%------------------------------------------------------------------------------
% File     : CiME---2.01
% Problem  : GRP609-1 : TPTP v6.0.0. Released v2.6.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : tptp2X_and_run_cime %s

% Computer : n146.star.cs.uiowa.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2609 0 2.40GHz
% Memory   : 32286.75MB
% OS       : Linux 2.6.32-431.11.2.el6.x86_64
% CPULimit : 300s
% DateTime : Tue Jun 10 00:23:37 EDT 2014

% Result   : Timeout 300.09s
% Output   : None 
% Verified : 
% SZS Type : None (Parsing solution fails)
% Syntax   : Number of formulae    : 0

% Comments : 
%------------------------------------------------------------------------------
%----ERROR: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% % Problem  : GRP609-1 : TPTP v6.0.0. Released v2.6.0.
% % Command  : tptp2X_and_run_cime %s
% % Computer : n146.star.cs.uiowa.edu
% % Model    : x86_64 x86_64
% % CPU      : Intel(R) Xeon(R) CPU E5-2609 0 @ 2.40GHz
% % Memory   : 32286.75MB
% % OS       : Linux 2.6.32-431.11.2.el6.x86_64
% % CPULimit : 300
% % DateTime : Fri Jun  6 21:41:58 CDT 2014
% % CPUTime  : 300.09 
% Processing problem /tmp/CiME_34209_n146.star.cs.uiowa.edu
% #verbose 1;
% let F = signature " b1,a1 : constant;  multiply : 2;  inverse : 1;  double_divide : 2;";
% let X = vars "A B C";
% let Axioms = equations F X "
% inverse(double_divide(inverse(double_divide(inverse(double_divide(A,B)),C)),double_divide(A,C))) = B;
% multiply(A,B) = inverse(double_divide(B,A));
% ";
% 
% let s1 = status F "
% b1 lr_lex;
% a1 lr_lex;
% multiply lr_lex;
% inverse lr_lex;
% double_divide lr_lex;
% ";
% 
% let p1 = precedence F "
% multiply > double_divide > inverse > a1 > b1";
% 
% let s2 = status F "
% b1 mul;
% a1 mul;
% multiply mul;
% inverse mul;
% double_divide mul;
% ";
% 
% let p2 = precedence F "
% multiply > double_divide > inverse > a1 = b1";
% 
% let o_auto = AUTO Axioms;
% 
% let o = LEX o_auto (LEX (ACRPO s1 p1) (ACRPO s2 p2));
% 
% let Conjectures = equations F X " multiply(inverse(a1),a1) = multiply(inverse(b1),b1);"
% ;
% (*
% let Red_Axioms = normalize_equations Defining_rules Axioms;
% 
% let Red_Conjectures =  normalize_equations Defining_rules Conjectures;
% *)
% #time on;
% 
% let res = prove_conj_by_ordered_completion o Axioms Conjectures;
% 
% #time off;
% 
% 
% let status = if res then "unsatisfiable" else "satisfiable";
% #quit;
% Verbose level is now 1
% 
% F : signature = <signature>
% X : variable_set = <variable set>
% 
% Axioms : (F,X) equations = { inverse(double_divide(inverse(double_divide(
% inverse(double_divide(A,B)),C)),
% double_divide(A,C))) = B,
% multiply(A,B) = inverse(double_divide(B,A)) }
% (2 equation(s))
% s1 : F status = <status>
% p1 : F precedence = <precedence>
% s2 : F status = <status>
% p2 : F precedence = <precedence>
% o_auto : F term_ordering = <term ordering>
% o : F term_ordering = <term ordering>
% Conjectures : (F,X) equations = { multiply(inverse(a1),a1) =
% multiply(inverse(b1),b1) } (1 equation(s))
% time is now on
% 
% Initializing completion ...
% New rule produced : [1] multiply(A,B) -> inverse(double_divide(B,A))
% The conjecture has been reduced. 
% Conjecture is now:
% inverse(double_divide(a1,inverse(a1))) = inverse(double_divide(b1,inverse(b1)))
% 
% Current number of equations to process: 0
% Current number of ordered equations: 1
% Current number of rules: 1
% New rule produced :
% [2]
% inverse(double_divide(inverse(double_divide(inverse(double_divide(A,B)),C)),
% double_divide(A,C))) -> B
% Current number of equations to process: 0
% Current number of ordered equations: 0
% Current number of rules: 2
% New rule produced :
% [3]
% inverse(double_divide(A,double_divide(inverse(double_divide(B,A)),double_divide(B,C))))
% -> C
% Current number of equations to process: 1
% Current number of ordered equations: 0
% Current number of rules: 3
% New rule produced :
% [4]
% inverse(double_divide(inverse(double_divide(A,B)),double_divide(C,B))) <->
% double_divide(inverse(double_divide(V_3,C)),double_divide(V_3,A))
% Rule
% [2]
% inverse(double_divide(inverse(double_divide(inverse(double_divide(A,B)),C)),
% double_divide(A,C))) -> B collapsed.
% Current number of equations to process: 5
% Current number of ordered equations: 0
% Current number of rules: 3
% New rule produced :
% [5]
% double_divide(inverse(double_divide(b1,A)),double_divide(b1,inverse(double_divide(A,B))))
% -> B
% Current number of equations to process: 4
% Current number of ordered equations: 0
% Current number of rules: 4
% New rule produced :
% [6]
% double_divide(inverse(double_divide(C,A)),double_divide(C,B)) <->
% double_divide(inverse(double_divide(b1,A)),double_divide(b1,B))
% Current number of equations to process: 12
% Current number of ordered equations: 1
% Current number of rules: 5
% New rule produced :
% [7]
% double_divide(inverse(double_divide(b1,A)),double_divide(b1,B)) <->
% double_divide(inverse(double_divide(C,A)),double_divide(C,B))
% Current number of equations to process: 12
% Current number of ordered equations: 0
% Current number of rules: 6
% New rule produced :
% [8]
% double_divide(inverse(double_divide(B,C)),double_divide(B,inverse(double_divide(C,A))))
% -> A
% Rule
% [5]
% double_divide(inverse(double_divide(b1,A)),double_divide(b1,inverse(double_divide(A,B))))
% -> B collapsed.
% Current number of equations to process: 32
% Current number of ordered equations: 0
% Current number of rules: 6
% New rule produced :
% [9]
% double_divide(inverse(double_divide(A,B)),double_divide(A,C)) <->
% double_divide(inverse(double_divide(V_3,B)),double_divide(V_3,C))
% Rule
% [6]
% double_divide(inverse(double_divide(C,A)),double_divide(C,B)) <->
% double_divide(inverse(double_divide(b1,A)),double_divide(b1,B)) collapsed.
% Rule
% [7]
% double_divide(inverse(double_divide(b1,A)),double_divide(b1,B)) <->
% double_divide(inverse(double_divide(C,A)),double_divide(C,B)) collapsed.
% Current number of equations to process: 47
% Current number of ordered equations: 0
% Current number of rules: 5
% New rule produced :
% [10]
% inverse(double_divide(inverse(double_divide(b1,A)),double_divide(b1,A))) <->
% double_divide(inverse(double_divide(B,C)),double_divide(B,C))
% Current number of equations to process: 59
% Current number of ordered equations: 1
% Current number of rules: 6
% New rule produced :
% [11]
% double_divide(inverse(double_divide(A,b1)),double_divide(A,b1)) <->
% double_divide(inverse(double_divide(B,C)),double_divide(B,C))
% Current number of equations to process: 60
% Current number of ordered equations: 2
% Current number of rules: 7
% New rule produced :
% [12]
% double_divide(inverse(double_divide(B,C)),double_divide(B,C)) <->
% double_divide(inverse(double_divide(A,b1)),double_divide(A,b1))
% Current number of equations to process: 60
% Current number of ordered equations: 1
% Current number of rules: 8
% New rule produced :
% [13]
% double_divide(inverse(double_divide(B,C)),double_divide(B,C)) <->
% inverse(double_divide(inverse(double_divide(b1,A)),double_divide(b1,A)))
% Current number of equations to process: 60
% Current number of ordered equations: 0
% Current number of rules: 9
% New rule produced :
% [14]
% inverse(double_divide(b1,double_divide(inverse(double_divide(A,B)),double_divide(A,B))))
% -> b1
% Current number of equations to process: 66
% Current number of ordered equations: 0
% Current number of rules: 10
% New rule produced :
% [15]
% inverse(double_divide(A,double_divide(inverse(double_divide(B,b1)),double_divide(B,b1))))
% -> A
% Current number of equations to process: 77
% Current number of ordered equations: 0
% Current number of rules: 11
% Rule [12]
% double_divide(inverse(double_divide(B,C)),double_divide(B,C)) <->
% double_divide(inverse(double_divide(A,b1)),double_divide(A,b1)) is composed into 
% [12]
% double_divide(inverse(double_divide(B,C)),double_divide(B,C)) <->
% double_divide(inverse(A),A)
% New rule produced :
% [16]
% double_divide(inverse(double_divide(B,b1)),double_divide(B,b1)) <->
% double_divide(inverse(A),A)
% Rule
% [11]
% double_divide(inverse(double_divide(A,b1)),double_divide(A,b1)) <->
% double_divide(inverse(double_divide(B,C)),double_divide(B,C)) collapsed.
% Rule
% [15]
% inverse(double_divide(A,double_divide(inverse(double_divide(B,b1)),double_divide(B,b1))))
% -> A collapsed.
