) ) ] )
% 0.81/1.58 , clause( 2666, [ =( inverse( inverse( inverse( X ) ) ), inverse( X ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , substitution( 0, [ :=( X, U )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2669, [ =( inverse( inverse( inverse( U ) ) ), divide( inverse(
% 0.81/1.58 divide( divide( X, Y ), multiply( divide( Z, T ), divide( divide( T, Z )
% 0.81/1.58 , U ) ) ) ), divide( Y, X ) ) ) ] )
% 0.81/1.58 , clause( 103, [ =( divide( inverse( divide( divide( X, Y ), multiply(
% 0.81/1.58 divide( Z, T ), divide( divide( T, Z ), U ) ) ) ), divide( Y, X ) ),
% 0.81/1.58 inverse( inverse( inverse( U ) ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.58 :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2676, [ =( inverse( inverse( inverse( X ) ) ), divide( inverse(
% 0.81/1.58 divide( divide( multiply( inverse( Y ), Y ), Z ), multiply( divide( T, U
% 0.81/1.58 ), divide( divide( U, T ), X ) ) ) ), Z ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2669, [ =( inverse( inverse( inverse( U ) ) ), divide( inverse(
% 0.81/1.58 divide( divide( X, Y ), multiply( divide( Z, T ), divide( divide( T, Z )
% 0.81/1.58 , U ) ) ) ), divide( Y, X ) ) ) ] )
% 0.81/1.58 , 0, 23, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, Y ), :=( T, Z )] )
% 0.81/1.58 , substitution( 1, [ :=( X, multiply( inverse( Y ), Y ) ), :=( Y, Z ),
% 0.81/1.58 :=( Z, T ), :=( T, U ), :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2677, [ =( inverse( inverse( inverse( X ) ) ), divide( inverse(
% 0.81/1.58 multiply( divide( multiply( inverse( Y ), Y ), Z ), X ) ), Z ) ) ] )
% 0.81/1.58 , clause( 1270, [ =( divide( divide( X, Y ), multiply( divide( T, U ),
% 0.81/1.58 divide( divide( U, T ), Z ) ) ), multiply( divide( X, Y ), Z ) ) ] )
% 0.81/1.58 , 0, clause( 2676, [ =( inverse( inverse( inverse( X ) ) ), divide( inverse(
% 0.81/1.58 divide( divide( multiply( inverse( Y ), Y ), Z ), multiply( divide( T, U
% 0.81/1.58 ), divide( divide( U, T ), X ) ) ) ), Z ) ) ] )
% 0.81/1.58 , 0, 7, substitution( 0, [ :=( X, multiply( inverse( Y ), Y ) ), :=( Y, Z )
% 0.81/1.58 , :=( Z, X ), :=( T, T ), :=( U, U )] ), substitution( 1, [ :=( X, X ),
% 0.81/1.58 :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2678, [ =( inverse( X ), divide( inverse( multiply( divide(
% 0.81/1.58 multiply( inverse( Y ), Y ), Z ), X ) ), Z ) ) ] )
% 0.81/1.58 , clause( 1347, [ =( inverse( inverse( inverse( U ) ) ), inverse( U ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , 0, clause( 2677, [ =( inverse( inverse( inverse( X ) ) ), divide( inverse(
% 0.81/1.58 multiply( divide( multiply( inverse( Y ), Y ), Z ), X ) ), Z ) ) ] )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, W ), :=( T, V0 )
% 0.81/1.58 , :=( U, X )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2679, [ =( divide( inverse( multiply( divide( multiply( inverse( Y
% 0.81/1.58 ), Y ), Z ), X ) ), Z ), inverse( X ) ) ] )
% 0.81/1.58 , clause( 2678, [ =( inverse( X ), divide( inverse( multiply( divide(
% 0.81/1.58 multiply( inverse( Y ), Y ), Z ), X ) ), Z ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1351, [ =( divide( inverse( multiply( divide( multiply( inverse( Y
% 0.81/1.58 ), Y ), X ), U ) ), X ), inverse( U ) ) ] )
% 0.81/1.58 , clause( 2679, [ =( divide( inverse( multiply( divide( multiply( inverse(
% 0.81/1.58 Y ), Y ), Z ), X ) ), Z ), inverse( X ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, U ), :=( Y, Y ), :=( Z, X )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2681, [ =( inverse( divide( multiply( divide( Z, Y ), T ), T ) ),
% 0.81/1.58 divide( X, multiply( inverse( divide( Y, Z ) ), X ) ) ) ] )
% 0.81/1.58 , clause( 212, [ =( divide( T, multiply( inverse( divide( Y, X ) ), T ) ),
% 0.81/1.58 inverse( divide( multiply( divide( X, Y ), Z ), Z ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, T ), :=( T, X )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2687, [ =( inverse( multiply( divide( X, Y ), multiply( inverse( Z
% 0.81/1.58 ), Z ) ) ), divide( T, multiply( inverse( divide( Y, X ) ), T ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2681, [ =( inverse( divide( multiply( divide( Z, Y ), T ), T )
% 0.81/1.58 ), divide( X, multiply( inverse( divide( Y, Z ) ), X ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, Z ), :=( T,
% 0.81/1.58 multiply( divide( X, Y ), multiply( inverse( Z ), Z ) ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, T ), :=( Y, Y ), :=( Z, X ), :=( T, multiply(
% 0.81/1.58 inverse( Z ), Z ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2693, [ =( inverse( multiply( divide( X, Y ), multiply( inverse( Z
% 0.81/1.58 ), Z ) ) ), divide( Y, X ) ) ] )
% 0.81/1.58 , clause( 1160, [ =( divide( T, multiply( inverse( X ), T ) ), X ) ] )
% 0.81/1.58 , 0, clause( 2687, [ =( inverse( multiply( divide( X, Y ), multiply(
% 0.81/1.58 inverse( Z ), Z ) ) ), divide( T, multiply( inverse( divide( Y, X ) ), T
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , 0, 10, substitution( 0, [ :=( X, divide( Y, X ) ), :=( Y, U ), :=( Z, W )
% 0.81/1.58 , :=( T, T )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2694, [ =( divide( multiply( inverse( Z ), Z ), divide( X, Y ) ),
% 0.81/1.58 divide( Y, X ) ) ] )
% 0.81/1.58 , clause( 1303, [ =( inverse( multiply( Z, multiply( inverse( Y ), X ) ) )
% 0.81/1.58 , divide( multiply( inverse( X ), Y ), Z ) ) ] )
% 0.81/1.58 , 0, clause( 2693, [ =( inverse( multiply( divide( X, Y ), multiply(
% 0.81/1.58 inverse( Z ), Z ) ) ), divide( Y, X ) ) ] )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, Z ), :=( Y, Z ), :=( Z, divide( X, Y ) )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1393, [ =( divide( multiply( inverse( Z ), Z ), divide( X, Y ) ),
% 0.81/1.58 divide( Y, X ) ) ] )
% 0.81/1.58 , clause( 2694, [ =( divide( multiply( inverse( Z ), Z ), divide( X, Y ) )
% 0.81/1.58 , divide( Y, X ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2697, [ =( X, inverse( divide( inverse( X ), divide( inverse( Y ),
% 0.81/1.58 divide( inverse( multiply( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , clause( 159, [ =( inverse( divide( inverse( X ), divide( inverse( T ),
% 0.81/1.58 divide( inverse( multiply( divide( Z, Y ), T ) ), divide( Y, Z ) ) ) ) )
% 0.81/1.58 , X ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Z ), :=( T, Y )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2702, [ =( X, inverse( divide( inverse( X ), divide( inverse( Y ),
% 0.81/1.58 divide( inverse( multiply( divide( multiply( inverse( Z ), Z ), T ), Y )
% 0.81/1.58 ), T ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2697, [ =( X, inverse( divide( inverse( X ), divide( inverse(
% 0.81/1.58 Y ), divide( inverse( multiply( divide( Z, T ), Y ) ), divide( T, Z ) ) )
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , 0, 19, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, multiply( inverse( Z
% 0.81/1.58 ), Z ) ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2703, [ =( X, inverse( divide( inverse( X ), divide( inverse( Y ),
% 0.81/1.58 inverse( Y ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1351, [ =( divide( inverse( multiply( divide( multiply( inverse(
% 0.81/1.58 Y ), Y ), X ), U ) ), X ), inverse( U ) ) ] )
% 0.81/1.58 , 0, clause( 2702, [ =( X, inverse( divide( inverse( X ), divide( inverse(
% 0.81/1.58 Y ), divide( inverse( multiply( divide( multiply( inverse( Z ), Z ), T )
% 0.81/1.58 , Y ) ), T ) ) ) ) ) ] )
% 0.81/1.58 , 0, 9, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, U ), :=( T, W ),
% 0.81/1.58 :=( U, Y )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2704, [ =( X, inverse( inverse( X ) ) ) ] )
% 0.81/1.58 , clause( 1318, [ =( divide( Z, divide( Y, Y ) ), Z ) ] )
% 0.81/1.58 , 0, clause( 2703, [ =( X, inverse( divide( inverse( X ), divide( inverse(
% 0.81/1.58 Y ), inverse( Y ) ) ) ) ) ] )
% 0.81/1.58 , 0, 3, substitution( 0, [ :=( X, Z ), :=( Y, inverse( Y ) ), :=( Z,
% 0.81/1.58 inverse( X ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2705, [ =( inverse( inverse( X ) ), X ) ] )
% 0.81/1.58 , clause( 2704, [ =( X, inverse( inverse( X ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1409, [ =( inverse( inverse( Z ) ), Z ) ] )
% 0.81/1.58 , clause( 2705, [ =( inverse( inverse( X ) ), X ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, Z )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2707, [ =( divide( X, Y ), multiply( X, inverse( divide( Y, divide(
% 0.81/1.58 inverse( Z ), divide( inverse( multiply( divide( T, U ), Z ) ), divide( U
% 0.81/1.58 , T ) ) ) ) ) ) ) ] )
% 0.81/1.58 , clause( 84, [ =( multiply( U, inverse( divide( X, divide( inverse( Y ),
% 0.81/1.58 divide( inverse( multiply( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) )
% 0.81/1.58 ), divide( U, X ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, U ),
% 0.81/1.58 :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2713, [ =( divide( X, Y ), multiply( X, inverse( divide( Y, divide(
% 0.81/1.58 inverse( Z ), divide( inverse( multiply( divide( multiply( inverse( T ),
% 0.81/1.58 T ), U ), Z ) ), U ) ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2707, [ =( divide( X, Y ), multiply( X, inverse( divide( Y,
% 0.81/1.58 divide( inverse( Z ), divide( inverse( multiply( divide( T, U ), Z ) ),
% 0.81/1.58 divide( U, T ) ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 22, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, T ), :=( T, U )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, multiply(
% 0.81/1.58 inverse( T ), T ) ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2714, [ =( divide( X, Y ), multiply( X, inverse( divide( Y, divide(
% 0.81/1.58 inverse( Z ), inverse( Z ) ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1351, [ =( divide( inverse( multiply( divide( multiply( inverse(
% 0.81/1.58 Y ), Y ), X ), U ) ), X ), inverse( U ) ) ] )
% 0.81/1.58 , 0, clause( 2713, [ =( divide( X, Y ), multiply( X, inverse( divide( Y,
% 0.81/1.58 divide( inverse( Z ), divide( inverse( multiply( divide( multiply(
% 0.81/1.58 inverse( T ), T ), U ), Z ) ), U ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 12, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, W ), :=( T, V0 )
% 0.81/1.58 , :=( U, Z )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2715, [ =( divide( X, Y ), multiply( X, inverse( Y ) ) ) ] )
% 0.81/1.58 , clause( 1318, [ =( divide( Z, divide( Y, Y ) ), Z ) ] )
% 0.81/1.58 , 0, clause( 2714, [ =( divide( X, Y ), multiply( X, inverse( divide( Y,
% 0.81/1.58 divide( inverse( Z ), inverse( Z ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 7, substitution( 0, [ :=( X, T ), :=( Y, inverse( Z ) ), :=( Z, Y )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2716, [ =( multiply( X, inverse( Y ) ), divide( X, Y ) ) ] )
% 0.81/1.58 , clause( 2715, [ =( divide( X, Y ), multiply( X, inverse( Y ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1449, [ =( multiply( Z, inverse( T ) ), divide( Z, T ) ) ] )
% 0.81/1.58 , clause( 2716, [ =( multiply( X, inverse( Y ) ), divide( X, Y ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, Z ), :=( Y, T )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2718, [ =( divide( inverse( U ), T ), multiply( divide( multiply(
% 0.81/1.58 inverse( X ), Y ), Z ), divide( Z, divide( multiply( T, U ), multiply(
% 0.81/1.58 inverse( Y ), X ) ) ) ) ) ] )
% 0.81/1.58 , clause( 92, [ =( multiply( divide( multiply( inverse( X ), Y ), Z ),
% 0.81/1.58 divide( Z, divide( multiply( T, U ), multiply( inverse( Y ), X ) ) ) ),
% 0.81/1.58 divide( inverse( U ), T ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.58 :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2722, [ =( divide( inverse( X ), Y ), multiply( multiply( inverse(
% 0.81/1.58 Z ), T ), divide( multiply( inverse( U ), U ), divide( multiply( Y, X ),
% 0.81/1.58 multiply( inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2718, [ =( divide( inverse( U ), T ), multiply( divide(
% 0.81/1.58 multiply( inverse( X ), Y ), Z ), divide( Z, divide( multiply( T, U ),
% 0.81/1.58 multiply( inverse( Y ), X ) ) ) ) ) ] )
% 0.81/1.58 , 0, 6, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, U ), :=( T,
% 0.81/1.58 multiply( inverse( Z ), T ) )] ), substitution( 1, [ :=( X, Z ), :=( Y, T