% Current number of equations to process: 82
% Current number of ordered equations: 0
% Current number of rules: 10
% New rule produced :
% [17] inverse(double_divide(A,double_divide(inverse(b1),b1))) -> A
% Current number of equations to process: 81
% Current number of ordered equations: 0
% Current number of rules: 11
% New rule produced :
% [18] double_divide(inverse(b1),b1) <-> double_divide(inverse(A),A)
% Current number of equations to process: 80
% Current number of ordered equations: 1
% Current number of rules: 12
% New rule produced :
% [19] double_divide(inverse(A),A) <-> double_divide(inverse(b1),b1)
% Rule
% [10]
% inverse(double_divide(inverse(double_divide(b1,A)),double_divide(b1,A))) <->
% double_divide(inverse(double_divide(B,C)),double_divide(B,C)) collapsed.
% Rule
% [12]
% double_divide(inverse(double_divide(B,C)),double_divide(B,C)) <->
% double_divide(inverse(A),A) collapsed.
% Rule
% [13]
% double_divide(inverse(double_divide(B,C)),double_divide(B,C)) <->
% inverse(double_divide(inverse(double_divide(b1,A)),double_divide(b1,A)))
% collapsed.
% Rule
% [14]
% inverse(double_divide(b1,double_divide(inverse(double_divide(A,B)),double_divide(A,B))))
% -> b1 collapsed.
% Rule
% [16]
% double_divide(inverse(double_divide(B,b1)),double_divide(B,b1)) <->
% double_divide(inverse(A),A) collapsed.
% Current number of equations to process: 81
% Current number of ordered equations: 0
% Current number of rules: 8
% New rule produced :
% [20] inverse(double_divide(inverse(b1),b1)) -> double_divide(inverse(b1),b1)
% Current number of equations to process: 80
% Current number of ordered equations: 0
% Current number of rules: 9
% New rule produced :
% [21]
% double_divide(A,double_divide(A,B)) <-> double_divide(C,double_divide(C,B))
% Current number of equations to process: 84
% Current number of ordered equations: 0
% Current number of rules: 10
% New rule produced :
% [22]
% inverse(double_divide(B,b1)) <->
% double_divide(inverse(double_divide(A,inverse(b1))),double_divide(A,B))
% Current number of equations to process: 83
% Current number of ordered equations: 1
% Current number of rules: 11
% New rule produced :
% [23]
% double_divide(inverse(double_divide(A,inverse(b1))),double_divide(A,B)) <->
% inverse(double_divide(B,b1))
% Current number of equations to process: 83
% Current number of ordered equations: 0
% Current number of rules: 12
% New rule produced :
% [24] inverse(double_divide(A,double_divide(inverse(B),B))) -> A
% Rule [17] inverse(double_divide(A,double_divide(inverse(b1),b1))) -> A
% collapsed.
% Current number of equations to process: 89
% Current number of ordered equations: 0
% Current number of rules: 12
% New rule produced :
% [25] inverse(double_divide(inverse(A),A)) <-> double_divide(inverse(b1),b1)
% Rule
% [20] inverse(double_divide(inverse(b1),b1)) -> double_divide(inverse(b1),b1)
% collapsed.
% Current number of equations to process: 102
% Current number of ordered equations: 0
% Current number of rules: 12
% New rule produced :
% [26]
% double_divide(B,double_divide(B,b1)) <->
% double_divide(inverse(b1),double_divide(inverse(A),A))
% Current number of equations to process: 115
% Current number of ordered equations: 1
% Current number of rules: 13
% Rule [26]
% double_divide(B,double_divide(B,b1)) <->
% double_divide(inverse(b1),double_divide(inverse(A),A)) is composed into 
% [26]
% double_divide(B,double_divide(B,b1)) <->
% double_divide(b1,double_divide(b1,b1))
% New rule produced :
% [27]
% double_divide(inverse(b1),double_divide(inverse(A),A)) <->
% double_divide(B,double_divide(B,b1))
% Current number of equations to process: 115
% Current number of ordered equations: 0
% Current number of rules: 14
% New rule produced :
% [28]
% double_divide(B,double_divide(B,A)) <->
% double_divide(inverse(A),double_divide(inverse(b1),b1))
% Current number of equations to process: 114
% Current number of ordered equations: 1
% Current number of rules: 15
% Rule [28]
% double_divide(B,double_divide(B,A)) <->
% double_divide(inverse(A),double_divide(inverse(b1),b1)) is composed into 
% [28]
% double_divide(B,double_divide(B,A)) <-> double_divide(b1,double_divide(b1,A))
% New rule produced :
% [29]
% double_divide(inverse(A),double_divide(inverse(b1),b1)) <->
% double_divide(B,double_divide(B,A))
% Current number of equations to process: 114
% Current number of ordered equations: 0
% Current number of rules: 16
% New rule produced :
% [30]
% double_divide(A,double_divide(B,double_divide(B,C))) <->
% double_divide(V_3,double_divide(V_3,double_divide(A,C)))
% Current number of equations to process: 113
% Current number of ordered equations: 1
% Current number of rules: 17
% New rule produced :
% [31]
% double_divide(V_3,double_divide(V_3,double_divide(A,C))) <->
% double_divide(A,double_divide(B,double_divide(B,C)))
% Current number of equations to process: 113
% Current number of ordered equations: 0
% Current number of rules: 18
% New rule produced :
% [32]
% inverse(double_divide(A,B)) <->
% double_divide(inverse(double_divide(C,inverse(B))),double_divide(C,A))
% Rule
% [22]
% inverse(double_divide(B,b1)) <->
% double_divide(inverse(double_divide(A,inverse(b1))),double_divide(A,B))
% collapsed.
% Current number of equations to process: 112
% Current number of ordered equations: 1
% Current number of rules: 18
% New rule produced :
% [33]
% double_divide(inverse(double_divide(C,inverse(B))),double_divide(C,A)) <->
% inverse(double_divide(A,B))
% Rule
% [23]
% double_divide(inverse(double_divide(A,inverse(b1))),double_divide(A,B)) <->
% inverse(double_divide(B,b1)) collapsed.
% Current number of equations to process: 112
% Current number of ordered equations: 0
% Current number of rules: 18
% New rule produced :
% [34] inverse(double_divide(A,double_divide(A,B))) -> inverse(B)
% Current number of equations to process: 119
% Current number of ordered equations: 0
% Current number of rules: 19
% New rule produced :
% [35]
% double_divide(A,double_divide(A,double_divide(inverse(B),B))) <->
% double_divide(inverse(b1),b1)
% Current number of equations to process: 124
% Current number of ordered equations: 1
% Current number of rules: 20
% New rule produced :
% [36]
% double_divide(inverse(b1),b1) <->
% double_divide(A,double_divide(A,double_divide(inverse(B),B)))
% Current number of equations to process: 124
% Current number of ordered equations: 0
% Current number of rules: 21
% New rule produced :
% [37]
% double_divide(double_divide(inverse(b1),b1),double_divide(inverse(A),A)) ->
% double_divide(inverse(b1),b1)
% Current number of equations to process: 123
% Current number of ordered equations: 0
% Current number of rules: 22
% New rule produced :
% [38]
% double_divide(inverse(double_divide(A,B)),double_divide(A,inverse(b1))) ->
% double_divide(B,b1)
% Current number of equations to process: 130
% Current number of ordered equations: 0
% Current number of rules: 23
% New rule produced :
% [39]
% double_divide(inverse(double_divide(A,B)),double_divide(A,inverse(C))) ->
% double_divide(B,C)
% Rule
% [8]
% double_divide(inverse(double_divide(B,C)),double_divide(B,inverse(double_divide(C,A))))
% -> A collapsed.
% Rule
% [38]
% double_divide(inverse(double_divide(A,B)),double_divide(A,inverse(b1))) ->
% double_divide(B,b1) collapsed.
% Current number of equations to process: 142
% Current number of ordered equations: 0
% Current number of rules: 22
% Rule [36]
% double_divide(inverse(b1),b1) <->
% double_divide(A,double_divide(A,double_divide(inverse(B),B))) is composed into 
% [36] double_divide(inverse(b1),b1) <-> double_divide(inverse(B),B)
% Rule [29]
% double_divide(inverse(A),double_divide(inverse(b1),b1)) <->
% double_divide(B,double_divide(B,A)) is composed into [29]
% double_divide(
% inverse(A),
% double_divide(
% inverse(b1),b1)) ->
% A
% Rule [27]
% double_divide(inverse(b1),double_divide(inverse(A),A)) <->
% double_divide(B,double_divide(B,b1)) is composed into [27]
% double_divide(
% inverse(b1),
% double_divide(
% inverse(A),A)) ->
% b1
% New rule produced : [40] double_divide(C,double_divide(C,A)) -> A
% Rule
% [21]
% double_divide(A,double_divide(A,B)) <-> double_divide(C,double_divide(C,B))
% collapsed.
% Rule
% [26]
% double_divide(B,double_divide(B,b1)) <->
% double_divide(b1,double_divide(b1,b1)) collapsed.
% Rule
% [28]
% double_divide(B,double_divide(B,A)) <-> double_divide(b1,double_divide(b1,A))
% collapsed.
% Rule
% [30]
% double_divide(A,double_divide(B,double_divide(B,C))) <->
% double_divide(V_3,double_divide(V_3,double_divide(A,C))) collapsed.
% Rule
% [31]
% double_divide(V_3,double_divide(V_3,double_divide(A,C))) <->
% double_divide(A,double_divide(B,double_divide(B,C))) collapsed.
% Rule [34] inverse(double_divide(A,double_divide(A,B))) -> inverse(B)
% collapsed.
% Rule
% [35]
% double_divide(A,double_divide(A,double_divide(inverse(B),B))) <->
% double_divide(inverse(b1),b1) collapsed.
% Current number of equations to process: 141
% Current number of ordered equations: 0
% Current number of rules: 16
% New rule produced :
% [41] double_divide(inverse(A),double_divide(inverse(B),B)) -> A
% Rule [27] double_divide(inverse(b1),double_divide(inverse(A),A)) -> b1
% collapsed.
% Rule [29] double_divide(inverse(A),double_divide(inverse(b1),b1)) -> A
% collapsed.
% Current number of equations to process: 145
% Current number of ordered equations: 0
% Current number of rules: 15
% New rule produced :
% [42]
% double_divide(inverse(double_divide(A,B)),double_divide(A,b1)) ->
% double_divide(inverse(b1),B)
% Current number of equations to process: 144
% Current number of ordered equations: 0
% Current number of rules: 16
% New rule produced :
% [43] inverse(double_divide(double_divide(inverse(b1),b1),B)) -> B
% Current number of equations to process: 144
% Current number of ordered equations: 0
% Current number of rules: 17
% New rule produced :
% [44]
% inverse(double_divide(inverse(double_divide(A,B)),double_divide(A,C))) <->
% inverse(double_divide(inverse(C),B))
% Current number of equations to process: 141
% Current number of ordered equations: 1
% Current number of rules: 18
% New rule produced :
% [45]
% inverse(double_divide(inverse(C),B)) <->
% inverse(double_divide(inverse(double_divide(A,B)),double_divide(A,C)))
% Current number of equations to process: 141
% Current number of ordered equations: 0
% Current number of rules: 19
% New rule produced :
% [46] inverse(double_divide(double_divide(inverse(A),A),B)) -> B
% Rule [43] inverse(double_divide(double_divide(inverse(b1),b1),B)) -> B
% collapsed.
% Current number of equations to process: 140
% Current number of ordered equations: 0
% Current number of rules: 19
% New rule produced :
% [47]
% inverse(double_divide(double_divide(A,b1),double_divide(inverse(b1),double_divide(A,B))))
% -> B
% Current number of equations to process: 138
% Current number of ordered equations: 0
% Current number of rules: 20
% New rule produced :
% [48]
% double_divide(inverse(b1),double_divide(A,inverse(double_divide(double_divide(A,b1),B))))
% -> B
% Current number of equations to process: 137
% Current number of ordered equations: 0
% Current number of rules: 21
% New rule produced :
% [49]
% inverse(double_divide(double_divide(A,B),double_divide(inverse(B),double_divide(A,C))))
% -> C
% Rule
% [47]
% inverse(double_divide(double_divide(A,b1),double_divide(inverse(b1),double_divide(A,B))))
% -> B collapsed.
% Current number of equations to process: 136
% Current number of ordered equations: 0
% Current number of rules: 21
% New rule produced :
% [50]
% double_divide(inverse(A),double_divide(B,inverse(double_divide(double_divide(B,A),C))))
% -> C
% Rule
% [48]
% double_divide(inverse(b1),double_divide(A,inverse(double_divide(double_divide(A,b1),B))))
% -> B collapsed.
% Current number of equations to process: 135
% Current number of ordered equations: 0
% Current number of rules: 21
% New rule produced :
% [51] double_divide(inverse(A),inverse(B)) -> inverse(double_divide(A,B))
% Current number of equations to process: 142
% Current number of ordered equations: 0
% Current number of rules: 22
% New rule produced :
% [52] inverse(inverse(double_divide(A,double_divide(B,A)))) -> B
% Current number of equations to process: 146
% Current number of ordered equations: 0
% Current number of rules: 23
% New rule produced :
% [53] inverse(inverse(double_divide(A,B))) -> double_divide(A,B)
% Rule [52] inverse(inverse(double_divide(A,double_divide(B,A)))) -> B
% collapsed.
% Current number of equations to process: 153
% Current number of ordered equations: 0
% Current number of rules: 23
% New rule produced : [54] double_divide(A,double_divide(B,A)) -> B
% Current number of equations to process: 152
% Current number of ordered equations: 0
% Current number of rules: 24
% New rule produced :
% [55] double_divide(inverse(B),B) <-> double_divide(inverse(A),A)
% Rule [18] double_divide(inverse(b1),b1) <-> double_divide(inverse(A),A)
% collapsed.
% Rule [19] double_divide(inverse(A),A) <-> double_divide(inverse(b1),b1)
% collapsed.
% Rule [36] double_divide(inverse(b1),b1) <-> double_divide(inverse(B),B)
% collapsed.
% Current number of equations to process: 153
% Current number of ordered equations: 0
% Current number of rules: 22
% New rule produced :
% [56] double_divide(double_divide(inverse(B),B),A) -> inverse(A)
% Rule
% [37]
% double_divide(double_divide(inverse(b1),b1),double_divide(inverse(A),A)) ->
% double_divide(inverse(b1),b1) collapsed.
% Rule [46] inverse(double_divide(double_divide(inverse(A),A),B)) -> B
% collapsed.
% Current number of equations to process: 171
% Current number of ordered equations: 0
% Current number of rules: 21
% New rule produced : [57] inverse(inverse(B)) -> B
% Rule [53] inverse(inverse(double_divide(A,B))) -> double_divide(A,B)
% collapsed.
% Current number of equations to process: 170
% Current number of ordered equations: 0
% Current number of rules: 21
% New rule produced :
% [58] inverse(double_divide(inverse(A),B)) <-> double_divide(inverse(B),A)
% Rule
% [25] inverse(double_divide(inverse(A),A)) <-> double_divide(inverse(b1),b1)
% collapsed.
% Current number of equations to process: 175
% Current number of ordered equations: 1
% Current number of rules: 21
% New rule produced :
% [59] double_divide(inverse(B),A) <-> inverse(double_divide(inverse(A),B))
% Current number of equations to process: 175
% Current number of ordered equations: 0
% Current number of rules: 22
% New rule produced : [60] double_divide(double_divide(A,B),A) -> B
% Current number of equations to process: 185
% Current number of ordered equations: 0
% Current number of rules: 23
% New rule produced :
% [61]
% double_divide(double_divide(B,A),C) ->
% double_divide(inverse(A),double_divide(B,inverse(C)))
% Rule
% [49]
% inverse(double_divide(double_divide(A,B),double_divide(inverse(B),double_divide(A,C))))
% -> C collapsed.
% Rule
% [50]
% double_divide(inverse(A),double_divide(B,inverse(double_divide(double_divide(B,A),C))))
% -> C collapsed.
% Rule [56] double_divide(double_divide(inverse(B),B),A) -> inverse(A)
% collapsed.
% Rule [60] double_divide(double_divide(A,B),A) -> B collapsed.
% Current number of equations to process: 187
% Current number of ordered equations: 0
% Current number of rules: 20
% New rule produced :
% [62] double_divide(inverse(B),double_divide(A,inverse(A))) -> B
% Current number of equations to process: 186
% Current number of ordered equations: 0
% Current number of rules: 21
% New rule produced :
% [63]
% double_divide(inverse(double_divide(A,B)),double_divide(B,C)) ->
% double_divide(A,inverse(C))
% Current number of equations to process: 184
% Current number of ordered equations: 0
% Current number of rules: 22
% New rule produced :
% [64]
% double_divide(inverse(double_divide(A,B)),double_divide(A,C)) <->
% double_divide(inverse(C),B)
% Rule
% [42]
% double_divide(inverse(double_divide(A,B)),double_divide(A,b1)) ->
% double_divide(inverse(b1),B) collapsed.
% Rule
% [44]
% inverse(double_divide(inverse(double_divide(A,B)),double_divide(A,C))) <->
% inverse(double_divide(inverse(C),B)) collapsed.
% Current number of equations to process: 191
% Current number of ordered equations: 1
% Current number of rules: 21
% New rule produced :
% [65]
% double_divide(inverse(C),B) <->
% double_divide(inverse(double_divide(A,B)),double_divide(A,C))
% Rule
% [45]
% inverse(double_divide(inverse(C),B)) <->
% inverse(double_divide(inverse(double_divide(A,B)),double_divide(A,C)))
% collapsed.
% Current number of equations to process: 191
% Current number of ordered equations: 0
% Current number of rules: 21
% double_divide(B,A) = double_divide(A,B) (birth = 342, lhs_size = 3, rhs_size = 3,trace = Cp of 51 and 32)
% Initializing completion ...