% 0.81/1.58 ), :=( Z, multiply( inverse( U ), U ) ), :=( T, Y ), :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2724, [ =( divide( inverse( X ), Y ), multiply( multiply( inverse(
% 0.81/1.58 Z ), T ), divide( multiply( inverse( T ), Z ), multiply( Y, X ) ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , clause( 1393, [ =( divide( multiply( inverse( Z ), Z ), divide( X, Y ) )
% 0.81/1.58 , divide( Y, X ) ) ] )
% 0.81/1.58 , 0, clause( 2722, [ =( divide( inverse( X ), Y ), multiply( multiply(
% 0.81/1.58 inverse( Z ), T ), divide( multiply( inverse( U ), U ), divide( multiply(
% 0.81/1.58 Y, X ), multiply( inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.58 , 0, 10, substitution( 0, [ :=( X, multiply( Y, X ) ), :=( Y, multiply(
% 0.81/1.58 inverse( T ), Z ) ), :=( Z, U )] ), substitution( 1, [ :=( X, X ), :=( Y
% 0.81/1.58 , Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2725, [ =( divide( inverse( X ), Y ), inverse( multiply( Y, X ) ) )
% 0.81/1.58 ] )
% 0.81/1.58 , clause( 1285, [ =( multiply( multiply( inverse( Y ), Z ), divide(
% 0.81/1.58 multiply( inverse( Z ), Y ), T ) ), inverse( T ) ) ] )
% 0.81/1.58 , 0, clause( 2724, [ =( divide( inverse( X ), Y ), multiply( multiply(
% 0.81/1.58 inverse( Z ), T ), divide( multiply( inverse( T ), Z ), multiply( Y, X )
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , 0, 5, substitution( 0, [ :=( X, U ), :=( Y, Z ), :=( Z, T ), :=( T,
% 0.81/1.58 multiply( Y, X ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z,
% 0.81/1.58 Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1456, [ =( divide( inverse( U ), T ), inverse( multiply( T, U ) ) )
% 0.81/1.58 ] )
% 0.81/1.58 , clause( 2725, [ =( divide( inverse( X ), Y ), inverse( multiply( Y, X ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, U ), :=( Y, T )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2728, [ =( X, divide( X, multiply( inverse( Y ), Y ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, Y ), :=( T, X )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2744, [ =( X, divide( X, divide( inverse( inverse( divide( Y,
% 0.81/1.58 divide( Z, divide( inverse( divide( divide( T, U ), Z ) ), divide( U, T )
% 0.81/1.58 ) ) ) ) ), Y ) ) ) ] )
% 0.81/1.58 , clause( 73, [ =( multiply( U, inverse( divide( X, divide( Y, divide(
% 0.81/1.58 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ), divide(
% 0.81/1.58 U, X ) ) ] )
% 0.81/1.58 , 0, clause( 2728, [ =( X, divide( X, multiply( inverse( Y ), Y ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, U ),
% 0.81/1.58 :=( U, inverse( inverse( divide( Y, divide( Z, divide( inverse( divide(
% 0.81/1.58 divide( T, U ), Z ) ), divide( U, T ) ) ) ) ) ) )] ), substitution( 1, [
% 0.81/1.58 :=( X, X ), :=( Y, inverse( divide( Y, divide( Z, divide( inverse( divide(
% 0.81/1.58 divide( T, U ), Z ) ), divide( U, T ) ) ) ) ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2745, [ =( X, divide( X, inverse( multiply( Y, inverse( divide( Y,
% 0.81/1.58 divide( Z, divide( inverse( divide( divide( T, U ), Z ) ), divide( U, T )
% 0.81/1.58 ) ) ) ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1456, [ =( divide( inverse( U ), T ), inverse( multiply( T, U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 2744, [ =( X, divide( X, divide( inverse( inverse( divide( Y,
% 0.81/1.58 divide( Z, divide( inverse( divide( divide( T, U ), Z ) ), divide( U, T )
% 0.81/1.58 ) ) ) ) ), Y ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, V1 ), :=( T, Y )
% 0.81/1.58 , :=( U, inverse( divide( Y, divide( Z, divide( inverse( divide( divide(
% 0.81/1.58 T, U ), Z ) ), divide( U, T ) ) ) ) ) )] ), substitution( 1, [ :=( X, X )
% 0.81/1.58 , :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2752, [ =( X, multiply( X, multiply( Y, inverse( divide( Y, divide(
% 0.81/1.58 Z, divide( inverse( divide( divide( T, U ), Z ) ), divide( U, T ) ) ) ) )
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 2745, [ =( X, divide( X, inverse( multiply( Y, inverse( divide(
% 0.81/1.58 Y, divide( Z, divide( inverse( divide( divide( T, U ), Z ) ), divide( U,
% 0.81/1.58 T ) ) ) ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, X ), :=( Y, multiply( Y, inverse( divide(
% 0.81/1.58 Y, divide( Z, divide( inverse( divide( divide( T, U ), Z ) ), divide( U,
% 0.81/1.58 T ) ) ) ) ) ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )
% 0.81/1.58 , :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2753, [ =( X, multiply( X, divide( Y, Y ) ) ) ] )
% 0.81/1.58 , clause( 73, [ =( multiply( U, inverse( divide( X, divide( Y, divide(
% 0.81/1.58 inverse( divide( divide( Z, T ), Y ) ), divide( T, Z ) ) ) ) ) ), divide(
% 0.81/1.58 U, X ) ) ] )
% 0.81/1.58 , 0, clause( 2752, [ =( X, multiply( X, multiply( Y, inverse( divide( Y,
% 0.81/1.58 divide( Z, divide( inverse( divide( divide( T, U ), Z ) ), divide( U, T )
% 0.81/1.58 ) ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, U ),
% 0.81/1.58 :=( U, Y )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2754, [ =( multiply( X, divide( Y, Y ) ), X ) ] )
% 0.81/1.58 , clause( 2753, [ =( X, multiply( X, divide( Y, Y ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1469, [ =( multiply( U, divide( X, X ) ), U ) ] )
% 0.81/1.58 , clause( 2754, [ =( multiply( X, divide( Y, Y ) ), X ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, U ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2756, [ =( divide( U, T ), divide( inverse( X ), multiply( multiply(
% 0.81/1.58 Y, Z ), divide( divide( inverse( Z ), Y ), divide( X, divide( T, U ) ) )
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , clause( 22, [ =( divide( inverse( Z ), multiply( multiply( Y, X ), divide(
% 0.81/1.58 divide( inverse( X ), Y ), divide( Z, divide( T, U ) ) ) ) ), divide( U,
% 0.81/1.58 T ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, X ), :=( T, T ),
% 0.81/1.58 :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2761, [ =( divide( multiply( inverse( X ), X ), Y ), divide(
% 0.81/1.58 inverse( Z ), multiply( multiply( T, U ), divide( divide( inverse( U ), T
% 0.81/1.58 ), divide( Z, Y ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2756, [ =( divide( U, T ), divide( inverse( X ), multiply(
% 0.81/1.58 multiply( Y, Z ), divide( divide( inverse( Z ), Y ), divide( X, divide( T
% 0.81/1.58 , U ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 21, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.58 , substitution( 1, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T, Y ), :=(
% 0.81/1.58 U, multiply( inverse( X ), X ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2762, [ =( divide( multiply( inverse( X ), X ), Y ), inverse(
% 0.81/1.58 multiply( multiply( multiply( T, U ), divide( divide( inverse( U ), T ),
% 0.81/1.58 divide( Z, Y ) ) ), Z ) ) ) ] )
% 0.81/1.58 , clause( 1456, [ =( divide( inverse( U ), T ), inverse( multiply( T, U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 2761, [ =( divide( multiply( inverse( X ), X ), Y ), divide(
% 0.81/1.58 inverse( Z ), multiply( multiply( T, U ), divide( divide( inverse( U ), T
% 0.81/1.58 ), divide( Z, Y ) ) ) ) ) ] )
% 0.81/1.58 , 0, 7, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, V1 ), :=( T,
% 0.81/1.58 multiply( multiply( T, U ), divide( divide( inverse( U ), T ), divide( Z
% 0.81/1.58 , Y ) ) ) ), :=( U, Z )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ),
% 0.81/1.58 :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2767, [ =( divide( multiply( inverse( X ), X ), Y ), inverse( Y ) )
% 0.81/1.58 ] )
% 0.81/1.58 , clause( 35, [ =( multiply( multiply( multiply( X, Y ), divide( divide(
% 0.81/1.58 inverse( Y ), X ), divide( Z, T ) ) ), Z ), T ) ] )
% 0.81/1.58 , 0, clause( 2762, [ =( divide( multiply( inverse( X ), X ), Y ), inverse(
% 0.81/1.58 multiply( multiply( multiply( T, U ), divide( divide( inverse( U ), T ),
% 0.81/1.58 divide( Z, Y ) ) ), Z ) ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T, Y )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, U ), :=( T, Z ), :=(
% 0.81/1.58 U, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1478, [ =( divide( multiply( inverse( Y ), Y ), X ), inverse( X ) )
% 0.81/1.58 ] )
% 0.81/1.58 , clause( 2767, [ =( divide( multiply( inverse( X ), X ), Y ), inverse( Y )
% 0.81/1.58 ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2770, [ =( divide( U, T ), multiply( divide( multiply( inverse( X )
% 0.81/1.58 , Y ), Z ), divide( Z, divide( divide( T, U ), multiply( inverse( Y ), X
% 0.81/1.58 ) ) ) ) ) ] )
% 0.81/1.58 , clause( 75, [ =( multiply( divide( multiply( inverse( X ), Y ), Z ),
% 0.81/1.58 divide( Z, divide( divide( T, U ), multiply( inverse( Y ), X ) ) ) ),
% 0.81/1.58 divide( U, T ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.58 :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2774, [ =( divide( X, Y ), multiply( multiply( inverse( Z ), T ),
% 0.81/1.58 divide( multiply( inverse( U ), U ), divide( divide( Y, X ), multiply(
% 0.81/1.58 inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2770, [ =( divide( U, T ), multiply( divide( multiply( inverse(
% 0.81/1.58 X ), Y ), Z ), divide( Z, divide( divide( T, U ), multiply( inverse( Y )
% 0.81/1.58 , X ) ) ) ) ) ] )
% 0.81/1.58 , 0, 5, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, U ), :=( T,
% 0.81/1.58 multiply( inverse( Z ), T ) )] ), substitution( 1, [ :=( X, Z ), :=( Y, T
% 0.81/1.58 ), :=( Z, multiply( inverse( U ), U ) ), :=( T, Y ), :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2777, [ =( divide( X, Y ), multiply( multiply( inverse( Z ), T ),
% 0.81/1.58 divide( multiply( inverse( T ), Z ), divide( Y, X ) ) ) ) ] )
% 0.81/1.58 , clause( 1393, [ =( divide( multiply( inverse( Z ), Z ), divide( X, Y ) )
% 0.81/1.58 , divide( Y, X ) ) ] )
% 0.81/1.58 , 0, clause( 2774, [ =( divide( X, Y ), multiply( multiply( inverse( Z ), T
% 0.81/1.58 ), divide( multiply( inverse( U ), U ), divide( divide( Y, X ), multiply(
% 0.81/1.58 inverse( T ), Z ) ) ) ) ) ] )
% 0.81/1.58 , 0, 9, substitution( 0, [ :=( X, divide( Y, X ) ), :=( Y, multiply(
% 0.81/1.58 inverse( T ), Z ) ), :=( Z, U )] ), substitution( 1, [ :=( X, X ), :=( Y
% 0.81/1.58 , Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2778, [ =( divide( X, Y ), inverse( divide( Y, X ) ) ) ] )
% 0.81/1.58 , clause( 1285, [ =( multiply( multiply( inverse( Y ), Z ), divide(
% 0.81/1.58 multiply( inverse( Z ), Y ), T ) ), inverse( T ) ) ] )
% 0.81/1.58 , 0, clause( 2777, [ =( divide( X, Y ), multiply( multiply( inverse( Z ), T
% 0.81/1.58 ), divide( multiply( inverse( T ), Z ), divide( Y, X ) ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, U ), :=( Y, Z ), :=( Z, T ), :=( T,
% 0.81/1.58 divide( Y, X ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z
% 0.81/1.58 ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2779, [ =( inverse( divide( Y, X ) ), divide( X, Y ) ) ] )
% 0.81/1.58 , clause( 2778, [ =( divide( X, Y ), inverse( divide( Y, X ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1479, [ =( inverse( divide( T, U ) ), divide( U, T ) ) ] )
% 0.81/1.58 , clause( 2779, [ =( inverse( divide( Y, X ) ), divide( X, Y ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, U ), :=( Y, T )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2781, [ =( inverse( divide( Z, divide( Y, divide( inverse( U ), T )
% 0.81/1.58 ) ) ), divide( inverse( divide( inverse( X ), Y ) ), multiply( divide( Z
% 0.81/1.58 , multiply( T, U ) ), X ) ) ) ] )
% 0.81/1.58 , clause( 19, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.58 divide( X, multiply( T, Z ) ), U ) ), inverse( divide( X, divide( Y,
% 0.81/1.58 divide( inverse( Z ), T ) ) ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, U ), :=( T, T ),
% 0.81/1.58 :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2789, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ),
% 0.81/1.58 inverse( Z ) ) ) ) ), divide( inverse( divide( inverse( T ), Y ) ),
% 0.81/1.58 multiply( X, T ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2781, [ =( inverse( divide( Z, divide( Y, divide( inverse( U )
% 0.81/1.58 , T ) ) ) ), divide( inverse( divide( inverse( X ), Y ) ), multiply(
% 0.81/1.58 divide( Z, multiply( T, U ) ), X ) ) ) ] )