% New rule produced : [1] B <-> inverse(inverse(B))
% Current number of equations to process: 195
% Current number of ordered equations: 37
% Current number of rules: 1
% New rule produced : [2] inverse(inverse(B)) <-> B
% Current number of equations to process: 195
% Current number of ordered equations: 36
% Current number of rules: 2
% New rule produced : [3] A <-> (A double_divide C) double_divide C
% Current number of equations to process: 196
% Current number of ordered equations: 34
% Current number of rules: 3
% New rule produced : [4] inverse(A double_divide B) <-> multiply(A,B)
% Current number of equations to process: 196
% Current number of ordered equations: 33
% Current number of rules: 4
% New rule produced : [5] multiply(A,B) <-> inverse(A double_divide B)
% Current number of equations to process: 196
% Current number of ordered equations: 32
% Current number of rules: 5
% New rule produced : [6] (A double_divide B) double_divide A <-> B
% Current number of equations to process: 196
% Current number of ordered equations: 30
% Current number of rules: 6
% New rule produced :
% [7] inverse(B) double_divide B <-> inverse(A) double_divide A
% Current number of equations to process: 210
% Current number of ordered equations: 34
% Current number of rules: 7
% New rule produced :
% [8] inverse(A double_divide B) <-> inverse(A) double_divide inverse(B)
% Current number of equations to process: 216
% Current number of ordered equations: 39
% Current number of rules: 8
% New rule produced :
% [9] inverse(inverse(A) double_divide B) <-> inverse(B) double_divide A
% Current number of equations to process: 216
% Current number of ordered equations: 38
% Current number of rules: 9
% New rule produced :
% [10] inverse(B) double_divide A <-> inverse(inverse(A) double_divide B)
% Current number of equations to process: 216
% Current number of ordered equations: 37
% Current number of rules: 10
% New rule produced :
% [11] inverse(A) double_divide inverse(B) <-> inverse(A double_divide B)
% Current number of equations to process: 216
% Current number of ordered equations: 36
% Current number of rules: 11
% New rule produced :
% [12] A <-> inverse((inverse(B) double_divide B) double_divide A)
% Current number of equations to process: 260
% Current number of ordered equations: 53
% Current number of rules: 12
% New rule produced :
% [13] A <-> inverse(A) double_divide (inverse(B) double_divide B)
% Current number of equations to process: 260
% Current number of ordered equations: 51
% Current number of rules: 13
% New rule produced :
% [14] inverse((inverse(B) double_divide B) double_divide A) <-> A
% Current number of equations to process: 260
% Current number of ordered equations: 50
% Current number of rules: 14
% New rule produced :
% [15] inverse(B) double_divide (inverse(A) double_divide A) <-> B
% Current number of equations to process: 260
% Current number of ordered equations: 48
% Current number of rules: 15
% New rule produced :
% [16]
% (A double_divide B) double_divide C <->
% inverse(A) double_divide (inverse(C) double_divide B)
% Current number of equations to process: 307
% Current number of ordered equations: 149
% Current number of rules: 16
% New rule produced :
% [17]
% inverse(A) double_divide (inverse(C) double_divide B) <->
% (A double_divide B) double_divide C
% Current number of equations to process: 307
% Current number of ordered equations: 148
% Current number of rules: 17
% New rule produced :
% [18]
% inverse(A double_divide B) double_divide (A double_divide C) <->
% inverse(C) double_divide B
% Current number of equations to process: 367
% Current number of ordered equations: 207
% Current number of rules: 18
% New rule produced :
% [19]
% inverse(C) double_divide B <->
% inverse(A double_divide B) double_divide (A double_divide C)
% Current number of equations to process: 367
% Current number of ordered equations: 204
% Current number of rules: 19
% New rule produced :
% [20]
% B double_divide C <->
% inverse(A double_divide B) double_divide (inverse(C) double_divide A)
% Current number of equations to process: 452
% Current number of ordered equations: 255
% Current number of rules: 20
% New rule produced :
% [21]
% inverse(A double_divide B) double_divide (inverse(C) double_divide A) <->
% B double_divide C
% Current number of equations to process: 452
% Current number of ordered equations: 254
% Current number of rules: 21
% New rule produced :
% [22]
% inverse(A double_divide B) <->
% inverse(inverse(B) double_divide C) double_divide (A double_divide C)
% Current number of equations to process: 533
% Current number of ordered equations: 331
% Current number of rules: 22
% New rule produced :
% [23]
% inverse(inverse(B) double_divide C) double_divide (A double_divide C) <->
% inverse(A double_divide B)
% Current number of equations to process: 533
% Current number of ordered equations: 330
% Current number of rules: 23
% New rule produced :
% [24]
% C <->
% inverse((inverse(A double_divide B) double_divide (B double_divide C)) double_divide A)
% Current number of equations to process: 633
% Current number of ordered equations: 437
% Current number of rules: 24
% New rule produced :
% [25]
% inverse((inverse(A double_divide B) double_divide (B double_divide C)) double_divide A)
% <-> C
% Current number of equations to process: 633
% Current number of ordered equations: 436
% Current number of rules: 25
% New rule produced :
% [26]
% B <->
% inverse(inverse(inverse(A double_divide B) double_divide C) double_divide 
% (A double_divide C))
% Current number of equations to process: 698
% Current number of ordered equations: 685
% Current number of rules: 26
% New rule produced :
% [27]
% inverse(inverse(inverse(A double_divide B) double_divide C) double_divide 
% (A double_divide C)) <-> B
% Current number of equations to process: 698
% Current number of ordered equations: 684
% Current number of rules: 27
% New rule produced :
% [28]
% inverse(inverse(A double_divide B) double_divide (B double_divide C)) <->
% inverse(C double_divide V_3) double_divide (A double_divide V_3)
% Current number of equations to process: 835
% Current number of ordered equations: 865
% Current number of rules: 28
% New rule produced :
% [29]
% inverse(C double_divide V_3) double_divide (A double_divide V_3) <->
% inverse(inverse(A double_divide B) double_divide (B double_divide C))
% Current number of equations to process: 835
% Current number of ordered equations: 864
% Current number of rules: 29
% multiply(B,A) = multiply(A,B) (birth = 31, lhs_size = 3, rhs_size = 3,trace = Self cp of 4)
% Initializing completion ...
% New rule produced : [1] B <-> inverse(inverse(B))
% Current number of equations to process: 1
% Current number of ordered equations: 37
% Current number of rules: 1
% New rule produced : [2] inverse(inverse(B)) <-> B
% Current number of equations to process: 1
% Current number of ordered equations: 36
% Current number of rules: 2
% New rule produced : [3] (eq)(A,A) -> (true)
% Current number of equations to process: 1
% Current number of ordered equations: 35
% Current number of rules: 3
% New rule produced : [4] A <-> (A double_divide C) double_divide C
% Current number of equations to process: 2
% Current number of ordered equations: 33
% Current number of rules: 4
% New rule produced : [5] inverse(A double_divide B) <-> A multiply B
% Current number of equations to process: 2
% Current number of ordered equations: 31
% Current number of rules: 5
% New rule produced :
% [6] (eq)(A,inverse(inverse(inverse(inverse(A))))) -> (false)
% Current number of equations to process: 2
% Current number of ordered equations: 30
% Current number of rules: 6
% New rule produced : [7] A multiply B <-> inverse(A double_divide B)
% Current number of equations to process: 2
% Current number of ordered equations: 28
% Current number of rules: 7
% New rule produced : [8] (A double_divide B) double_divide A <-> B
% Current number of equations to process: 2
% Current number of ordered equations: 26
% Current number of rules: 8
% New rule produced :
% [9] inverse(B) double_divide B <-> inverse(A) double_divide A
% Current number of equations to process: 21
% Current number of ordered equations: 30
% Current number of rules: 9
% New rule produced :
% [10] inverse(A double_divide B) <-> inverse(A) double_divide inverse(B)
% Current number of equations to process: 26
% Current number of ordered equations: 35
% Current number of rules: 10
% New rule produced :
% [11] inverse(inverse(A) double_divide B) <-> inverse(B) double_divide A
% Current number of equations to process: 26
% Current number of ordered equations: 34
% Current number of rules: 11
% New rule produced :
% [12] inverse(B) double_divide A <-> inverse(inverse(A) double_divide B)
% Current number of equations to process: 26
% Current number of ordered equations: 33
% Current number of rules: 12
% New rule produced :
% [13] inverse(A) double_divide inverse(B) <-> inverse(A double_divide B)
% Current number of equations to process: 26
% Current number of ordered equations: 32
% Current number of rules: 13
% New rule produced :
% [14] A <-> inverse((inverse(B) double_divide B) double_divide A)
% Current number of equations to process: 70
% Current number of ordered equations: 45
% Current number of rules: 14
% New rule produced :
% [15] A <-> inverse(A) double_divide (inverse(B) double_divide B)
% Current number of equations to process: 70
% Current number of ordered equations: 43
% Current number of rules: 15
% New rule produced :
% [16] inverse((inverse(B) double_divide B) double_divide A) <-> A
% Current number of equations to process: 70
% Current number of ordered equations: 42
% Current number of rules: 16
% New rule produced :
% [17] inverse(B) double_divide (inverse(A) double_divide A) <-> B
% Current number of equations to process: 70
% Current number of ordered equations: 40
% Current number of rules: 17
% New rule produced :
% [18]
% (A double_divide B) double_divide C <->
% inverse(A) double_divide (inverse(C) double_divide B)
% Current number of equations to process: 124
% Current number of ordered equations: 135
% Current number of rules: 18
% New rule produced :
% [19]
% inverse(A) double_divide (inverse(C) double_divide B) <->
% (A double_divide B) double_divide C
% Current number of equations to process: 124
% Current number of ordered equations: 134
% Current number of rules: 19
% New rule produced :
% [20]
% inverse(A double_divide B) double_divide (A double_divide C) <->
% inverse(C) double_divide B
% Current number of equations to process: 177
% Current number of ordered equations: 200
% Current number of rules: 20
% New rule produced :
% [21]
% inverse(C) double_divide B <->
% inverse(A double_divide B) double_divide (A double_divide C)
% Current number of equations to process: 177
% Current number of ordered equations: 199
% Current number of rules: 21
% New rule produced :
% [22]
% B double_divide C <->
% inverse(A double_divide B) double_divide (inverse(C) double_divide A)
% Current number of equations to process: 263
% Current number of ordered equations: 246
% Current number of rules: 22
% New rule produced :
% [23]
% inverse(A double_divide B) double_divide (inverse(C) double_divide A) <->
% B double_divide C
% Current number of equations to process: 263
% Current number of ordered equations: 245
% Current number of rules: 23
% New rule produced :
% [24]
% inverse(A double_divide B) <->
% inverse(inverse(B) double_divide C) double_divide (A double_divide C)
% Current number of equations to process: 347
% Current number of ordered equations: 314
% Current number of rules: 24
% New rule produced :
% [25]
% inverse(inverse(B) double_divide C) double_divide (A double_divide C) <->
% inverse(A double_divide B)
% Current number of equations to process: 347
% Current number of ordered equations: 313
% Current number of rules: 25
% New rule produced :
% [26]
% C <->
% inverse((inverse(A double_divide B) double_divide (B double_divide C)) double_divide A)
% Current number of equations to process: 449
% Current number of ordered equations: 414
% Current number of rules: 26
% New rule produced :
% [27]
% inverse((inverse(A double_divide B) double_divide (B double_divide C)) double_divide A)
% <-> C
% Current number of equations to process: 449
% Current number of ordered equations: 413
% Current number of rules: 27
% New rule produced :
% [28]
% B <->
% inverse(inverse(inverse(A double_divide B) double_divide C) double_divide 
% (A double_divide C))
% Current number of equations to process: 518
% Current number of ordered equations: 653
% Current number of rules: 28
% New rule produced :
% [29]
% inverse(inverse(inverse(A double_divide B) double_divide C) double_divide 
% (A double_divide C)) <-> B
% Current number of equations to process: 518
% Current number of ordered equations: 652
% Current number of rules: 29
% New rule produced :
% [30]
% inverse(inverse(A double_divide B) double_divide (B double_divide C)) <->
% inverse(C double_divide V_3) double_divide (A double_divide V_3)
% Current number of equations to process: 667
% Current number of ordered equations: 815
% Current number of rules: 30
% New rule produced :
% [31]
% inverse(C double_divide V_3) double_divide (A double_divide V_3) <->
% inverse(inverse(A double_divide B) double_divide (B double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 814
% Current number of rules: 31
% New rule produced : [32] (eq)(A,inverse(inverse(A))) -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 812
% Current number of rules: 32
% New rule produced : [33] A <-> inverse(inverse(inverse(inverse(A))))
% Current number of equations to process: 667
% Current number of ordered equations: 811
% Current number of rules: 33
% New rule produced : [34] inverse(inverse(inverse(inverse(A)))) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 810
% Current number of rules: 34
% New rule produced : [35] inverse(A multiply B) <-> A double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 808
% Current number of rules: 35
% New rule produced : [36] A double_divide B <-> inverse(A multiply B)
% Current number of equations to process: 667
% Current number of ordered equations: 806
% Current number of rules: 36
% New rule produced : [37] b1 multiply inverse(b1) <-> a1 multiply inverse(a1)
% Current number of equations to process: 667
% Current number of ordered equations: 805
% Current number of rules: 37
% New rule produced : [38] a1 multiply inverse(a1) <-> b1 multiply inverse(b1)
% Current number of equations to process: 667
% Current number of ordered equations: 804
% Current number of rules: 38
% New rule produced : [39] inverse(A) <-> (A double_divide B) multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 803
% Current number of rules: 39
% New rule produced : [40] (A double_divide B) multiply B <-> inverse(A)
% Current number of equations to process: 667
% Current number of ordered equations: 802
% Current number of rules: 40
% New rule produced : [41] inverse(A) multiply B <-> inverse(B) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 801
% Current number of rules: 41
% New rule produced : [42] inverse(B) double_divide A <-> inverse(A) multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 800
% Current number of rules: 42
% New rule produced :
% [43] inverse(inverse(A)) <-> (A double_divide B) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 799
% Current number of rules: 43
% New rule produced :
% [44] (A double_divide B) double_divide B <-> inverse(inverse(A))
% Current number of equations to process: 667
% Current number of ordered equations: 798
% Current number of rules: 44
% New rule produced : [45] A multiply B <-> inverse(A) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 797
% Current number of rules: 45
% New rule produced : [46] inverse(A) double_divide inverse(B) <-> A multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 796
% Current number of rules: 46
% New rule produced : [47] B <-> (inverse(A) double_divide A) multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 794
% Current number of rules: 47
% New rule produced : [48] (inverse(A) double_divide A) multiply B <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 792
% Current number of rules: 48
% New rule produced :
% [49] inverse(inverse(A) double_divide A) <-> inverse(B) multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 791
% Current number of rules: 49
% New rule produced :
% [50] inverse(B) multiply B <-> inverse(inverse(A) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 790
% Current number of rules: 50
% New rule produced :
% [51] inverse(B) <-> (inverse(A) double_divide A) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 781
% Current number of rules: 51
% New rule produced :
% [52] (inverse(A) double_divide A) double_divide B <-> inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 772
% Current number of rules: 52
% New rule produced :
% [53] inverse(inverse(A) double_divide A) <-> inverse(B) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 764
% Current number of rules: 53
% New rule produced :
% [54] inverse(B) double_divide B <-> inverse(inverse(A) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 756
% Current number of rules: 54
% New rule produced :
% [55]
% (A double_divide B) double_divide B <-> (A double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 754
% Current number of rules: 55
% New rule produced :
% [56] A <-> inverse((inverse(A) double_divide B) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 750
% Current number of rules: 56
% New rule produced :
% [57] A <-> (inverse(inverse(A)) double_divide B) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 748
% Current number of rules: 57
% New rule produced :
% [58] inverse((inverse(A) double_divide B) double_divide B) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 744
% Current number of rules: 58
% New rule produced :
% [59] (inverse(inverse(A)) double_divide B) double_divide B <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 742
% Current number of rules: 59
% New rule produced :
% [60] inverse(inverse(inverse(A double_divide B))) <-> A multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 741
% Current number of rules: 60
% New rule produced :
% [61] A multiply B <-> inverse(inverse(inverse(A double_divide B)))
% Current number of equations to process: 667
% Current number of ordered equations: 740
% Current number of rules: 61
% New rule produced :
% [62]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(inverse(A))))))) -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 739
% Current number of rules: 62
% New rule produced :
% [63]
% (eq)(A double_divide B,inverse(inverse(inverse(A multiply B)))) -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 738
% Current number of rules: 63
% New rule produced :
% [64] B <-> inverse(inverse((A double_divide B) double_divide A))
% Current number of equations to process: 667
% Current number of ordered equations: 735
% Current number of rules: 64
% New rule produced :
% [65] B <-> inverse(inverse(A double_divide B)) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 732
% Current number of rules: 65
% New rule produced :
% [66] inverse(inverse((A double_divide B) double_divide A)) <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 729
% Current number of rules: 66
% New rule produced :
% [67] inverse(inverse(A double_divide B)) double_divide A <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 726
% Current number of rules: 67
% New rule produced :
% [68] inverse(inverse(A) double_divide inverse(B)) <-> A double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 723
% Current number of rules: 68
% New rule produced :
% [69] A double_divide B <-> inverse(inverse(A) double_divide inverse(B))
% Current number of equations to process: 667
% Current number of ordered equations: 720
% Current number of rules: 69
% New rule produced :
% [70]
% inverse(inverse(B)) double_divide A <-> inverse(inverse(A)) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 716
% Current number of rules: 70
% New rule produced :
% [71] inverse(inverse(A double_divide B)) <-> inverse(A) multiply inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 715
% Current number of rules: 71
% New rule produced :
% [72] inverse(A) multiply inverse(B) <-> inverse(inverse(A double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 714
% Current number of rules: 72
% New rule produced :
% [73]
% inverse(inverse(A double_divide B)) <-> inverse(inverse(B)) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 712
% Current number of rules: 73
% New rule produced :
% [74]
% inverse(inverse(B)) double_divide A <-> inverse(inverse(A double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 710
% Current number of rules: 74
% New rule produced :
% [75] A <-> (inverse(inverse(B)) double_divide A) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 708
% Current number of rules: 75
% New rule produced :
% [76] (inverse(inverse(B)) double_divide A) double_divide B <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 706
% Current number of rules: 76
% New rule produced :
% [77]
% inverse(inverse(inverse(A) double_divide A)) <-> inverse(B) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 705
% Current number of rules: 77
% New rule produced :
% [78]
% inverse(B) double_divide B <-> inverse(inverse(inverse(A) double_divide A))
% Current number of equations to process: 667
% Current number of ordered equations: 704
% Current number of rules: 78
% New rule produced :
% [79]
% inverse(B) double_divide B <-> inverse(inverse(inverse(A))) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 703
% Current number of rules: 79
% New rule produced :
% [80]
% inverse(inverse(inverse(A))) double_divide A <-> inverse(B) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 702
% Current number of rules: 80
% New rule produced :
% [81] inverse(A) <-> inverse(inverse(B) double_divide A) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 700
% Current number of rules: 81
% New rule produced :
% [82] inverse(inverse(B) double_divide A) double_divide B <-> inverse(A)
% Current number of equations to process: 667
% Current number of ordered equations: 698
% Current number of rules: 82
% New rule produced :
% [83] inverse(inverse(inverse(A) double_divide B)) <-> inverse(B) multiply A
% Current number of equations to process: 667
% Current number of ordered equations: 697
% Current number of rules: 83
% New rule produced :
% [84] inverse(B) multiply A <-> inverse(inverse(inverse(A) double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 696
% Current number of rules: 84
% New rule produced :
% [85] inverse(B) <-> inverse(A double_divide B) double_divide inverse(A)
% Current number of equations to process: 667
% Current number of ordered equations: 694
% Current number of rules: 85
% New rule produced :
% [86] inverse(A double_divide B) double_divide inverse(B) <-> inverse(A)
% Current number of equations to process: 667
% Current number of ordered equations: 692
% Current number of rules: 86
% New rule produced :
% [87]
% (eq)((inverse(A) double_divide A) double_divide B,inverse(inverse(inverse(B))))
% -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 691
% Current number of rules: 87
% New rule produced :
% [88] inverse(B) <-> inverse(inverse(A) double_divide A) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 688
% Current number of rules: 88
% New rule produced :
% [89] inverse(inverse(A) double_divide A) double_divide B <-> inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 685
% Current number of rules: 89
% New rule produced :
% [90]
% inverse(inverse(inverse(A double_divide B))) <->
% inverse(A) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 684
% Current number of rules: 90
% New rule produced :
% [91]
% inverse(A) double_divide inverse(B) <->
% inverse(inverse(inverse(A double_divide B)))
% Current number of equations to process: 667
% Current number of ordered equations: 683
% Current number of rules: 91
% New rule produced :
% [92]
% inverse(inverse(A) double_divide A) <->
% inverse(inverse(inverse(B))) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 682
% Current number of rules: 92
% New rule produced :
% [93]
% inverse(inverse(inverse(B))) double_divide B <->
% inverse(inverse(A) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 681
% Current number of rules: 93
% New rule produced :
% [94]
% inverse(inverse(B) double_divide A) <->
% inverse(inverse(inverse(A))) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 680
% Current number of rules: 94