% 0.81/1.58 , 0, 18, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, Z ), :=( T, X )] )
% 0.81/1.58 , substitution( 1, [ :=( X, T ), :=( Y, Y ), :=( Z, X ), :=( T, inverse(
% 0.81/1.58 Z ) ), :=( U, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2791, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ),
% 0.81/1.58 inverse( Z ) ) ) ) ), inverse( multiply( multiply( X, T ), divide(
% 0.81/1.58 inverse( T ), Y ) ) ) ) ] )
% 0.81/1.58 , clause( 1456, [ =( divide( inverse( U ), T ), inverse( multiply( T, U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 2789, [ =( inverse( divide( X, divide( Y, divide( inverse( Z )
% 0.81/1.58 , inverse( Z ) ) ) ) ), divide( inverse( divide( inverse( T ), Y ) ),
% 0.81/1.58 multiply( X, T ) ) ) ] )
% 0.81/1.58 , 0, 11, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T,
% 0.81/1.58 multiply( X, T ) ), :=( U, divide( inverse( T ), Y ) )] ), substitution(
% 0.81/1.58 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2797, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ),
% 0.81/1.58 inverse( Z ) ) ) ) ), divide( divide( Y, inverse( T ) ), multiply( X, T )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , clause( 1250, [ =( inverse( multiply( T, divide( Y, X ) ) ), divide(
% 0.81/1.58 divide( X, Y ), T ) ) ] )
% 0.81/1.58 , 0, clause( 2791, [ =( inverse( divide( X, divide( Y, divide( inverse( Z )
% 0.81/1.58 , inverse( Z ) ) ) ) ), inverse( multiply( multiply( X, T ), divide(
% 0.81/1.58 inverse( T ), Y ) ) ) ) ] )
% 0.81/1.58 , 0, 11, substitution( 0, [ :=( X, Y ), :=( Y, inverse( T ) ), :=( Z, U ),
% 0.81/1.58 :=( T, multiply( X, T ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ),
% 0.81/1.58 :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2799, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ),
% 0.81/1.58 inverse( Z ) ) ) ) ), divide( multiply( Y, T ), multiply( X, T ) ) ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 2797, [ =( inverse( divide( X, divide( Y, divide( inverse( Z )
% 0.81/1.58 , inverse( Z ) ) ) ) ), divide( divide( Y, inverse( T ) ), multiply( X, T
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , 0, 12, substitution( 0, [ :=( X, Y ), :=( Y, T )] ), substitution( 1, [
% 0.81/1.58 :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2801, [ =( divide( divide( Y, divide( inverse( Z ), inverse( Z ) )
% 0.81/1.58 ), X ), divide( multiply( Y, T ), multiply( X, T ) ) ) ] )
% 0.81/1.58 , clause( 1479, [ =( inverse( divide( T, U ) ), divide( U, T ) ) ] )
% 0.81/1.58 , 0, clause( 2799, [ =( inverse( divide( X, divide( Y, divide( inverse( Z )
% 0.81/1.58 , inverse( Z ) ) ) ) ), divide( multiply( Y, T ), multiply( X, T ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T, X )
% 0.81/1.58 , :=( U, divide( Y, divide( inverse( Z ), inverse( Z ) ) ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2802, [ =( divide( X, Z ), divide( multiply( X, T ), multiply( Z, T
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , clause( 1318, [ =( divide( Z, divide( Y, Y ) ), Z ) ] )
% 0.81/1.58 , 0, clause( 2801, [ =( divide( divide( Y, divide( inverse( Z ), inverse( Z
% 0.81/1.58 ) ) ), X ), divide( multiply( Y, T ), multiply( X, T ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, U ), :=( Y, inverse( Y ) ), :=( Z, X )] )
% 0.81/1.58 , substitution( 1, [ :=( X, Z ), :=( Y, X ), :=( Z, Y ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2803, [ =( divide( multiply( X, Z ), multiply( Y, Z ) ), divide( X
% 0.81/1.58 , Y ) ) ] )
% 0.81/1.58 , clause( 2802, [ =( divide( X, Z ), divide( multiply( X, T ), multiply( Z
% 0.81/1.58 , T ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, Y ), :=( T, Z )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1482, [ =( divide( multiply( T, Z ), multiply( X, Z ) ), divide( T
% 0.81/1.58 , X ) ) ] )
% 0.81/1.58 , clause( 2803, [ =( divide( multiply( X, Z ), multiply( Y, Z ) ), divide(
% 0.81/1.58 X, Y ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, T ), :=( Y, X ), :=( Z, Z )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2805, [ =( inverse( divide( Z, divide( Y, divide( U, T ) ) ) ),
% 0.81/1.58 divide( inverse( divide( inverse( X ), Y ) ), multiply( divide( Z, divide(
% 0.81/1.58 T, U ) ), X ) ) ) ] )
% 0.81/1.58 , clause( 16, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.58 divide( X, divide( T, Z ) ), U ) ), inverse( divide( X, divide( Y, divide(
% 0.81/1.58 Z, T ) ) ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, U ), :=( T, T ),
% 0.81/1.58 :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2815, [ =( inverse( divide( X, divide( Y, divide( multiply( inverse(
% 0.81/1.58 Z ), Z ), T ) ) ) ), divide( inverse( divide( inverse( U ), Y ) ),
% 0.81/1.58 multiply( divide( X, T ), U ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2805, [ =( inverse( divide( Z, divide( Y, divide( U, T ) ) ) )
% 0.81/1.58 , divide( inverse( divide( inverse( X ), Y ) ), multiply( divide( Z,
% 0.81/1.58 divide( T, U ) ), X ) ) ) ] )
% 0.81/1.58 , 0, 21, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 , substitution( 1, [ :=( X, U ), :=( Y, Y ), :=( Z, X ), :=( T, T ), :=(
% 0.81/1.58 U, multiply( inverse( Z ), Z ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2816, [ =( inverse( divide( X, divide( Y, divide( multiply( inverse(
% 0.81/1.58 Z ), Z ), T ) ) ) ), inverse( multiply( multiply( divide( X, T ), U ),
% 0.81/1.58 divide( inverse( U ), Y ) ) ) ) ] )
% 0.81/1.58 , clause( 1456, [ =( divide( inverse( U ), T ), inverse( multiply( T, U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 2815, [ =( inverse( divide( X, divide( Y, divide( multiply(
% 0.81/1.58 inverse( Z ), Z ), T ) ) ) ), divide( inverse( divide( inverse( U ), Y )
% 0.81/1.58 ), multiply( divide( X, T ), U ) ) ) ] )
% 0.81/1.58 , 0, 12, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, V1 ), :=( T,
% 0.81/1.58 multiply( divide( X, T ), U ) ), :=( U, divide( inverse( U ), Y ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2819, [ =( inverse( divide( X, divide( Y, divide( multiply( inverse(
% 0.81/1.58 Z ), Z ), T ) ) ) ), divide( divide( Y, inverse( U ) ), multiply( divide(
% 0.81/1.58 X, T ), U ) ) ) ] )
% 0.81/1.58 , clause( 1250, [ =( inverse( multiply( T, divide( Y, X ) ) ), divide(
% 0.81/1.58 divide( X, Y ), T ) ) ] )
% 0.81/1.58 , 0, clause( 2816, [ =( inverse( divide( X, divide( Y, divide( multiply(
% 0.81/1.58 inverse( Z ), Z ), T ) ) ) ), inverse( multiply( multiply( divide( X, T )
% 0.81/1.58 , U ), divide( inverse( U ), Y ) ) ) ) ] )
% 0.81/1.58 , 0, 12, substitution( 0, [ :=( X, Y ), :=( Y, inverse( U ) ), :=( Z, W ),
% 0.81/1.58 :=( T, multiply( divide( X, T ), U ) )] ), substitution( 1, [ :=( X, X )
% 0.81/1.58 , :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2820, [ =( inverse( divide( X, divide( Y, divide( multiply( inverse(
% 0.81/1.58 Z ), Z ), T ) ) ) ), divide( multiply( Y, U ), multiply( divide( X, T ),
% 0.81/1.58 U ) ) ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 2819, [ =( inverse( divide( X, divide( Y, divide( multiply(
% 0.81/1.58 inverse( Z ), Z ), T ) ) ) ), divide( divide( Y, inverse( U ) ), multiply(
% 0.81/1.58 divide( X, T ), U ) ) ) ] )
% 0.81/1.58 , 0, 13, substitution( 0, [ :=( X, Y ), :=( Y, U )] ), substitution( 1, [
% 0.81/1.58 :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2821, [ =( inverse( divide( X, divide( Y, divide( multiply( inverse(
% 0.81/1.58 Z ), Z ), T ) ) ) ), divide( Y, divide( X, T ) ) ) ] )
% 0.81/1.58 , clause( 1482, [ =( divide( multiply( T, Z ), multiply( X, Z ) ), divide(
% 0.81/1.58 T, X ) ) ] )
% 0.81/1.58 , 0, clause( 2820, [ =( inverse( divide( X, divide( Y, divide( multiply(
% 0.81/1.58 inverse( Z ), Z ), T ) ) ) ), divide( multiply( Y, U ), multiply( divide(
% 0.81/1.58 X, T ), U ) ) ) ] )
% 0.81/1.58 , 0, 12, substitution( 0, [ :=( X, divide( X, T ) ), :=( Y, W ), :=( Z, U )
% 0.81/1.58 , :=( T, Y )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2822, [ =( divide( divide( Y, divide( multiply( inverse( Z ), Z ),
% 0.81/1.58 T ) ), X ), divide( Y, divide( X, T ) ) ) ] )
% 0.81/1.58 , clause( 1479, [ =( inverse( divide( T, U ) ), divide( U, T ) ) ] )
% 0.81/1.58 , 0, clause( 2821, [ =( inverse( divide( X, divide( Y, divide( multiply(
% 0.81/1.58 inverse( Z ), Z ), T ) ) ) ), divide( Y, divide( X, T ) ) ) ] )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T, X )
% 0.81/1.58 , :=( U, divide( Y, divide( multiply( inverse( Z ), Z ), T ) ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2823, [ =( divide( divide( X, inverse( Z ) ), T ), divide( X,
% 0.81/1.58 divide( T, Z ) ) ) ] )
% 0.81/1.58 , clause( 1478, [ =( divide( multiply( inverse( Y ), Y ), X ), inverse( X )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 2822, [ =( divide( divide( Y, divide( multiply( inverse( Z ),
% 0.81/1.58 Z ), T ) ), X ), divide( Y, divide( X, T ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), substitution( 1, [
% 0.81/1.58 :=( X, T ), :=( Y, X ), :=( Z, Y ), :=( T, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2824, [ =( divide( multiply( X, Y ), Z ), divide( X, divide( Z, Y )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 2823, [ =( divide( divide( X, inverse( Z ) ), T ), divide( X,
% 0.81/1.58 divide( T, Z ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, X ), :=( Y, Y )] ), substitution( 1, [
% 0.81/1.58 :=( X, X ), :=( Y, T ), :=( Z, Y ), :=( T, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2825, [ =( divide( X, divide( Z, Y ) ), divide( multiply( X, Y ), Z
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , clause( 2824, [ =( divide( multiply( X, Y ), Z ), divide( X, divide( Z, Y
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X ), U
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , clause( 2825, [ =( divide( X, divide( Z, Y ) ), divide( multiply( X, Y )
% 0.81/1.58 , Z ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, T ), :=( Y, X ), :=( Z, U )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2827, [ =( X, divide( X, multiply( inverse( Y ), Y ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, Y ), :=( T, X )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2868, [ =( X, divide( X, divide( inverse( divide( Y, divide( divide(
% 0.81/1.58 Z, divide( divide( inverse( T ), U ), Y ) ), multiply( U, T ) ) ) ), Z )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , clause( 66, [ =( multiply( U, divide( X, divide( divide( Y, divide(
% 0.81/1.58 divide( inverse( Z ), T ), X ) ), multiply( T, Z ) ) ) ), divide( U, Y )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 2827, [ =( X, divide( X, multiply( inverse( Y ), Y ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, U ),
% 0.81/1.58 :=( U, inverse( divide( Y, divide( divide( Z, divide( divide( inverse( T
% 0.81/1.58 ), U ), Y ) ), multiply( U, T ) ) ) ) )] ), substitution( 1, [ :=( X, X
% 0.81/1.58 ), :=( Y, divide( Y, divide( divide( Z, divide( divide( inverse( T ), U
% 0.81/1.58 ), Y ) ), multiply( U, T ) ) ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2869, [ =( X, divide( multiply( X, Z ), inverse( divide( Y, divide(
% 0.81/1.58 divide( Z, divide( divide( inverse( T ), U ), Y ) ), multiply( U, T ) ) )
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 2868, [ =( X, divide( X, divide( inverse( divide( Y, divide(
% 0.81/1.58 divide( Z, divide( divide( inverse( T ), U ), Y ) ), multiply( U, T ) ) )
% 0.81/1.58 ), Z ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, Z ), :=( Y, W ), :=( Z, V0 ), :=( T, X )
% 0.81/1.58 , :=( U, inverse( divide( Y, divide( divide( Z, divide( divide( inverse(
% 0.81/1.58 T ), U ), Y ) ), multiply( U, T ) ) ) ) )] ), substitution( 1, [ :=( X, X
% 0.81/1.58 ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2895, [ =( X, multiply( multiply( X, Y ), divide( Z, divide( divide(
% 0.81/1.58 Y, divide( divide( inverse( T ), U ), Z ) ), multiply( U, T ) ) ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 2869, [ =( X, divide( multiply( X, Z ), inverse( divide( Y,
% 0.81/1.58 divide( divide( Z, divide( divide( inverse( T ), U ), Y ) ), multiply( U
% 0.81/1.58 , T ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, multiply( X, Y ) ), :=( Y, divide( Z,
% 0.81/1.58 divide( divide( Y, divide( divide( inverse( T ), U ), Z ) ), multiply( U
% 0.81/1.58 , T ) ) ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Z ), :=( Z, Y ),
% 0.81/1.58 :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2896, [ =( X, divide( multiply( X, Y ), Y ) ) ] )
% 0.81/1.58 , clause( 66, [ =( multiply( U, divide( X, divide( divide( Y, divide(
% 0.81/1.58 divide( inverse( Z ), T ), X ) ), multiply( T, Z ) ) ) ), divide( U, Y )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 2895, [ =( X, multiply( multiply( X, Y ), divide( Z, divide(
% 0.81/1.58 divide( Y, divide( divide( inverse( T ), U ), Z ) ), multiply( U, T ) ) )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, T ), :=( T, U ),
% 0.81/1.58 :=( U, multiply( X, Y ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ),
% 0.81/1.58 :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2897, [ =( divide( multiply( X, Y ), Y ), X ) ] )
% 0.81/1.58 , clause( 2896, [ =( X, divide( multiply( X, Y ), Y ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1497, [ =( divide( multiply( U, Y ), Y ), U ) ] )
% 0.81/1.58 , clause( 2897, [ =( divide( multiply( X, Y ), Y ), X ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, U ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2899, [ =( divide( U, T ), multiply( divide( divide( X, Y ), Z ),
% 0.81/1.58 divide( Z, divide( divide( T, U ), divide( Y, X ) ) ) ) ) ] )
% 0.81/1.58 , clause( 78, [ =( multiply( divide( divide( X, Y ), Z ), divide( Z, divide(
% 0.81/1.58 divide( T, U ), divide( Y, X ) ) ) ), divide( U, T ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ),
% 0.81/1.58 :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2905, [ =( divide( multiply( inverse( X ), X ), Y ), multiply(
% 0.81/1.58 divide( divide( Z, T ), U ), divide( U, divide( Y, divide( T, Z ) ) ) ) )
% 0.81/1.58 ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2899, [ =( divide( U, T ), multiply( divide( divide( X, Y ), Z
% 0.81/1.58 ), divide( Z, divide( divide( T, U ), divide( Y, X ) ) ) ) ) ] )
% 0.81/1.58 , 0, 16, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, X ), :=( T, Y )] )
% 0.81/1.58 , substitution( 1, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T, Y ), :=(
% 0.81/1.58 U, multiply( inverse( X ), X ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2913, [ =( divide( multiply( inverse( X ), X ), Y ), multiply(
% 0.81/1.58 divide( divide( Z, T ), U ), divide( multiply( U, divide( T, Z ) ), Y ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 2905, [ =( divide( multiply( inverse( X ), X ), Y ), multiply(
% 0.81/1.58 divide( divide( Z, T ), U ), divide( U, divide( Y, divide( T, Z ) ) ) ) )
% 0.81/1.58 ] )
% 0.81/1.58 , 0, 13, substitution( 0, [ :=( X, divide( T, Z ) ), :=( Y, W ), :=( Z, V0
% 0.81/1.58 ), :=( T, U ), :=( U, Y )] ), substitution( 1, [ :=( X, X ), :=( Y, Y )
% 0.81/1.58 , :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2920, [ =( inverse( Y ), multiply( divide( divide( Z, T ), U ),
% 0.81/1.58 divide( multiply( U, divide( T, Z ) ), Y ) ) ) ] )
% 0.81/1.58 , clause( 1478, [ =( divide( multiply( inverse( Y ), Y ), X ), inverse( X )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 2913, [ =( divide( multiply( inverse( X ), X ), Y ), multiply(
% 0.81/1.58 divide( divide( Z, T ), U ), divide( multiply( U, divide( T, Z ) ), Y ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 0.81/1.58 :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2921, [ =( multiply( divide( divide( Y, Z ), T ), divide( multiply(
% 0.81/1.58 T, divide( Z, Y ) ), X ) ), inverse( X ) ) ] )
% 0.81/1.58 , clause( 2920, [ =( inverse( Y ), multiply( divide( divide( Z, T ), U ),
% 0.81/1.58 divide( multiply( U, divide( T, Z ) ), Y ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, Y ), :=( T, Z ),
% 0.81/1.58 :=( U, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1519, [ =( multiply( divide( divide( Z, T ), U ), divide( multiply(
% 0.81/1.58 U, divide( T, Z ) ), X ) ), inverse( X ) ) ] )
% 0.81/1.58 , clause( 2921, [ =( multiply( divide( divide( Y, Z ), T ), divide(
% 0.81/1.58 multiply( T, divide( Z, Y ) ), X ) ), inverse( X ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, T ), :=( T, U )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2923, [ =( Y, divide( inverse( divide( X, divide( Y, Z ) ) ),
% 0.81/1.58 divide( multiply( divide( divide( T, U ), W ), divide( W, divide( Z,
% 0.81/1.58 divide( U, T ) ) ) ), X ) ) ) ] )
% 0.81/1.58 , clause( 5, [ =( divide( inverse( divide( U, divide( W, Y ) ) ), divide(
% 0.81/1.58 multiply( divide( divide( T, Z ), X ), divide( X, divide( Y, divide( Z, T
% 0.81/1.58 ) ) ) ), U ) ), W ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, W ), :=( Y, Z ), :=( Z, U ), :=( T, T ),
% 0.81/1.58 :=( U, X ), :=( W, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2931, [ =( X, divide( inverse( divide( multiply( inverse( Y ), Y )
% 0.81/1.58 , divide( X, Z ) ) ), multiply( divide( divide( T, U ), W ), divide( W,
% 0.81/1.58 divide( Z, divide( U, T ) ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2923, [ =( Y, divide( inverse( divide( X, divide( Y, Z ) ) ),
% 0.81/1.58 divide( multiply( divide( divide( T, U ), W ), divide( W, divide( Z,
% 0.81/1.58 divide( U, T ) ) ) ), X ) ) ) ] )
% 0.81/1.58 , 0, 12, substitution( 0, [ :=( X, V0 ), :=( Y, V1 ), :=( Z, Y ), :=( T,
% 0.81/1.58 multiply( divide( divide( T, U ), W ), divide( W, divide( Z, divide( U, T
% 0.81/1.58 ) ) ) ) )] ), substitution( 1, [ :=( X, multiply( inverse( Y ), Y ) ),
% 0.81/1.58 :=( Y, X ), :=( Z, Z ), :=( T, T ), :=( U, U ), :=( W, W )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2941, [ =( X, inverse( multiply( multiply( divide( divide( T, U ),
% 0.81/1.58 W ), divide( W, divide( Z, divide( U, T ) ) ) ), divide( multiply(
% 0.81/1.58 inverse( Y ), Y ), divide( X, Z ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1456, [ =( divide( inverse( U ), T ), inverse( multiply( T, U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 2931, [ =( X, divide( inverse( divide( multiply( inverse( Y )
% 0.81/1.58 , Y ), divide( X, Z ) ) ), multiply( divide( divide( T, U ), W ), divide(
% 0.81/1.58 W, divide( Z, divide( U, T ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, V0 ), :=( Y, V1 ), :=( Z, V2 ), :=( T,
% 0.81/1.58 multiply( divide( divide( T, U ), W ), divide( W, divide( Z, divide( U, T
% 0.81/1.58 ) ) ) ) ), :=( U, divide( multiply( inverse( Y ), Y ), divide( X, Z ) )
% 0.81/1.58 )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )
% 0.81/1.58 , :=( U, U ), :=( W, W )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2942, [ =( X, divide( divide( divide( X, U ), multiply( inverse( W
% 0.81/1.58 ), W ) ), multiply( divide( divide( Y, Z ), T ), divide( T, divide( U,
% 0.81/1.58 divide( Z, Y ) ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1250, [ =( inverse( multiply( T, divide( Y, X ) ) ), divide(
% 0.81/1.58 divide( X, Y ), T ) ) ] )
% 0.81/1.58 , 0, clause( 2941, [ =( X, inverse( multiply( multiply( divide( divide( T,
% 0.81/1.58 U ), W ), divide( W, divide( Z, divide( U, T ) ) ) ), divide( multiply(
% 0.81/1.58 inverse( Y ), Y ), divide( X, Z ) ) ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, divide( X, U ) ), :=( Y, multiply(
% 0.81/1.58 inverse( W ), W ) ), :=( Z, V0 ), :=( T, multiply( divide( divide( Y, Z )
% 0.81/1.58 , T ), divide( T, divide( U, divide( Z, Y ) ) ) ) )] ), substitution( 1
% 0.81/1.58 , [ :=( X, X ), :=( Y, W ), :=( Z, U ), :=( T, Y ), :=( U, Z ), :=( W, T
% 0.81/1.58 )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2943, [ =( X, divide( divide( X, Y ), multiply( divide( divide( T,
% 0.81/1.58 U ), W ), divide( W, divide( Y, divide( U, T ) ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2942, [ =( X, divide( divide( divide( X, U ), multiply(
% 0.81/1.58 inverse( W ), W ) ), multiply( divide( divide( Y, Z ), T ), divide( T,
% 0.81/1.58 divide( U, divide( Z, Y ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 3, substitution( 0, [ :=( X, V0 ), :=( Y, V1 ), :=( Z, Z ), :=( T,
% 0.81/1.58 divide( X, Y ) )] ), substitution( 1, [ :=( X, X ), :=( Y, T ), :=( Z, U
% 0.81/1.58 ), :=( T, W ), :=( U, Y ), :=( W, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2944, [ =( X, divide( divide( X, Y ), multiply( divide( divide( Z,
% 0.81/1.58 T ), U ), divide( multiply( U, divide( T, Z ) ), Y ) ) ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 2943, [ =( X, divide( divide( X, Y ), multiply( divide( divide(
% 0.81/1.58 T, U ), W ), divide( W, divide( Y, divide( U, T ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 12, substitution( 0, [ :=( X, divide( T, Z ) ), :=( Y, W ), :=( Z, V0
% 0.81/1.58 ), :=( T, U ), :=( U, Y )] ), substitution( 1, [ :=( X, X ), :=( Y, Y )
% 0.81/1.58 , :=( Z, V1 ), :=( T, Z ), :=( U, T ), :=( W, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2947, [ =( X, divide( divide( X, Y ), inverse( Y ) ) ) ] )
% 0.81/1.58 , clause( 1519, [ =( multiply( divide( divide( Z, T ), U ), divide(
% 0.81/1.58 multiply( U, divide( T, Z ) ), X ) ), inverse( X ) ) ] )
% 0.81/1.58 , 0, clause( 2944, [ =( X, divide( divide( X, Y ), multiply( divide( divide(
% 0.81/1.58 Z, T ), U ), divide( multiply( U, divide( T, Z ) ), Y ) ) ) ) ] )
% 0.81/1.58 , 0, 6, substitution( 0, [ :=( X, Y ), :=( Y, W ), :=( Z, Z ), :=( T, T ),
% 0.81/1.58 :=( U, U )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2948, [ =( X, multiply( divide( X, Y ), Y ) ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 2947, [ =( X, divide( divide( X, Y ), inverse( Y ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, divide( X, Y ) ), :=( Y, Y )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2949, [ =( multiply( divide( X, Y ), Y ), X ) ] )
% 0.81/1.58 , clause( 2948, [ =( X, multiply( divide( X, Y ), Y ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1533, [ =( multiply( divide( W, T ), T ), W ) ] )
% 0.81/1.58 , clause( 2949, [ =( multiply( divide( X, Y ), Y ), X ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, W ), :=( Y, T )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2951, [ =( inverse( T ), multiply( multiply( multiply( X, Y ),
% 0.81/1.58 divide( divide( inverse( Y ), X ), multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.58 , clause( 44, [ =( multiply( multiply( multiply( X, Y ), divide( divide(
% 0.81/1.58 inverse( Y ), X ), multiply( Z, T ) ) ), Z ), inverse( T ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2956, [ =( inverse( X ), multiply( multiply( multiply( Y, Z ),
% 0.81/1.58 divide( inverse( Z ), Y ) ), inverse( X ) ) ) ] )
% 0.81/1.58 , clause( 1262, [ =( divide( T, multiply( inverse( Z ), Z ) ), T ) ] )
% 0.81/1.58 , 0, clause( 2951, [ =( inverse( T ), multiply( multiply( multiply( X, Y )
% 0.81/1.58 , divide( divide( inverse( Y ), X ), multiply( Z, T ) ) ), Z ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, X ), :=( T,
% 0.81/1.58 divide( inverse( Z ), Y ) )] ), substitution( 1, [ :=( X, Y ), :=( Y, Z )
% 0.81/1.58 , :=( Z, inverse( X ) ), :=( T, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2958, [ =( inverse( X ), divide( multiply( multiply( Y, Z ), divide(
% 0.81/1.58 inverse( Z ), Y ) ), X ) ) ] )
% 0.81/1.58 , clause( 1449, [ =( multiply( Z, inverse( T ) ), divide( Z, T ) ) ] )
% 0.81/1.58 , 0, clause( 2956, [ =( inverse( X ), multiply( multiply( multiply( Y, Z )
% 0.81/1.58 , divide( inverse( Z ), Y ) ), inverse( X ) ) ) ] )
% 0.81/1.58 , 0, 3, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, multiply(
% 0.81/1.58 multiply( Y, Z ), divide( inverse( Z ), Y ) ) ), :=( T, X )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2959, [ =( inverse( X ), divide( multiply( multiply( Y, Z ),
% 0.81/1.58 inverse( multiply( Y, Z ) ) ), X ) ) ] )
% 0.81/1.58 , clause( 1456, [ =( divide( inverse( U ), T ), inverse( multiply( T, U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 2958, [ =( inverse( X ), divide( multiply( multiply( Y, Z ),
% 0.81/1.58 divide( inverse( Z ), Y ) ), X ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, W ), :=( T, Y ),
% 0.81/1.58 :=( U, Z )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2960, [ =( inverse( X ), divide( divide( multiply( Y, Z ), multiply(
% 0.81/1.58 Y, Z ) ), X ) ) ] )
% 0.81/1.58 , clause( 1449, [ =( multiply( Z, inverse( T ) ), divide( Z, T ) ) ] )