% New rule produced :
% [95]
% inverse(inverse(inverse(A))) double_divide B <->
% inverse(inverse(B) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 679
% Current number of rules: 95
% New rule produced :
% [96] A <-> inverse(inverse(inverse(B) double_divide A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 674
% Current number of rules: 96
% New rule produced :
% [97] A <-> inverse(inverse(A) double_divide B) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 673
% Current number of rules: 97
% New rule produced :
% [98] inverse(inverse(inverse(B) double_divide A) double_divide B) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 668
% Current number of rules: 98
% New rule produced :
% [99] inverse(inverse(A) double_divide B) double_divide inverse(B) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 667
% Current number of rules: 99
% New rule produced :
% [100] B <-> inverse(inverse(A) double_divide A) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 663
% Current number of rules: 100
% New rule produced :
% [101] inverse(inverse(A) double_divide A) double_divide inverse(B) <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 659
% Current number of rules: 101
% New rule produced :
% [102] B <-> inverse(inverse(inverse(A) double_divide A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 655
% Current number of rules: 102
% New rule produced :
% [103] inverse(inverse(inverse(A) double_divide A) double_divide B) <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 651
% Current number of rules: 103
% New rule produced :
% [104] A <-> inverse(inverse(A double_divide B) double_divide inverse(B))
% Current number of equations to process: 667
% Current number of ordered equations: 647
% Current number of rules: 104
% New rule produced :
% [105] inverse(inverse(A double_divide B) double_divide inverse(B)) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 643
% Current number of rules: 105
% New rule produced :
% [106]
% inverse(A double_divide B) <->
% ((A multiply B) double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 642
% Current number of rules: 106
% New rule produced :
% [107]
% ((A multiply B) double_divide C) double_divide C <->
% inverse(A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 641
% Current number of rules: 107
% New rule produced :
% [108]
% (A multiply B) double_divide (A double_divide B) <->
% inverse(C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 640
% Current number of rules: 108
% New rule produced :
% [109]
% inverse(C) double_divide C <->
% (A multiply B) double_divide (A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 639
% Current number of rules: 109
% New rule produced :
% [110]
% inverse(inverse(inverse(inverse(A) double_divide B))) <->
% inverse(B) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 638
% Current number of rules: 110
% New rule produced :
% [111]
% inverse(inverse(inverse(inverse(A))) double_divide B) <->
% inverse(B) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 637
% Current number of rules: 111
% New rule produced :
% [112]
% inverse(B) double_divide A <->
% inverse(inverse(inverse(inverse(A) double_divide B)))
% Current number of equations to process: 667
% Current number of ordered equations: 636
% Current number of rules: 112
% New rule produced :
% [113]
% inverse(B) double_divide A <->
% inverse(inverse(inverse(inverse(A))) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 635
% Current number of rules: 113
% New rule produced :
% [114]
% inverse((A multiply B) double_divide C) <->
% inverse(C) double_divide (A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 634
% Current number of rules: 114
% New rule produced :
% [115]
% inverse(C) double_divide (A double_divide B) <->
% inverse((A multiply B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 633
% Current number of rules: 115
% New rule produced :
% [116]
% (eq)(inverse(A) double_divide B,inverse(inverse(inverse(inverse(B) double_divide A))))
% -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 632
% Current number of rules: 116
% New rule produced :
% [117]
% inverse(inverse(inverse(inverse(B))) double_divide B) <->
% inverse(A) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 631
% Current number of rules: 117
% New rule produced :
% [118]
% inverse(A) double_divide A <->
% inverse(inverse(inverse(inverse(B))) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 630
% Current number of rules: 118
% New rule produced :
% [119]
% inverse(A double_divide B) <->
% inverse(inverse(inverse(A))) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 629
% Current number of rules: 119
% New rule produced :
% [120]
% inverse(inverse(inverse(A))) double_divide inverse(B) <->
% inverse(A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 628
% Current number of rules: 120
% New rule produced :
% [121]
% inverse((A double_divide B) double_divide C) <->
% (A multiply B) double_divide inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 627
% Current number of rules: 121
% New rule produced :
% [122]
% (A multiply B) double_divide inverse(C) <->
% inverse((A double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 626
% Current number of rules: 122
% New rule produced :
% [123]
% inverse(B) double_divide (A double_divide C) <->
% inverse(A) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 624
% Current number of rules: 123
% New rule produced :
% [124]
% (inverse(A) double_divide B) double_divide C <->
% (inverse(C) double_divide B) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 622
% Current number of rules: 124
% New rule produced :
% [125]
% (A multiply B) double_divide (A double_divide C) <->
% inverse(C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 620
% Current number of rules: 125
% New rule produced :
% [126]
% inverse(C) double_divide B <->
% (A multiply B) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 618
% Current number of rules: 126
% New rule produced :
% [127]
% inverse(A double_divide B) double_divide C <->
% inverse(A double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 616
% Current number of rules: 127
% New rule produced :
% [128]
% inverse(A) double_divide (B double_divide C) <->
% inverse(C) double_divide (A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 615
% Current number of rules: 128
% New rule produced :
% [129]
% inverse(C) double_divide (A double_divide B) <->
% inverse(A) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 614
% Current number of rules: 129
% New rule produced :
% [130]
% (inverse(C) double_divide C) double_divide A <->
% (inverse(A) double_divide B) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 611
% Current number of rules: 130
% New rule produced :
% [131]
% (inverse(A) double_divide B) double_divide B <->
% (inverse(C) double_divide C) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 608
% Current number of rules: 131
% New rule produced :
% [132]
% inverse(((A double_divide B) double_divide C) double_divide C) <->
% A multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 607
% Current number of rules: 132
% New rule produced :
% [133]
% A multiply B <->
% inverse(((A double_divide B) double_divide C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 606
% Current number of rules: 133
% New rule produced :
% [134]
% A multiply B <-> (inverse(A double_divide B) double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 605
% Current number of rules: 134
% New rule produced :
% [135]
% (inverse(A double_divide B) double_divide C) double_divide C <-> A multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 604
% Current number of rules: 135
% New rule produced :
% [136]
% (eq)(A,inverse(inverse((inverse(inverse(A)) double_divide B) double_divide B)))
% -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 603
% Current number of rules: 136
% New rule produced :
% [137]
% (eq)(A,inverse(inverse(inverse((inverse(A) double_divide B) double_divide B))))
% -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 602
% Current number of rules: 137
% New rule produced :
% [138]
% (eq)(A,inverse((inverse(inverse(inverse(A))) double_divide B) double_divide B))
% -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 601
% Current number of rules: 138
% New rule produced :
% [139]
% (eq)(A,(inverse(inverse(inverse(inverse(A)))) double_divide B) double_divide B)
% -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 600
% Current number of rules: 139
% New rule produced :
% [140]
% B <-> (((A double_divide B) double_divide C) double_divide C) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 599
% Current number of rules: 140
% New rule produced :
% [141]
% B <-> (((A double_divide B) double_divide A) double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 598
% Current number of rules: 141
% New rule produced :
% [142]
% (((A double_divide B) double_divide C) double_divide C) double_divide A <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 597
% Current number of rules: 142
% New rule produced :
% [143]
% (((A double_divide B) double_divide A) double_divide C) double_divide C <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 596
% Current number of rules: 143
% New rule produced :
% [144]
% (eq)(A double_divide B,inverse(inverse(inverse(inverse(A) double_divide 
% inverse(B))))) -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 595
% Current number of rules: 144
% New rule produced :
% [145]
% inverse(inverse(C) double_divide (A double_divide B)) <->
% (A multiply B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 594
% Current number of rules: 145
% New rule produced :
% [146]
% (A multiply B) double_divide C <->
% inverse(inverse(C) double_divide (A double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 593
% Current number of rules: 146
% New rule produced :
% [147]
% inverse(inverse(inverse(inverse(A)) double_divide B)) <->
% inverse(inverse(B)) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 592
% Current number of rules: 147
% New rule produced :
% [148]
% inverse(inverse(B)) double_divide A <->
% inverse(inverse(inverse(inverse(A)) double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 591
% Current number of rules: 148
% New rule produced :
% [149]
% inverse(inverse(A double_divide B)) <->
% inverse(inverse(A)) double_divide inverse(inverse(B))
% Current number of equations to process: 667
% Current number of ordered equations: 590
% Current number of rules: 149
% New rule produced :
% [150]
% inverse(inverse(A)) double_divide inverse(inverse(B)) <->
% inverse(inverse(A double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 589
% Current number of rules: 150
% New rule produced :
% [151]
% A <-> inverse(inverse(inverse(A) double_divide (inverse(B) double_divide B)))
% Current number of equations to process: 667
% Current number of ordered equations: 587
% Current number of rules: 151
% New rule produced :
% [152]
% A <-> inverse(inverse(inverse(A)) double_divide (inverse(B) double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 585
% Current number of rules: 152
% New rule produced :
% [153]
% inverse(inverse(inverse(A) double_divide (inverse(B) double_divide B))) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 583
% Current number of rules: 153
% New rule produced :
% [154]
% inverse(inverse(inverse(A)) double_divide (inverse(B) double_divide B)) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 581
% Current number of rules: 154
% New rule produced :
% [155]
% inverse((inverse(C) double_divide C) double_divide A) <->
% (A double_divide B) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 580
% Current number of rules: 155
% New rule produced :
% [156]
% (A double_divide B) double_divide B <->
% inverse((inverse(C) double_divide C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 579
% Current number of rules: 156
% New rule produced :
% [157]
% A <-> inverse(inverse(inverse(A))) double_divide (inverse(B) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 577
% Current number of rules: 157
% New rule produced :
% [158]
% inverse(inverse(inverse(A))) double_divide (inverse(B) double_divide B) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 575
% Current number of rules: 158
% New rule produced :
% [159]
% (A double_divide B) double_divide B <->