% 0.81/1.58 , 0, clause( 2959, [ =( inverse( X ), divide( multiply( multiply( Y, Z ),
% 0.81/1.58 inverse( multiply( Y, Z ) ) ), X ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, multiply( Y, Z )
% 0.81/1.58 ), :=( T, multiply( Y, Z ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y
% 0.81/1.58 ), :=( Z, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2961, [ =( inverse( X ), divide( divide( Y, Y ), X ) ) ] )
% 0.81/1.58 , clause( 1482, [ =( divide( multiply( T, Z ), multiply( X, Z ) ), divide(
% 0.81/1.58 T, X ) ) ] )
% 0.81/1.58 , 0, clause( 2960, [ =( inverse( X ), divide( divide( multiply( Y, Z ),
% 0.81/1.58 multiply( Y, Z ) ), X ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, T ), :=( Z, Z ), :=( T, Y )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2962, [ =( divide( divide( Y, Y ), X ), inverse( X ) ) ] )
% 0.81/1.58 , clause( 2961, [ =( inverse( X ), divide( divide( Y, Y ), X ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1536, [ =( divide( divide( Y, Y ), Z ), inverse( Z ) ) ] )
% 0.81/1.58 , clause( 2962, [ =( divide( divide( Y, Y ), X ), inverse( X ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, Z ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2964, [ =( X, inverse( inverse( X ) ) ) ] )
% 0.81/1.58 , clause( 1409, [ =( inverse( inverse( Z ) ), Z ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2965, [ =( divide( X, multiply( Y, X ) ), inverse( Y ) ) ] )
% 0.81/1.58 , clause( 1138, [ =( inverse( divide( T, multiply( X, T ) ) ), X ) ] )
% 0.81/1.58 , 0, clause( 2964, [ =( X, inverse( inverse( X ) ) ) ] )
% 0.81/1.58 , 0, 7, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, X )] )
% 0.81/1.58 , substitution( 1, [ :=( X, divide( X, multiply( Y, X ) ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1543, [ =( divide( X, multiply( Y, X ) ), inverse( Y ) ) ] )
% 0.81/1.58 , clause( 2965, [ =( divide( X, multiply( Y, X ) ), inverse( Y ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 2968, [ =( inverse( divide( Z, divide( Y, divide( inverse( U ), T )
% 0.81/1.58 ) ) ), divide( inverse( divide( inverse( X ), Y ) ), multiply( divide( Z
% 0.81/1.58 , multiply( T, U ) ), X ) ) ) ] )
% 0.81/1.58 , clause( 19, [ =( divide( inverse( divide( inverse( U ), Y ) ), multiply(
% 0.81/1.58 divide( X, multiply( T, Z ) ), U ) ), inverse( divide( X, divide( Y,
% 0.81/1.58 divide( inverse( Z ), T ) ) ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, U ), :=( T, T ),
% 0.81/1.58 :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2979, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ), T )
% 0.81/1.58 ) ) ), divide( inverse( divide( U, Y ) ), multiply( divide( X, multiply(
% 0.81/1.58 T, Z ) ), inverse( U ) ) ) ) ] )
% 0.81/1.58 , clause( 1409, [ =( inverse( inverse( Z ) ), Z ) ] )
% 0.81/1.58 , 0, clause( 2968, [ =( inverse( divide( Z, divide( Y, divide( inverse( U )
% 0.81/1.58 , T ) ) ) ), divide( inverse( divide( inverse( X ), Y ) ), multiply(
% 0.81/1.58 divide( Z, multiply( T, U ) ), X ) ) ) ] )
% 0.81/1.58 , 0, 13, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, U )] ),
% 0.81/1.58 substitution( 1, [ :=( X, inverse( U ) ), :=( Y, Y ), :=( Z, X ), :=( T,
% 0.81/1.58 T ), :=( U, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2981, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ), T )
% 0.81/1.58 ) ) ), inverse( multiply( multiply( divide( X, multiply( T, Z ) ),
% 0.81/1.58 inverse( U ) ), divide( U, Y ) ) ) ) ] )
% 0.81/1.58 , clause( 1456, [ =( divide( inverse( U ), T ), inverse( multiply( T, U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 2979, [ =( inverse( divide( X, divide( Y, divide( inverse( Z )
% 0.81/1.58 , T ) ) ) ), divide( inverse( divide( U, Y ) ), multiply( divide( X,
% 0.81/1.58 multiply( T, Z ) ), inverse( U ) ) ) ) ] )
% 0.81/1.58 , 0, 10, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, V1 ), :=( T,
% 0.81/1.58 multiply( divide( X, multiply( T, Z ) ), inverse( U ) ) ), :=( U, divide(
% 0.81/1.58 U, Y ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T
% 0.81/1.58 , T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2983, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ), T )
% 0.81/1.58 ) ) ), divide( divide( Y, U ), multiply( divide( X, multiply( T, Z ) ),
% 0.81/1.58 inverse( U ) ) ) ) ] )
% 0.81/1.58 , clause( 1250, [ =( inverse( multiply( T, divide( Y, X ) ) ), divide(
% 0.81/1.58 divide( X, Y ), T ) ) ] )
% 0.81/1.58 , 0, clause( 2981, [ =( inverse( divide( X, divide( Y, divide( inverse( Z )
% 0.81/1.58 , T ) ) ) ), inverse( multiply( multiply( divide( X, multiply( T, Z ) ),
% 0.81/1.58 inverse( U ) ), divide( U, Y ) ) ) ) ] )
% 0.81/1.58 , 0, 10, substitution( 0, [ :=( X, Y ), :=( Y, U ), :=( Z, W ), :=( T,
% 0.81/1.58 multiply( divide( X, multiply( T, Z ) ), inverse( U ) ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2984, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ), T )
% 0.81/1.58 ) ) ), divide( divide( Y, U ), divide( divide( X, multiply( T, Z ) ), U
% 0.81/1.58 ) ) ) ] )
% 0.81/1.58 , clause( 1449, [ =( multiply( Z, inverse( T ) ), divide( Z, T ) ) ] )
% 0.81/1.58 , 0, clause( 2983, [ =( inverse( divide( X, divide( Y, divide( inverse( Z )
% 0.81/1.58 , T ) ) ) ), divide( divide( Y, U ), multiply( divide( X, multiply( T, Z
% 0.81/1.58 ) ), inverse( U ) ) ) ) ] )
% 0.81/1.58 , 0, 14, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, divide( X,
% 0.81/1.58 multiply( T, Z ) ) ), :=( T, U )] ), substitution( 1, [ :=( X, X ), :=( Y
% 0.81/1.58 , Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2987, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ), T )
% 0.81/1.58 ) ) ), divide( multiply( divide( Y, U ), U ), divide( X, multiply( T, Z
% 0.81/1.58 ) ) ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 2984, [ =( inverse( divide( X, divide( Y, divide( inverse( Z )
% 0.81/1.58 , T ) ) ) ), divide( divide( Y, U ), divide( divide( X, multiply( T, Z )
% 0.81/1.58 ), U ) ) ) ] )
% 0.81/1.58 , 0, 10, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T,
% 0.81/1.58 divide( Y, U ) ), :=( U, divide( X, multiply( T, Z ) ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 2998, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ), T )
% 0.81/1.58 ) ) ), divide( multiply( multiply( divide( Y, U ), U ), multiply( T, Z )
% 0.81/1.58 ), X ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 2987, [ =( inverse( divide( X, divide( Y, divide( inverse( Z )
% 0.81/1.58 , T ) ) ) ), divide( multiply( divide( Y, U ), U ), divide( X, multiply(
% 0.81/1.58 T, Z ) ) ) ) ] )
% 0.81/1.58 , 0, 10, substitution( 0, [ :=( X, multiply( T, Z ) ), :=( Y, W ), :=( Z,
% 0.81/1.58 V0 ), :=( T, multiply( divide( Y, U ), U ) ), :=( U, X )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3003, [ =( inverse( divide( X, divide( Y, divide( inverse( Z ), T )
% 0.81/1.58 ) ) ), divide( multiply( Y, multiply( T, Z ) ), X ) ) ] )
% 0.81/1.58 , clause( 1533, [ =( multiply( divide( W, T ), T ), W ) ] )
% 0.81/1.58 , 0, clause( 2998, [ =( inverse( divide( X, divide( Y, divide( inverse( Z )
% 0.81/1.58 , T ) ) ) ), divide( multiply( multiply( divide( Y, U ), U ), multiply( T
% 0.81/1.58 , Z ) ), X ) ) ] )
% 0.81/1.58 , 0, 12, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, V1 ), :=( T, U
% 0.81/1.58 ), :=( U, V2 ), :=( W, Y )] ), substitution( 1, [ :=( X, X ), :=( Y, Y )
% 0.81/1.58 , :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3004, [ =( divide( divide( Y, divide( inverse( Z ), T ) ), X ),
% 0.81/1.58 divide( multiply( Y, multiply( T, Z ) ), X ) ) ] )
% 0.81/1.58 , clause( 1479, [ =( inverse( divide( T, U ) ), divide( U, T ) ) ] )
% 0.81/1.58 , 0, clause( 3003, [ =( inverse( divide( X, divide( Y, divide( inverse( Z )
% 0.81/1.58 , T ) ) ) ), divide( multiply( Y, multiply( T, Z ) ), X ) ) ] )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T, X )
% 0.81/1.58 , :=( U, divide( Y, divide( inverse( Z ), T ) ) )] ), substitution( 1, [
% 0.81/1.58 :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3005, [ =( divide( divide( multiply( X, Z ), inverse( Y ) ), T ),
% 0.81/1.58 divide( multiply( X, multiply( Z, Y ) ), T ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3004, [ =( divide( divide( Y, divide( inverse( Z ), T ) ), X )
% 0.81/1.58 , divide( multiply( Y, multiply( T, Z ) ), X ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, Z ), :=( Y, U ), :=( Z, W ), :=( T, X ),
% 0.81/1.58 :=( U, inverse( Y ) )] ), substitution( 1, [ :=( X, T ), :=( Y, X ), :=(
% 0.81/1.58 Z, Y ), :=( T, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3006, [ =( divide( multiply( multiply( X, Y ), Z ), T ), divide(
% 0.81/1.58 multiply( X, multiply( Y, Z ) ), T ) ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 3005, [ =( divide( divide( multiply( X, Z ), inverse( Y ) ), T
% 0.81/1.58 ), divide( multiply( X, multiply( Z, Y ) ), T ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, multiply( X, Y ) ), :=( Y, Z )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Z ), :=( Z, Y ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3007, [ =( divide( multiply( X, multiply( Y, Z ) ), T ), divide(
% 0.81/1.58 multiply( multiply( X, Y ), Z ), T ) ) ] )
% 0.81/1.58 , clause( 3006, [ =( divide( multiply( multiply( X, Y ), Z ), T ), divide(
% 0.81/1.58 multiply( X, multiply( Y, Z ) ), T ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1567, [ =( divide( multiply( Y, multiply( T, U ) ), Z ), divide(
% 0.81/1.58 multiply( multiply( Y, T ), U ), Z ) ) ] )
% 0.81/1.58 , clause( 3007, [ =( divide( multiply( X, multiply( Y, Z ) ), T ), divide(
% 0.81/1.58 multiply( multiply( X, Y ), Z ), T ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, Y ), :=( Y, T ), :=( Z, U ), :=( T, Z )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3009, [ =( divide( U, T ), multiply( multiply( divide( inverse( X )
% 0.81/1.58 , Y ), Z ), divide( inverse( Z ), divide( divide( T, U ), multiply( Y, X
% 0.81/1.58 ) ) ) ) ) ] )
% 0.81/1.58 , clause( 87, [ =( multiply( multiply( divide( inverse( U ), T ), W ),
% 0.81/1.58 divide( inverse( W ), divide( divide( V0, V1 ), multiply( T, U ) ) ) ),
% 0.81/1.58 divide( V1, V0 ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, V1 ), :=( T, Y ),
% 0.81/1.58 :=( U, X ), :=( W, Z ), :=( V0, T ), :=( V1, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3016, [ =( divide( X, Y ), multiply( multiply( divide( Z, T ), U )
% 0.81/1.58 , divide( inverse( U ), divide( divide( Y, X ), multiply( T, inverse( Z )
% 0.81/1.58 ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1409, [ =( inverse( inverse( Z ) ), Z ) ] )
% 0.81/1.58 , 0, clause( 3009, [ =( divide( U, T ), multiply( multiply( divide( inverse(
% 0.81/1.58 X ), Y ), Z ), divide( inverse( Z ), divide( divide( T, U ), multiply( Y
% 0.81/1.58 , X ) ) ) ) ) ] )
% 0.81/1.58 , 0, 7, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, Z )] ),
% 0.81/1.58 substitution( 1, [ :=( X, inverse( Z ) ), :=( Y, T ), :=( Z, U ), :=( T,
% 0.81/1.58 Y ), :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3020, [ =( divide( X, Y ), multiply( multiply( divide( Z, T ), U )
% 0.81/1.58 , inverse( multiply( divide( divide( Y, X ), multiply( T, inverse( Z ) )
% 0.81/1.58 ), U ) ) ) ) ] )
% 0.81/1.58 , clause( 1456, [ =( divide( inverse( U ), T ), inverse( multiply( T, U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, clause( 3016, [ =( divide( X, Y ), multiply( multiply( divide( Z, T )
% 0.81/1.58 , U ), divide( inverse( U ), divide( divide( Y, X ), multiply( T, inverse(
% 0.81/1.58 Z ) ) ) ) ) ) ] )
% 0.81/1.58 , 0, 10, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, V1 ), :=( T,
% 0.81/1.58 divide( divide( Y, X ), multiply( T, inverse( Z ) ) ) ), :=( U, U )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3021, [ =( divide( X, Y ), divide( multiply( divide( Z, T ), U ),
% 0.81/1.58 multiply( divide( divide( Y, X ), multiply( T, inverse( Z ) ) ), U ) ) )
% 0.81/1.58 ] )
% 0.81/1.58 , clause( 1449, [ =( multiply( Z, inverse( T ) ), divide( Z, T ) ) ] )
% 0.81/1.58 , 0, clause( 3020, [ =( divide( X, Y ), multiply( multiply( divide( Z, T )
% 0.81/1.58 , U ), inverse( multiply( divide( divide( Y, X ), multiply( T, inverse( Z
% 0.81/1.58 ) ) ), U ) ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, multiply( divide(
% 0.81/1.58 Z, T ), U ) ), :=( T, multiply( divide( divide( Y, X ), multiply( T,
% 0.81/1.58 inverse( Z ) ) ), U ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ),
% 0.81/1.58 :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3031, [ =( divide( X, Y ), divide( divide( Z, T ), divide( divide(
% 0.81/1.58 Y, X ), multiply( T, inverse( Z ) ) ) ) ) ] )
% 0.81/1.58 , clause( 1482, [ =( divide( multiply( T, Z ), multiply( X, Z ) ), divide(
% 0.81/1.58 T, X ) ) ] )
% 0.81/1.58 , 0, clause( 3021, [ =( divide( X, Y ), divide( multiply( divide( Z, T ), U
% 0.81/1.58 ), multiply( divide( divide( Y, X ), multiply( T, inverse( Z ) ) ), U )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, divide( divide( Y, X ), multiply( T,
% 0.81/1.58 inverse( Z ) ) ) ), :=( Y, W ), :=( Z, U ), :=( T, divide( Z, T ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3032, [ =( divide( X, Y ), divide( multiply( divide( Z, T ),
% 0.81/1.58 multiply( T, inverse( Z ) ) ), divide( Y, X ) ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3031, [ =( divide( X, Y ), divide( divide( Z, T ), divide(
% 0.81/1.58 divide( Y, X ), multiply( T, inverse( Z ) ) ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, multiply( T, inverse( Z ) ) ), :=( Y, U )
% 0.81/1.58 , :=( Z, W ), :=( T, divide( Z, T ) ), :=( U, divide( Y, X ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3034, [ =( divide( X, Y ), divide( multiply( multiply( divide( Z, T
% 0.81/1.58 ), multiply( T, inverse( Z ) ) ), X ), Y ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3032, [ =( divide( X, Y ), divide( multiply( divide( Z, T ),
% 0.81/1.58 multiply( T, inverse( Z ) ) ), divide( Y, X ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, X ), :=( Y, U ), :=( Z, W ), :=( T,
% 0.81/1.58 multiply( divide( Z, T ), multiply( T, inverse( Z ) ) ) ), :=( U, Y )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3035, [ =( divide( X, Y ), divide( multiply( multiply( divide( Z, T
% 0.81/1.58 ), divide( T, Z ) ), X ), Y ) ) ] )
% 0.81/1.58 , clause( 1449, [ =( multiply( Z, inverse( T ) ), divide( Z, T ) ) ] )
% 0.81/1.58 , 0, clause( 3034, [ =( divide( X, Y ), divide( multiply( multiply( divide(
% 0.81/1.58 Z, T ), multiply( T, inverse( Z ) ) ), X ), Y ) ) ] )
% 0.81/1.58 , 0, 10, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, T ), :=( T, Z )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3036, [ =( divide( multiply( multiply( divide( Z, T ), divide( T, Z
% 0.81/1.58 ) ), X ), Y ), divide( X, Y ) ) ] )
% 0.81/1.58 , clause( 3035, [ =( divide( X, Y ), divide( multiply( multiply( divide( Z
% 0.81/1.58 , T ), divide( T, Z ) ), X ), Y ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1568, [ =( divide( multiply( multiply( divide( X, Y ), divide( Y, X
% 0.81/1.58 ) ), U ), T ), divide( U, T ) ) ] )
% 0.81/1.58 , clause( 3036, [ =( divide( multiply( multiply( divide( Z, T ), divide( T
% 0.81/1.58 , Z ) ), X ), Y ), divide( X, Y ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, X ), :=( T, Y )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3038, [ =( T, divide( divide( X, Y ), divide( Z, multiply( multiply(
% 0.81/1.58 divide( Y, X ), T ), Z ) ) ) ) ] )
% 0.81/1.58 , clause( 772, [ =( divide( divide( T, Z ), divide( Y, multiply( multiply(
% 0.81/1.58 divide( Z, T ), X ), Y ) ) ), X ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, Y ), :=( T, X )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3043, [ =( divide( X, X ), divide( divide( Y, Z ), divide( T,
% 0.81/1.58 multiply( divide( Z, Y ), T ) ) ) ) ] )
% 0.81/1.58 , clause( 1469, [ =( multiply( U, divide( X, X ) ), U ) ] )
% 0.81/1.58 , 0, clause( 3038, [ =( T, divide( divide( X, Y ), divide( Z, multiply(
% 0.81/1.58 multiply( divide( Y, X ), T ), Z ) ) ) ) ] )
% 0.81/1.58 , 0, 11, substitution( 0, [ :=( X, X ), :=( Y, U ), :=( Z, W ), :=( T, V0 )
% 0.81/1.58 , :=( U, divide( Z, Y ) )] ), substitution( 1, [ :=( X, Y ), :=( Y, Z ),
% 0.81/1.58 :=( Z, T ), :=( T, divide( X, X ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3044, [ =( divide( X, X ), divide( multiply( divide( Y, Z ),
% 0.81/1.58 multiply( divide( Z, Y ), T ) ), T ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3043, [ =( divide( X, X ), divide( divide( Y, Z ), divide( T,
% 0.81/1.58 multiply( divide( Z, Y ), T ) ) ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, multiply( divide( Z, Y ), T ) ), :=( Y, U
% 0.81/1.58 ), :=( Z, W ), :=( T, divide( Y, Z ) ), :=( U, T )] ), substitution( 1
% 0.81/1.58 , [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3045, [ =( divide( X, X ), divide( multiply( multiply( divide( Y, Z
% 0.81/1.58 ), divide( Z, Y ) ), T ), T ) ) ] )
% 0.81/1.58 , clause( 1567, [ =( divide( multiply( Y, multiply( T, U ) ), Z ), divide(
% 0.81/1.58 multiply( multiply( Y, T ), U ), Z ) ) ] )
% 0.81/1.58 , 0, clause( 3044, [ =( divide( X, X ), divide( multiply( divide( Y, Z ),
% 0.81/1.58 multiply( divide( Z, Y ), T ) ), T ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, U ), :=( Y, divide( Y, Z ) ), :=( Z, T )
% 0.81/1.58 , :=( T, divide( Z, Y ) ), :=( U, T )] ), substitution( 1, [ :=( X, X ),
% 0.81/1.58 :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3046, [ =( divide( X, X ), divide( T, T ) ) ] )
% 0.81/1.58 , clause( 1568, [ =( divide( multiply( multiply( divide( X, Y ), divide( Y
% 0.81/1.58 , X ) ), U ), T ), divide( U, T ) ) ] )
% 0.81/1.58 , 0, clause( 3045, [ =( divide( X, X ), divide( multiply( multiply( divide(
% 0.81/1.58 Y, Z ), divide( Z, Y ) ), T ), T ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, U ), :=( T, T ),
% 0.81/1.58 :=( U, T )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1580, [ =( divide( T, T ), divide( Z, Z ) ) ] )
% 0.81/1.58 , clause( 3046, [ =( divide( X, X ), divide( T, T ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, W ), :=( T, Z )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3048, [ =( Y, divide( X, multiply( multiply( divide( inverse( Y ),
% 0.81/1.58 Z ), divide( multiply( Z, T ), T ) ), X ) ) ) ] )
% 0.81/1.58 , clause( 273, [ =( divide( T, multiply( multiply( divide( inverse( Y ), X
% 0.81/1.58 ), divide( multiply( X, Z ), Z ) ), T ) ), Y ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, T ), :=( T, X )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3054, [ =( X, divide( divide( Y, Y ), multiply( divide( inverse( X
% 0.81/1.58 ), Z ), divide( multiply( Z, T ), T ) ) ) ) ] )
% 0.81/1.58 , clause( 1469, [ =( multiply( U, divide( X, X ) ), U ) ] )
% 0.81/1.58 , 0, clause( 3048, [ =( Y, divide( X, multiply( multiply( divide( inverse(
% 0.81/1.58 Y ), Z ), divide( multiply( Z, T ), T ) ), X ) ) ) ] )
% 0.81/1.58 , 0, 6, substitution( 0, [ :=( X, Y ), :=( Y, U ), :=( Z, W ), :=( T, V0 )
% 0.81/1.58 , :=( U, multiply( divide( inverse( X ), Z ), divide( multiply( Z, T ), T
% 0.81/1.58 ) ) )] ), substitution( 1, [ :=( X, divide( Y, Y ) ), :=( Y, X ), :=( Z
% 0.81/1.58 , Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3056, [ =( X, inverse( multiply( divide( inverse( X ), Z ), divide(
% 0.81/1.58 multiply( Z, T ), T ) ) ) ) ] )
% 0.81/1.58 , clause( 1536, [ =( divide( divide( Y, Y ), Z ), inverse( Z ) ) ] )
% 0.81/1.58 , 0, clause( 3054, [ =( X, divide( divide( Y, Y ), multiply( divide(
% 0.81/1.58 inverse( X ), Z ), divide( multiply( Z, T ), T ) ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, U ), :=( Y, Y ), :=( Z, multiply( divide(
% 0.81/1.58 inverse( X ), Z ), divide( multiply( Z, T ), T ) ) )] ), substitution( 1
% 0.81/1.58 , [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3057, [ =( X, divide( divide( Z, multiply( Y, Z ) ), divide(
% 0.81/1.58 inverse( X ), Y ) ) ) ] )
% 0.81/1.58 , clause( 1250, [ =( inverse( multiply( T, divide( Y, X ) ) ), divide(
% 0.81/1.58 divide( X, Y ), T ) ) ] )
% 0.81/1.58 , 0, clause( 3056, [ =( X, inverse( multiply( divide( inverse( X ), Z ),
% 0.81/1.58 divide( multiply( Z, T ), T ) ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, Z ), :=( Y, multiply( Y, Z ) ), :=( Z, T
% 0.81/1.58 ), :=( T, divide( inverse( X ), Y ) )] ), substitution( 1, [ :=( X, X )
% 0.81/1.58 , :=( Y, U ), :=( Z, Y ), :=( T, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3058, [ =( X, divide( multiply( divide( Y, multiply( Z, Y ) ), Z )
% 0.81/1.58 , inverse( X ) ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3057, [ =( X, divide( divide( Z, multiply( Y, Z ) ), divide(
% 0.81/1.58 inverse( X ), Y ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T,
% 0.81/1.58 divide( Y, multiply( Z, Y ) ) ), :=( U, inverse( X ) )] ), substitution(
% 0.81/1.58 1, [ :=( X, X ), :=( Y, Z ), :=( Z, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3059, [ =( X, multiply( multiply( divide( Y, multiply( Z, Y ) ), Z
% 0.81/1.58 ), X ) ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 3058, [ =( X, divide( multiply( divide( Y, multiply( Z, Y ) )
% 0.81/1.58 , Z ), inverse( X ) ) ) ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, multiply( divide( Y, multiply( Z, Y ) ),
% 0.81/1.58 Z ) ), :=( Y, X )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z
% 0.81/1.58 )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3060, [ =( X, multiply( multiply( inverse( Z ), Z ), X ) ) ] )
% 0.81/1.58 , clause( 1543, [ =( divide( X, multiply( Y, X ) ), inverse( Y ) ) ] )
% 0.81/1.58 , 0, clause( 3059, [ =( X, multiply( multiply( divide( Y, multiply( Z, Y )
% 0.81/1.58 ), Z ), X ) ) ] )
% 0.81/1.58 , 0, 4, substitution( 0, [ :=( X, Y ), :=( Y, Z )] ), substitution( 1, [
% 0.81/1.58 :=( X, X ), :=( Y, Y ), :=( Z, Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3061, [ =( multiply( multiply( inverse( Y ), Y ), X ), X ) ] )
% 0.81/1.58 , clause( 3060, [ =( X, multiply( multiply( inverse( Z ), Z ), X ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Z ), :=( Z, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1581, [ =( multiply( multiply( inverse( Y ), Y ), X ), X ) ] )
% 0.81/1.58 , clause( 3061, [ =( multiply( multiply( inverse( Y ), Y ), X ), X ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, X ), :=( Y, Y )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3063, [ =( inverse( T ), multiply( multiply( multiply( inverse( X )
% 0.81/1.58 , Y ), divide( multiply( inverse( Y ), X ), multiply( Z, T ) ) ), Z ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , clause( 56, [ =( multiply( multiply( multiply( inverse( X ), Y ), divide(
% 0.81/1.58 multiply( inverse( Y ), X ), multiply( Z, T ) ) ), Z ), inverse( T ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3072, [ =( inverse( divide( X, X ) ), multiply( multiply( multiply(
% 0.81/1.58 inverse( Y ), Z ), divide( multiply( inverse( Z ), Y ), T ) ), T ) ) ] )
% 0.81/1.58 , clause( 1469, [ =( multiply( U, divide( X, X ) ), U ) ] )
% 0.81/1.58 , 0, clause( 3063, [ =( inverse( T ), multiply( multiply( multiply( inverse(
% 0.81/1.58 X ), Y ), divide( multiply( inverse( Y ), X ), multiply( Z, T ) ) ), Z )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, 16, substitution( 0, [ :=( X, X ), :=( Y, U ), :=( Z, W ), :=( T, V0 )
% 0.81/1.58 , :=( U, T )] ), substitution( 1, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ),
% 0.81/1.58 :=( T, divide( X, X ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3073, [ =( inverse( divide( X, X ) ), multiply( inverse( T ), T ) )
% 0.81/1.58 ] )
% 0.81/1.58 , clause( 1285, [ =( multiply( multiply( inverse( Y ), Z ), divide(
% 0.81/1.58 multiply( inverse( Z ), Y ), T ) ), inverse( T ) ) ] )
% 0.81/1.58 , 0, clause( 3072, [ =( inverse( divide( X, X ) ), multiply( multiply(
% 0.81/1.58 multiply( inverse( Y ), Z ), divide( multiply( inverse( Z ), Y ), T ) ),
% 0.81/1.58 T ) ) ] )
% 0.81/1.58 , 0, 6, substitution( 0, [ :=( X, U ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3074, [ =( divide( X, X ), multiply( inverse( Y ), Y ) ) ] )
% 0.81/1.58 , clause( 1479, [ =( inverse( divide( T, U ) ), divide( U, T ) ) ] )
% 0.81/1.58 , 0, clause( 3073, [ =( inverse( divide( X, X ) ), multiply( inverse( T ),
% 0.81/1.58 T ) ) ] )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, Z ), :=( Y, T ), :=( Z, U ), :=( T, X ),
% 0.81/1.58 :=( U, X )] ), substitution( 1, [ :=( X, X ), :=( Y, W ), :=( Z, V0 ),