% inverse(A) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 571
% Current number of rules: 159
% New rule produced :
% [160]
% inverse(A) double_divide (inverse(C) double_divide C) <->
% (A double_divide B) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 567
% Current number of rules: 160
% New rule produced :
% [161]
% B <-> inverse(inverse(inverse((inverse(A) double_divide A) double_divide B)))
% Current number of equations to process: 667
% Current number of ordered equations: 566
% Current number of rules: 161
% New rule produced :
% [162]
% B <-> inverse((inverse(inverse(inverse(A))) double_divide A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 565
% Current number of rules: 162
% New rule produced :
% [163]
% B <-> inverse(inverse(inverse(inverse(A) double_divide A)) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 564
% Current number of rules: 163
% New rule produced :
% [164]
% inverse(inverse(inverse((inverse(A) double_divide A) double_divide B))) <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 563
% Current number of rules: 164
% New rule produced :
% [165]
% inverse((inverse(inverse(inverse(A))) double_divide A) double_divide B) <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 562
% Current number of rules: 165
% New rule produced :
% [166]
% inverse(inverse(inverse(inverse(A) double_divide A)) double_divide B) <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 561
% Current number of rules: 166
% New rule produced :
% [167]
% A <-> inverse(A) double_divide (inverse(inverse(inverse(B))) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 560
% Current number of rules: 167
% New rule produced :
% [168]
% B <-> inverse(inverse(inverse(A) double_divide A)) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 559
% Current number of rules: 168
% New rule produced :
% [169]
% inverse(A) double_divide (inverse(inverse(inverse(B))) double_divide B) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 558
% Current number of rules: 169
% New rule produced :
% [170]
% inverse(inverse(inverse(A) double_divide A)) double_divide inverse(B) <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 557
% Current number of rules: 170
% New rule produced :
% [171]
% A double_divide B <->
% (A multiply B) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 555
% Current number of rules: 171
% New rule produced :
% [172]
% (A multiply B) double_divide (inverse(C) double_divide C) <->
% A double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 553
% Current number of rules: 172
% New rule produced :
% [173]
% B <-> inverse(inverse(inverse(A)) double_divide (inverse(B) double_divide A))
% Current number of equations to process: 667
% Current number of ordered equations: 552
% Current number of rules: 173
% New rule produced :
% [174]
% inverse(inverse(inverse(A)) double_divide (inverse(B) double_divide A)) <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 551
% Current number of rules: 174
% New rule produced :
% [175]
% A <-> inverse(inverse(B)) double_divide (inverse(inverse(A)) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 550
% Current number of rules: 175
% New rule produced :
% [176]
% inverse(inverse(B)) double_divide (inverse(inverse(A)) double_divide B) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 549
% Current number of rules: 176
% New rule produced :
% [177]
% inverse(inverse(C)) double_divide B <->
% ((A double_divide B) double_divide A) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 548
% Current number of rules: 177
% New rule produced :
% [178]
% ((A double_divide B) double_divide A) double_divide C <->
% inverse(inverse(C)) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 547
% Current number of rules: 178
% New rule produced :
% [179]
% B double_divide C <->
% (A multiply B) double_divide (inverse(C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 545
% Current number of rules: 179
% New rule produced :
% [180]
% (A multiply B) double_divide (inverse(C) double_divide B) <->
% A double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 543
% Current number of rules: 180
% New rule produced :
% [181]
% inverse(C) double_divide C <->
% ((inverse(A) double_divide B) double_divide B) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 541
% Current number of rules: 181
% New rule produced :
% [182]
% ((inverse(A) double_divide B) double_divide B) double_divide A <->
% inverse(C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 539
% Current number of rules: 182
% New rule produced :
% [183]
% inverse(C) double_divide C <->
% ((inverse(A) double_divide A) double_divide B) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 538
% Current number of rules: 183
% New rule produced :
% [184]
% ((inverse(A) double_divide A) double_divide B) double_divide B <->
% inverse(C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 537
% Current number of rules: 184
% New rule produced :
% [185]
% inverse((A double_divide B) double_divide C) <->
% inverse(A) multiply (inverse(C) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 536
% Current number of rules: 185
% New rule produced :
% [186]
% inverse(A) multiply (inverse(C) double_divide B) <->
% inverse((A double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 535
% Current number of rules: 186
% New rule produced :
% [187]
% inverse(A) double_divide B <->
% ((inverse(C) double_divide B) double_divide A) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 533
% Current number of rules: 187
% New rule produced :
% [188]
% inverse(A) double_divide ((A double_divide B) double_divide C) <->
% inverse(C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 531
% Current number of rules: 188
% New rule produced :
% [189]
% inverse(C) double_divide B <->
% inverse(A) double_divide ((A double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 529
% Current number of rules: 189
% New rule produced :
% [190]
% ((inverse(C) double_divide B) double_divide A) double_divide C <->
% inverse(A) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 527
% Current number of rules: 190
% New rule produced :
% [191]
% inverse((A double_divide B) double_divide C) <->
% inverse(inverse(C) double_divide B) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 526
% Current number of rules: 191
% New rule produced :
% [192]
% inverse(inverse(C) double_divide B) double_divide A <->
% inverse((A double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 525
% Current number of rules: 192
% New rule produced :
% [193]
% inverse(A double_divide B) double_divide inverse(C) <->
% (inverse(B) double_divide C) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 524
% Current number of rules: 193
% New rule produced :
% [194]
% inverse(A double_divide B) double_divide inverse(C) <->
% (inverse(A) double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 523
% Current number of rules: 194
% New rule produced :
% [195]
% (inverse(B) double_divide C) double_divide A <->
% inverse(A double_divide B) double_divide inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 522
% Current number of rules: 195
% New rule produced :
% [196]
% (inverse(A) double_divide C) double_divide B <->
% inverse(A double_divide B) double_divide inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 521
% Current number of rules: 196
% New rule produced :
% [197]
% inverse(B double_divide C) <->
% (inverse(A) double_divide B) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 518
% Current number of rules: 197
% New rule produced :
% [198]
% inverse(A) double_divide C <->
% inverse((A double_divide B) double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 517
% Current number of rules: 198
% New rule produced :
% [199]
% (inverse(A) double_divide B) double_divide (A double_divide C) <->
% inverse(B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 514
% Current number of rules: 199
% New rule produced :
% [200]
% inverse((A double_divide B) double_divide C) double_divide B <->
% inverse(A) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 513
% Current number of rules: 200
% New rule produced :
% [201]
% inverse(A double_divide C) <->
% (inverse(A) multiply B) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 512
% Current number of rules: 201
% New rule produced :
% [202]
% (inverse(A) multiply B) double_divide (B double_divide C) <->
% inverse(A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 511
% Current number of rules: 202
% New rule produced :
% [203]
% inverse((B double_divide C) double_divide A) <->
% inverse(inverse(A) double_divide B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 510
% Current number of rules: 203
% New rule produced :
% [204]
% inverse(inverse(A) double_divide B) double_divide C <->
% inverse((B double_divide C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 509
% Current number of rules: 204
% New rule produced :
% [205]
% inverse(((A double_divide B) double_divide C) double_divide C) <->
% inverse(A) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 508
% Current number of rules: 205
% New rule produced :
% [206]
% (inverse(A double_divide B) double_divide C) double_divide C <->
% inverse(A) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 507
% Current number of rules: 206
% New rule produced :
% [207]
% inverse(A) double_divide inverse(B) <->
% inverse(((A double_divide B) double_divide C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 506
% Current number of rules: 207
% New rule produced :
% [208]
% inverse(A) double_divide inverse(B) <->
% (inverse(A double_divide B) double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 505
% Current number of rules: 208
% New rule produced :
% [209]
% inverse((inverse(A) double_divide B) double_divide C) <->
% inverse(C) double_divide (inverse(B) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 503
% Current number of rules: 209
% New rule produced :
% [210]
% inverse(C) double_divide (inverse(B) double_divide A) <->
% inverse((inverse(A) double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 501
% Current number of rules: 210
% New rule produced :
% [211]
% inverse(inverse(B) double_divide A) <->
% ((inverse(A) double_divide B) double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 500
% Current number of rules: 211
% New rule produced :
% [212]
% inverse(inverse(C) double_divide A) <->
% ((inverse(A) double_divide B) double_divide B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 498
% Current number of rules: 212
% New rule produced :
% [213]
% ((inverse(A) double_divide B) double_divide C) double_divide C <->
% inverse(inverse(B) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 497
% Current number of rules: 213
% New rule produced :
% [214]
% ((inverse(A) double_divide B) double_divide B) double_divide C <->
% inverse(inverse(C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 495
% Current number of rules: 214
% New rule produced :
% [215]
% inverse(inverse(C) double_divide (A double_divide B)) <->
% (inverse(A) double_divide inverse(B)) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 494
% Current number of rules: 215
% New rule produced :
% [216]
% (inverse(A) double_divide inverse(B)) double_divide C <->
% inverse(inverse(C) double_divide (A double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 493
% Current number of rules: 216
% New rule produced :
% [217]
% inverse((inverse(A) double_divide A) double_divide B) <->
% inverse(B) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 492
% Current number of rules: 217
% New rule produced :
% [218]
% inverse(B) double_divide (inverse(C) double_divide C) <->
% inverse((inverse(A) double_divide A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 491
% Current number of rules: 218
% New rule produced :
% [219]
% C <->
% inverse(((A multiply B) double_divide (A double_divide B)) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 490
% Current number of rules: 219
% New rule produced :
% [220]
% inverse(((A multiply B) double_divide (A double_divide B)) double_divide C)
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 489
% Current number of rules: 220
% New rule produced :
% [221]
% B <->
% inverse(inverse(inverse(inverse(inverse(A))) double_divide A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 488
% Current number of rules: 221
% New rule produced :
% [222]