% 0.81/1.58 :=( T, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3075, [ =( multiply( inverse( Y ), Y ), divide( X, X ) ) ] )
% 0.81/1.58 , clause( 3074, [ =( divide( X, X ), multiply( inverse( Y ), Y ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1604, [ =( multiply( inverse( X ), X ), divide( Y, Y ) ) ] )
% 0.81/1.58 , clause( 3075, [ =( multiply( inverse( Y ), Y ), divide( X, X ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, Y ), :=( Y, X )] ), permutation( 0, [ ==>( 0, 0
% 0.81/1.58 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3076, [ =( multiply( X, T ), divide( divide( X, divide( divide( Y,
% 0.81/1.58 Z ), T ) ), divide( Z, Y ) ) ) ] )
% 0.81/1.58 , clause( 1114, [ =( divide( divide( X, divide( divide( Y, Z ), T ) ),
% 0.81/1.58 divide( Z, Y ) ), multiply( X, T ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3081, [ =( multiply( X, divide( Y, Z ) ), divide( divide( X, divide(
% 0.81/1.58 T, T ) ), divide( Z, Y ) ) ) ] )
% 0.81/1.58 , clause( 1580, [ =( divide( T, T ), divide( Z, Z ) ) ] )
% 0.81/1.58 , 0, clause( 3076, [ =( multiply( X, T ), divide( divide( X, divide( divide(
% 0.81/1.58 Y, Z ), T ) ), divide( Z, Y ) ) ) ] )
% 0.81/1.58 , 0, 9, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, T ), :=( T,
% 0.81/1.58 divide( Y, Z ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z
% 0.81/1.58 ), :=( T, divide( Y, Z ) )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3114, [ =( multiply( X, divide( Y, Z ) ), divide( divide( multiply(
% 0.81/1.58 X, T ), T ), divide( Z, Y ) ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3081, [ =( multiply( X, divide( Y, Z ) ), divide( divide( X,
% 0.81/1.58 divide( T, T ) ), divide( Z, Y ) ) ) ] )
% 0.81/1.58 , 0, 7, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, W ), :=( T, X ),
% 0.81/1.58 :=( U, T )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3116, [ =( multiply( X, divide( Y, Z ) ), divide( multiply( divide(
% 0.81/1.58 multiply( X, T ), T ), Y ), Z ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3114, [ =( multiply( X, divide( Y, Z ) ), divide( divide(
% 0.81/1.58 multiply( X, T ), T ), divide( Z, Y ) ) ) ] )
% 0.81/1.58 , 0, 6, substitution( 0, [ :=( X, Y ), :=( Y, U ), :=( Z, W ), :=( T,
% 0.81/1.58 divide( multiply( X, T ), T ) ), :=( U, Z )] ), substitution( 1, [ :=( X
% 0.81/1.58 , X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3117, [ =( multiply( X, divide( Y, Z ) ), divide( multiply( X, Y )
% 0.81/1.58 , Z ) ) ] )
% 0.81/1.58 , clause( 1497, [ =( divide( multiply( U, Y ), Y ), U ) ] )
% 0.81/1.58 , 0, clause( 3116, [ =( multiply( X, divide( Y, Z ) ), divide( multiply(
% 0.81/1.58 divide( multiply( X, T ), T ), Y ), Z ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, W ), :=( T, V0 )
% 0.81/1.58 , :=( U, X )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ),
% 0.81/1.58 :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1607, [ =( multiply( T, divide( X, Y ) ), divide( multiply( T, X )
% 0.81/1.58 , Y ) ) ] )
% 0.81/1.58 , clause( 3117, [ =( multiply( X, divide( Y, Z ) ), divide( multiply( X, Y
% 0.81/1.58 ), Z ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, T ), :=( Y, X ), :=( Z, Y )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3119, [ =( divide( X, Z ), multiply( X, divide( Y, divide( divide(
% 0.81/1.58 Z, divide( multiply( T, U ), Y ) ), divide( inverse( U ), T ) ) ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , clause( 60, [ =( multiply( U, divide( X, divide( divide( Y, divide(
% 0.81/1.58 multiply( Z, T ), X ) ), divide( inverse( T ), Z ) ) ) ), divide( U, Y )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Y ), :=( Y, Z ), :=( Z, T ), :=( T, U ),
% 0.81/1.58 :=( U, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3128, [ =( divide( X, divide( multiply( Y, Z ), T ) ), multiply( X
% 0.81/1.58 , divide( T, divide( divide( U, U ), divide( inverse( Z ), Y ) ) ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , clause( 1580, [ =( divide( T, T ), divide( Z, Z ) ) ] )
% 0.81/1.58 , 0, clause( 3119, [ =( divide( X, Z ), multiply( X, divide( Y, divide(
% 0.81/1.58 divide( Z, divide( multiply( T, U ), Y ) ), divide( inverse( U ), T ) ) )
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , 0, 13, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, U ), :=( T,
% 0.81/1.58 divide( multiply( Y, Z ), T ) )] ), substitution( 1, [ :=( X, X ), :=( Y
% 0.81/1.58 , T ), :=( Z, divide( multiply( Y, Z ), T ) ), :=( T, Y ), :=( U, Z )] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3191, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 multiply( X, T ), divide( divide( U, U ), divide( inverse( Z ), Y ) ) ) )
% 0.81/1.58 ] )
% 0.81/1.58 , clause( 1607, [ =( multiply( T, divide( X, Y ) ), divide( multiply( T, X
% 0.81/1.58 ), Y ) ) ] )
% 0.81/1.58 , 0, clause( 3128, [ =( divide( X, divide( multiply( Y, Z ), T ) ),
% 0.81/1.58 multiply( X, divide( T, divide( divide( U, U ), divide( inverse( Z ), Y )
% 0.81/1.58 ) ) ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, T ), :=( Y, divide( divide( U, U ),
% 0.81/1.58 divide( inverse( Z ), Y ) ) ), :=( Z, W ), :=( T, X )] ), substitution( 1
% 0.81/1.58 , [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3193, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 multiply( multiply( X, T ), divide( inverse( Z ), Y ) ), divide( U, U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3191, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 multiply( X, T ), divide( divide( U, U ), divide( inverse( Z ), Y ) ) ) )
% 0.81/1.58 ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, divide( inverse( Z ), Y ) ), :=( Y, W ),
% 0.81/1.58 :=( Z, V0 ), :=( T, multiply( X, T ) ), :=( U, divide( U, U ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3207, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 multiply( multiply( multiply( X, T ), divide( inverse( Z ), Y ) ), U ), U
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3193, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 multiply( multiply( X, T ), divide( inverse( Z ), Y ) ), divide( U, U ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T,
% 0.81/1.58 multiply( multiply( X, T ), divide( inverse( Z ), Y ) ) ), :=( U, U )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=(
% 0.81/1.58 U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3209, [ =( divide( X, divide( multiply( Y, Z ), T ) ), multiply(
% 0.81/1.58 multiply( X, T ), divide( inverse( Z ), Y ) ) ) ] )
% 0.81/1.58 , clause( 1497, [ =( divide( multiply( U, Y ), Y ), U ) ] )
% 0.81/1.58 , 0, clause( 3207, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 multiply( multiply( multiply( X, T ), divide( inverse( Z ), Y ) ), U ), U
% 0.81/1.58 ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, W ), :=( Y, U ), :=( Z, V0 ), :=( T, V1 )
% 0.81/1.58 , :=( U, multiply( multiply( X, T ), divide( inverse( Z ), Y ) ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3210, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 multiply( multiply( X, T ), inverse( Z ) ), Y ) ) ] )
% 0.81/1.58 , clause( 1607, [ =( multiply( T, divide( X, Y ) ), divide( multiply( T, X
% 0.81/1.58 ), Y ) ) ] )
% 0.81/1.58 , 0, clause( 3209, [ =( divide( X, divide( multiply( Y, Z ), T ) ),
% 0.81/1.58 multiply( multiply( X, T ), divide( inverse( Z ), Y ) ) ) ] )
% 0.81/1.58 , 0, 8, substitution( 0, [ :=( X, inverse( Z ) ), :=( Y, Y ), :=( Z, U ),
% 0.81/1.58 :=( T, multiply( X, T ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ),
% 0.81/1.58 :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3211, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 divide( multiply( X, T ), Z ), Y ) ) ] )
% 0.81/1.58 , clause( 1449, [ =( multiply( Z, inverse( T ) ), divide( Z, T ) ) ] )
% 0.81/1.58 , 0, clause( 3210, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 multiply( multiply( X, T ), inverse( Z ) ), Y ) ) ] )
% 0.81/1.58 , 0, 9, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, multiply( X, T )
% 0.81/1.58 ), :=( T, Z )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z )
% 0.81/1.58 , :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3212, [ =( divide( multiply( X, T ), multiply( Y, Z ) ), divide(
% 0.81/1.58 divide( multiply( X, T ), Z ), Y ) ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3211, [ =( divide( X, divide( multiply( Y, Z ), T ) ), divide(
% 0.81/1.58 divide( multiply( X, T ), Z ), Y ) ) ] )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, T ), :=( Y, U ), :=( Z, W ), :=( T, X ),
% 0.81/1.58 :=( U, multiply( Y, Z ) )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ),
% 0.81/1.58 :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1618, [ =( divide( multiply( U, Z ), multiply( X, Y ) ), divide(
% 0.81/1.58 divide( multiply( U, Z ), Y ), X ) ) ] )
% 0.81/1.58 , clause( 3212, [ =( divide( multiply( X, T ), multiply( Y, Z ) ), divide(
% 0.81/1.58 divide( multiply( X, T ), Z ), Y ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, U ), :=( Y, X ), :=( Z, Y ), :=( T, Z )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3215, [ =( Y, multiply( inverse( divide( inverse( X ), divide( Y,
% 0.81/1.58 divide( inverse( divide( divide( inverse( Z ), T ), multiply( X, U ) ) )
% 0.81/1.58 , multiply( T, Z ) ) ) ) ), U ) ) ] )
% 0.81/1.58 , clause( 57, [ =( multiply( inverse( divide( inverse( Z ), divide( U,
% 0.81/1.58 divide( inverse( divide( divide( inverse( Y ), X ), multiply( Z, T ) ) )
% 0.81/1.58 , multiply( X, Y ) ) ) ) ), T ), U ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, T ), :=( Y, Z ), :=( Z, X ), :=( T, U ),
% 0.81/1.58 :=( U, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3232, [ =( multiply( X, divide( inverse( divide( divide( inverse( Y
% 0.81/1.58 ), Z ), multiply( T, U ) ) ), multiply( Z, Y ) ) ), multiply( inverse(
% 0.81/1.58 divide( inverse( T ), X ) ), U ) ) ] )
% 0.81/1.58 , clause( 1497, [ =( divide( multiply( U, Y ), Y ), U ) ] )
% 0.81/1.58 , 0, clause( 3215, [ =( Y, multiply( inverse( divide( inverse( X ), divide(
% 0.81/1.58 Y, divide( inverse( divide( divide( inverse( Z ), T ), multiply( X, U ) )
% 0.81/1.58 ), multiply( T, Z ) ) ) ) ), U ) ) ] )
% 0.81/1.58 , 0, 21, substitution( 0, [ :=( X, W ), :=( Y, divide( inverse( divide(
% 0.81/1.58 divide( inverse( Y ), Z ), multiply( T, U ) ) ), multiply( Z, Y ) ) ),
% 0.81/1.58 :=( Z, V0 ), :=( T, V1 ), :=( U, X )] ), substitution( 1, [ :=( X, T ),
% 0.81/1.58 :=( Y, multiply( X, divide( inverse( divide( divide( inverse( Y ), Z ),
% 0.81/1.58 multiply( T, U ) ) ), multiply( Z, Y ) ) ) ), :=( Z, Y ), :=( T, Z ),
% 0.81/1.58 :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3234, [ =( multiply( X, divide( inverse( divide( divide( inverse( Y
% 0.81/1.58 ), Z ), multiply( T, U ) ) ), multiply( Z, Y ) ) ), multiply( divide( X
% 0.81/1.58 , inverse( T ) ), U ) ) ] )
% 0.81/1.58 , clause( 1479, [ =( inverse( divide( T, U ) ), divide( U, T ) ) ] )
% 0.81/1.58 , 0, clause( 3232, [ =( multiply( X, divide( inverse( divide( divide(
% 0.81/1.58 inverse( Y ), Z ), multiply( T, U ) ) ), multiply( Z, Y ) ) ), multiply(
% 0.81/1.58 inverse( divide( inverse( T ), X ) ), U ) ) ] )
% 0.81/1.58 , 0, 17, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, V1 ), :=( T,
% 0.81/1.58 inverse( T ) ), :=( U, X )] ), substitution( 1, [ :=( X, X ), :=( Y, Y )
% 0.81/1.58 , :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3236, [ =( multiply( X, divide( inverse( divide( divide( inverse( Y
% 0.81/1.58 ), Z ), multiply( T, U ) ) ), multiply( Z, Y ) ) ), multiply( multiply(
% 0.81/1.58 X, T ), U ) ) ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 3234, [ =( multiply( X, divide( inverse( divide( divide(
% 0.81/1.58 inverse( Y ), Z ), multiply( T, U ) ) ), multiply( Z, Y ) ) ), multiply(
% 0.81/1.58 divide( X, inverse( T ) ), U ) ) ] )
% 0.81/1.58 , 0, 17, substitution( 0, [ :=( X, X ), :=( Y, T )] ), substitution( 1, [
% 0.81/1.58 :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3237, [ =( divide( multiply( X, inverse( divide( divide( inverse( Y
% 0.81/1.58 ), Z ), multiply( T, U ) ) ) ), multiply( Z, Y ) ), multiply( multiply(
% 0.81/1.58 X, T ), U ) ) ] )
% 0.81/1.58 , clause( 1607, [ =( multiply( T, divide( X, Y ) ), divide( multiply( T, X
% 0.81/1.58 ), Y ) ) ] )
% 0.81/1.58 , 0, clause( 3236, [ =( multiply( X, divide( inverse( divide( divide(
% 0.81/1.58 inverse( Y ), Z ), multiply( T, U ) ) ), multiply( Z, Y ) ) ), multiply(
% 0.81/1.58 multiply( X, T ), U ) ) ] )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, inverse( divide( divide( inverse( Y ), Z
% 0.81/1.58 ), multiply( T, U ) ) ) ), :=( Y, multiply( Z, Y ) ), :=( Z, W ), :=( T
% 0.81/1.58 , X )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T
% 0.81/1.58 ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3238, [ =( divide( divide( multiply( X, inverse( divide( divide(
% 0.81/1.58 inverse( Y ), Z ), multiply( T, U ) ) ) ), Y ), Z ), multiply( multiply(
% 0.81/1.58 X, T ), U ) ) ] )
% 0.81/1.58 , clause( 1618, [ =( divide( multiply( U, Z ), multiply( X, Y ) ), divide(
% 0.81/1.58 divide( multiply( U, Z ), Y ), X ) ) ] )
% 0.81/1.58 , 0, clause( 3237, [ =( divide( multiply( X, inverse( divide( divide(
% 0.81/1.58 inverse( Y ), Z ), multiply( T, U ) ) ) ), multiply( Z, Y ) ), multiply(
% 0.81/1.58 multiply( X, T ), U ) ) ] )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, Z ), :=( Y, Y ), :=( Z, inverse( divide(
% 0.81/1.58 divide( inverse( Y ), Z ), multiply( T, U ) ) ) ), :=( T, W ), :=( U, X )] )
% 0.81/1.58 , substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=(
% 0.81/1.58 U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3239, [ =( divide( divide( divide( X, divide( divide( inverse( Y )
% 0.81/1.58 , Z ), multiply( T, U ) ) ), Y ), Z ), multiply( multiply( X, T ), U ) )
% 0.81/1.58 ] )
% 0.81/1.58 , clause( 1449, [ =( multiply( Z, inverse( T ) ), divide( Z, T ) ) ] )
% 0.81/1.58 , 0, clause( 3238, [ =( divide( divide( multiply( X, inverse( divide(
% 0.81/1.58 divide( inverse( Y ), Z ), multiply( T, U ) ) ) ), Y ), Z ), multiply(
% 0.81/1.58 multiply( X, T ), U ) ) ] )
% 0.81/1.58 , 0, 3, substitution( 0, [ :=( X, W ), :=( Y, V0 ), :=( Z, X ), :=( T,
% 0.81/1.58 divide( divide( inverse( Y ), Z ), multiply( T, U ) ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3240, [ =( divide( divide( divide( multiply( X, multiply( T, U ) )
% 0.81/1.58 , divide( inverse( Y ), Z ) ), Y ), Z ), multiply( multiply( X, T ), U )
% 0.81/1.58 ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3239, [ =( divide( divide( divide( X, divide( divide( inverse(
% 0.81/1.58 Y ), Z ), multiply( T, U ) ) ), Y ), Z ), multiply( multiply( X, T ), U )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, 3, substitution( 0, [ :=( X, multiply( T, U ) ), :=( Y, W ), :=( Z, V0
% 0.81/1.58 ), :=( T, X ), :=( U, divide( inverse( Y ), Z ) )] ), substitution( 1, [
% 0.81/1.58 :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U, U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3242, [ =( divide( divide( divide( multiply( multiply( X, multiply(
% 0.81/1.58 Y, Z ) ), U ), inverse( T ) ), T ), U ), multiply( multiply( X, Y ), Z )
% 0.81/1.58 ) ] )
% 0.81/1.58 , clause( 1493, [ =( divide( T, divide( U, X ) ), divide( multiply( T, X )
% 0.81/1.58 , U ) ) ] )
% 0.81/1.58 , 0, clause( 3240, [ =( divide( divide( divide( multiply( X, multiply( T, U
% 0.81/1.58 ) ), divide( inverse( Y ), Z ) ), Y ), Z ), multiply( multiply( X, T ),
% 0.81/1.58 U ) ) ] )
% 0.81/1.58 , 0, 3, substitution( 0, [ :=( X, U ), :=( Y, W ), :=( Z, V0 ), :=( T,
% 0.81/1.58 multiply( X, multiply( Y, Z ) ) ), :=( U, inverse( T ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, T ), :=( Z, U ), :=( T, Y ), :=( U
% 0.81/1.58 , Z )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3243, [ =( divide( divide( multiply( multiply( multiply( X,
% 0.81/1.58 multiply( Y, Z ) ), T ), U ), U ), T ), multiply( multiply( X, Y ), Z ) )
% 0.81/1.58 ] )
% 0.81/1.58 , clause( 1, [ =( divide( X, inverse( Y ) ), multiply( X, Y ) ) ] )
% 0.81/1.58 , 0, clause( 3242, [ =( divide( divide( divide( multiply( multiply( X,
% 0.81/1.58 multiply( Y, Z ) ), U ), inverse( T ) ), T ), U ), multiply( multiply( X
% 0.81/1.58 , Y ), Z ) ) ] )
% 0.81/1.58 , 0, 3, substitution( 0, [ :=( X, multiply( multiply( X, multiply( Y, Z ) )
% 0.81/1.58 , T ) ), :=( Y, U )] ), substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z
% 0.81/1.58 , Z ), :=( T, U ), :=( U, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3244, [ =( divide( multiply( multiply( X, multiply( Y, Z ) ), T ),
% 0.81/1.58 T ), multiply( multiply( X, Y ), Z ) ) ] )
% 0.81/1.58 , clause( 1497, [ =( divide( multiply( U, Y ), Y ), U ) ] )
% 0.81/1.58 , 0, clause( 3243, [ =( divide( divide( multiply( multiply( multiply( X,
% 0.81/1.58 multiply( Y, Z ) ), T ), U ), U ), T ), multiply( multiply( X, Y ), Z ) )
% 0.81/1.58 ] )
% 0.81/1.58 , 0, 2, substitution( 0, [ :=( X, W ), :=( Y, U ), :=( Z, V0 ), :=( T, V1 )
% 0.81/1.58 , :=( U, multiply( multiply( X, multiply( Y, Z ) ), T ) )] ),
% 0.81/1.58 substitution( 1, [ :=( X, X ), :=( Y, Y ), :=( Z, Z ), :=( T, T ), :=( U
% 0.81/1.58 , U )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3246, [ =( multiply( X, multiply( Y, Z ) ), multiply( multiply( X,
% 0.81/1.58 Y ), Z ) ) ] )
% 0.81/1.58 , clause( 1497, [ =( divide( multiply( U, Y ), Y ), U ) ] )
% 0.81/1.58 , 0, clause( 3244, [ =( divide( multiply( multiply( X, multiply( Y, Z ) ),
% 0.81/1.58 T ), T ), multiply( multiply( X, Y ), Z ) ) ] )
% 0.81/1.58 , 0, 1, substitution( 0, [ :=( X, U ), :=( Y, T ), :=( Z, W ), :=( T, V0 )
% 0.81/1.58 , :=( U, multiply( X, multiply( Y, Z ) ) )] ), substitution( 1, [ :=( X,
% 0.81/1.58 X ), :=( Y, Y ), :=( Z, Z ), :=( T, T )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1622, [ =( multiply( X, multiply( T, U ) ), multiply( multiply( X,
% 0.81/1.58 T ), U ) ) ] )
% 0.81/1.58 , clause( 3246, [ =( multiply( X, multiply( Y, Z ) ), multiply( multiply( X
% 0.81/1.58 , Y ), Z ) ) ] )
% 0.81/1.58 , substitution( 0, [ :=( X, X ), :=( Y, T ), :=( Z, U )] ),
% 0.81/1.58 permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3249, [ ~( =( multiply( inverse( a1 ), a1 ), multiply( inverse( b1
% 0.81/1.58 ), b1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) )
% 0.81/1.58 , ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 )
% 0.81/1.58 , c3 ) ) ) ] )
% 0.81/1.58 , clause( 2, [ ~( =( multiply( inverse( b1 ), b1 ), multiply( inverse( a1 )
% 0.81/1.58 , a1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ),
% 0.81/1.58 ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 ),
% 0.81/1.58 c3 ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3259, [ ~( =( multiply( inverse( a1 ), a1 ), divide( X, X ) ) ),
% 0.81/1.58 ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ), ~( =(
% 0.81/1.58 multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 ), c3 ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , clause( 1604, [ =( multiply( inverse( X ), X ), divide( Y, Y ) ) ] )
% 0.81/1.58 , 0, clause( 3249, [ ~( =( multiply( inverse( a1 ), a1 ), multiply( inverse(
% 0.81/1.58 b1 ), b1 ) ) ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 )
% 0.81/1.58 ), ~( =( multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3
% 0.81/1.58 ), c3 ) ) ) ] )
% 0.81/1.58 , 0, 6, substitution( 0, [ :=( X, b1 ), :=( Y, X )] ), substitution( 1, [] )
% 0.81/1.58 ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3265, [ ~( =( a2, a2 ) ), ~( =( multiply( inverse( a1 ), a1 ),
% 0.81/1.58 divide( X, X ) ) ), ~( =( multiply( a3, multiply( b3, c3 ) ), multiply(
% 0.81/1.58 multiply( a3, b3 ), c3 ) ) ) ] )
% 0.81/1.58 , clause( 1581, [ =( multiply( multiply( inverse( Y ), Y ), X ), X ) ] )
% 0.81/1.58 , 0, clause( 3259, [ ~( =( multiply( inverse( a1 ), a1 ), divide( X, X ) )
% 0.81/1.58 ), ~( =( multiply( multiply( inverse( b2 ), b2 ), a2 ), a2 ) ), ~( =(
% 0.81/1.58 multiply( a3, multiply( b3, c3 ) ), multiply( multiply( a3, b3 ), c3 ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 1, 2, substitution( 0, [ :=( X, a2 ), :=( Y, b2 )] ), substitution( 1, [
% 0.81/1.58 :=( X, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3266, [ ~( =( multiply( multiply( a3, b3 ), c3 ), multiply(
% 0.81/1.58 multiply( a3, b3 ), c3 ) ) ), ~( =( a2, a2 ) ), ~( =( multiply( inverse(
% 0.81/1.58 a1 ), a1 ), divide( X, X ) ) ) ] )
% 0.81/1.58 , clause( 1622, [ =( multiply( X, multiply( T, U ) ), multiply( multiply( X
% 0.81/1.58 , T ), U ) ) ] )
% 0.81/1.58 , 0, clause( 3265, [ ~( =( a2, a2 ) ), ~( =( multiply( inverse( a1 ), a1 )
% 0.81/1.58 , divide( X, X ) ) ), ~( =( multiply( a3, multiply( b3, c3 ) ), multiply(
% 0.81/1.58 multiply( a3, b3 ), c3 ) ) ) ] )
% 0.81/1.58 , 2, 2, substitution( 0, [ :=( X, a3 ), :=( Y, Y ), :=( Z, Z ), :=( T, b3 )
% 0.81/1.58 , :=( U, c3 )] ), substitution( 1, [ :=( X, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqrefl(
% 0.81/1.58 clause( 3267, [ ~( =( a2, a2 ) ), ~( =( multiply( inverse( a1 ), a1 ),
% 0.81/1.58 divide( X, X ) ) ) ] )
% 0.81/1.58 , clause( 3266, [ ~( =( multiply( multiply( a3, b3 ), c3 ), multiply(
% 0.81/1.58 multiply( a3, b3 ), c3 ) ) ), ~( =( a2, a2 ) ), ~( =( multiply( inverse(
% 0.81/1.58 a1 ), a1 ), divide( X, X ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqrefl(
% 0.81/1.58 clause( 3269, [ ~( =( multiply( inverse( a1 ), a1 ), divide( X, X ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , clause( 3267, [ ~( =( a2, a2 ) ), ~( =( multiply( inverse( a1 ), a1 ),
% 0.81/1.58 divide( X, X ) ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3270, [ ~( =( divide( X, X ), multiply( inverse( a1 ), a1 ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , clause( 3269, [ ~( =( multiply( inverse( a1 ), a1 ), divide( X, X ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1627, [ ~( =( divide( X, X ), multiply( inverse( a1 ), a1 ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , clause( 3270, [ ~( =( divide( X, X ), multiply( inverse( a1 ), a1 ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , substitution( 0, [ :=( X, X )] ), permutation( 0, [ ==>( 0, 0 )] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3271, [ =( divide( Y, Y ), multiply( inverse( X ), X ) ) ] )
% 0.81/1.58 , clause( 1604, [ =( multiply( inverse( X ), X ), divide( Y, Y ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X ), :=( Y, Y )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 eqswap(
% 0.81/1.58 clause( 3272, [ ~( =( multiply( inverse( a1 ), a1 ), divide( X, X ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , clause( 1627, [ ~( =( divide( X, X ), multiply( inverse( a1 ), a1 ) ) ) ]
% 0.81/1.58 )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 paramod(
% 0.81/1.58 clause( 3273, [ ~( =( multiply( inverse( a1 ), a1 ), multiply( inverse( Y )
% 0.81/1.58 , Y ) ) ) ] )
% 0.81/1.58 , clause( 3271, [ =( divide( Y, Y ), multiply( inverse( X ), X ) ) ] )
% 0.81/1.58 , 0, clause( 3272, [ ~( =( multiply( inverse( a1 ), a1 ), divide( X, X ) )
% 0.81/1.58 ) ] )
% 0.81/1.58 , 0, 6, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [
% 0.81/1.58 :=( X, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 resolution(
% 0.81/1.58 clause( 3274, [] )
% 0.81/1.58 , clause( 3273, [ ~( =( multiply( inverse( a1 ), a1 ), multiply( inverse( Y
% 0.81/1.58 ), Y ) ) ) ] )
% 0.81/1.58 , 0, clause( 1339, [ =( multiply( inverse( X ), X ), multiply( inverse( Y )
% 0.81/1.58 , Y ) ) ] )
% 0.81/1.58 , 0, substitution( 0, [ :=( X, Y ), :=( Y, X )] ), substitution( 1, [ :=( X
% 0.81/1.58 , a1 ), :=( Y, X )] )).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 subsumption(
% 0.81/1.58 clause( 1630, [] )
% 0.81/1.58 , clause( 3274, [] )
% 0.81/1.58 , substitution( 0, [] ), permutation( 0, [] ) ).
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 end.
% 0.81/1.58
% 0.81/1.58 % ABCDEFGHIJKLMNOPQRSTUVWXYZ
% 0.81/1.58
% 0.81/1.58 Memory use:
% 0.81/1.58
% 0.81/1.58 space for terms: 32232
% 0.81/1.58 space for clauses: 283057
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 clauses generated: 44478
% 0.81/1.58 clauses kept: 1631
% 0.81/1.58 clauses selected: 165
% 0.81/1.58 clauses deleted: 23
% 0.81/1.58 clauses inuse deleted: 5
% 0.81/1.58
% 0.81/1.58 subsentry: 7662
% 0.81/1.58 literals s-matched: 3825
% 0.81/1.58 literals matched: 3780
% 0.81/1.58 full subsumption: 0
% 0.81/1.58
% 0.81/1.58 checksum: -1830563747
% 0.81/1.58
% 0.81/1.58
% 0.81/1.58 Bliksem ended
%------------------------------------------------------------------------------