% inverse(inverse(inverse(inverse(inverse(A))) double_divide A) double_divide B)
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 487
% Current number of rules: 222
% New rule produced :
% [223]
% A <->
% inverse(A) double_divide ((B multiply C) double_divide (B double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 486
% Current number of rules: 223
% New rule produced :
% [224]
% inverse(A) double_divide ((B multiply C) double_divide (B double_divide C))
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 485
% Current number of rules: 224
% New rule produced :
% [225]
% B <->
% inverse(inverse(inverse(inverse(A))) double_divide A) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 484
% Current number of rules: 225
% New rule produced :
% [226]
% inverse(inverse(inverse(inverse(A))) double_divide A) double_divide inverse(B)
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 483
% Current number of rules: 226
% New rule produced :
% [227]
% inverse(A) double_divide (inverse(B) double_divide C) <->
% inverse(C) double_divide (inverse(B) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 481
% Current number of rules: 227
% New rule produced :
% [228]
% inverse(inverse((A double_divide B) double_divide C)) <->
% inverse(A) double_divide (inverse(C) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 480
% Current number of rules: 228
% New rule produced :
% [229]
% inverse(A) double_divide (inverse(C) double_divide B) <->
% inverse(inverse((A double_divide B) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 479
% Current number of rules: 229
% New rule produced :
% [230]
% inverse(A) double_divide (inverse(C) double_divide B) <->
% inverse(inverse(A double_divide B)) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 478
% Current number of rules: 230
% New rule produced :
% [231]
% inverse(inverse(A double_divide B)) double_divide C <->
% inverse(A) double_divide (inverse(C) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 477
% Current number of rules: 231
% New rule produced :
% [232]
% inverse(inverse(A) double_divide (inverse(B) double_divide C)) <->
% (A double_divide C) multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 476
% Current number of rules: 232
% New rule produced :
% [233]
% (A double_divide C) multiply B <->
% inverse(inverse(A) double_divide (inverse(B) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 475
% Current number of rules: 233
% New rule produced :
% [234]
% A double_divide B <->
% inverse(C) double_divide (inverse(B) double_divide (A double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 474
% Current number of rules: 234
% New rule produced :
% [235]
% A double_divide C <->
% (inverse(A) double_divide (inverse(B) double_divide C)) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 472
% Current number of rules: 235
% New rule produced :
% [236]
% inverse(C) double_divide (inverse(B) double_divide (A double_divide C)) <->
% A double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 471
% Current number of rules: 236
% New rule produced :
% [237]
% (inverse(A) double_divide (inverse(B) double_divide C)) double_divide B <->
% A double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 469
% Current number of rules: 237
% New rule produced :
% [238]
% inverse(A) double_divide (inverse(B) double_divide B) <->
% (inverse(inverse(C)) double_divide A) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 468
% Current number of rules: 238
% New rule produced :
% [239]
% (inverse(inverse(C)) double_divide A) double_divide C <->
% inverse(A) double_divide (inverse(B) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 467
% Current number of rules: 239
% New rule produced :
% [240]
% inverse(inverse(inverse(A) double_divide B) double_divide C) <->
% (B double_divide C) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 466
% Current number of rules: 240
% New rule produced :
% [241]
% (A double_divide C) double_divide B <->
% inverse(inverse(A) double_divide B) double_divide inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 465
% Current number of rules: 241
% New rule produced :
% [242]
% (B double_divide C) double_divide A <->
% inverse(inverse(inverse(A) double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 464
% Current number of rules: 242
% New rule produced :
% [243]
% inverse(inverse(A) double_divide B) double_divide inverse(C) <->
% (A double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 463
% Current number of rules: 243
% New rule produced :
% [244]
% inverse(inverse(A) double_divide B) <->
% inverse(B double_divide C) multiply (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 462
% Current number of rules: 244
% New rule produced :
% [245]
% inverse(B double_divide C) multiply (A double_divide C) <->
% inverse(inverse(A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 461
% Current number of rules: 245
% New rule produced :
% [246]
% inverse(inverse(A) double_divide B) <->
% inverse(A double_divide C) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 457
% Current number of rules: 246
% New rule produced :
% [247]
% inverse(A double_divide C) double_divide (B double_divide C) <->
% inverse(inverse(A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 453
% Current number of rules: 247
% New rule produced :
% [248]
% inverse(B) double_divide inverse(C) <->
% (inverse(A) double_divide B) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 452
% Current number of rules: 248
% New rule produced :
% [249]
% (inverse(A) double_divide B) double_divide (A double_divide C) <->
% inverse(B) double_divide inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 451
% Current number of rules: 249
% New rule produced :
% [250]
% inverse(inverse(A) double_divide B) double_divide A <->
% inverse(inverse(C) double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 450
% Current number of rules: 250
% New rule produced :
% [251]
% inverse(inverse(C) double_divide C) double_divide B <->
% inverse(inverse(A) double_divide B) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 449
% Current number of rules: 251
% New rule produced :
% [252]
% A double_divide B <->
% inverse(B double_divide C) double_divide (inverse(A) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 448
% Current number of rules: 252
% New rule produced :
% [253]
% inverse(B double_divide C) double_divide (inverse(A) double_divide C) <->
% A double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 447
% Current number of rules: 253
% New rule produced :
% [254]
% B double_divide C <->
% inverse(A) double_divide (inverse(B) double_divide (A double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 446
% Current number of rules: 254
% New rule produced :
% [255]
% A double_divide C <->
% inverse((inverse(A) double_divide B) double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 445
% Current number of rules: 255
% New rule produced :
% [256]
% inverse(A) double_divide (inverse(B) double_divide (A double_divide C)) <->
% B double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 444
% Current number of rules: 256
% New rule produced :
% [257]
% inverse((inverse(A) double_divide B) double_divide C) double_divide B <->
% A double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 443
% Current number of rules: 257
% New rule produced :
% [258]
% A multiply B <->
% inverse(inverse(B) double_divide C) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 442
% Current number of rules: 258
% New rule produced :
% [259]
% A multiply B <->
% inverse(inverse(A) double_divide C) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 441
% Current number of rules: 259
% New rule produced :
% [260]
% inverse(inverse(B) double_divide C) double_divide (A double_divide C) <->
% A multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 440
% Current number of rules: 260
% New rule produced :
% [261]
% inverse(inverse(A) double_divide C) double_divide (B double_divide C) <->
% A multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 439
% Current number of rules: 261
% New rule produced :
% [262]
% C <->
% inverse(((A multiply B) double_divide (A double_divide C)) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 437
% Current number of rules: 262
% New rule produced :
% [263]
% C <->
% (inverse(A double_divide B) double_divide (B double_divide C)) multiply A
% Current number of equations to process: 667
% Current number of ordered equations: 436
% Current number of rules: 263
% New rule produced :
% [264]
% inverse(((A multiply B) double_divide (A double_divide C)) double_divide B)
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 434
% Current number of rules: 264
% New rule produced :
% [265]
% (inverse(A double_divide B) double_divide (B double_divide C)) multiply A <->
% C
% Current number of equations to process: 667
% Current number of ordered equations: 433
% Current number of rules: 265
% New rule produced :
% [266]
% inverse((inverse(A double_divide B) double_divide C) double_divide B) <->
% A double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 432
% Current number of rules: 266
% New rule produced :
% [267]
% A double_divide C <->
% inverse((inverse(A double_divide B) double_divide C) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 431
% Current number of rules: 267
% New rule produced :
% [268]
% inverse(C) double_divide C <->
% (inverse(A) double_divide inverse(B)) double_divide (A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 430
% Current number of rules: 268
% New rule produced :
% [269]
% (inverse(A) double_divide inverse(B)) double_divide (A double_divide B) <->
% inverse(C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 429
% Current number of rules: 269
% New rule produced :
% [270]
% inverse(((inverse(A) double_divide B) double_divide C) double_divide C) <->
% inverse(B) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 428
% Current number of rules: 270
% New rule produced :
% [271]
% inverse(((inverse(A) double_divide B) double_divide B) double_divide C) <->
% inverse(C) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 427
% Current number of rules: 271
% New rule produced :
% [272]
% inverse(B) double_divide A <->
% inverse(((inverse(A) double_divide B) double_divide C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 426
% Current number of rules: 272
% New rule produced :
% [273]
% inverse(B) double_divide A <->
% (inverse(inverse(A) double_divide B) double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 425
% Current number of rules: 273
% New rule produced :
% [274]
% inverse(C) double_divide A <->
% inverse(((inverse(A) double_divide B) double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 424
% Current number of rules: 274
% New rule produced :
% [275]
% (inverse(inverse(A) double_divide B) double_divide C) double_divide C <->
% inverse(B) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 423
% Current number of rules: 275
% New rule produced :
% [276]
% inverse(C) double_divide C <->
% (inverse(A) double_divide B) double_divide (inverse(B) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 422
% Current number of rules: 276
% New rule produced :
% [277]
% (inverse(A) double_divide B) double_divide (inverse(B) double_divide A) <->
% inverse(C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 421
% Current number of rules: 277
% New rule produced :
% [278]
% inverse((inverse(A) double_divide inverse(B)) double_divide C) <->
% inverse(C) double_divide (A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 420
% Current number of rules: 278
% New rule produced :
% [279]
% inverse(C) double_divide (A double_divide B) <->
% inverse((inverse(A) double_divide inverse(B)) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 419
% Current number of rules: 279
% New rule produced :
% [280]
% inverse(inverse(C) double_divide (inverse(B) double_divide A)) <->
% (inverse(A) double_divide B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 418
% Current number of rules: 280
% New rule produced :
% [281]
% (inverse(A) double_divide B) double_divide C <->
% inverse(inverse(C) double_divide (inverse(B) double_divide A))
% Current number of equations to process: 667
% Current number of ordered equations: 417
% Current number of rules: 281
% New rule produced :
% [282]
% inverse(A double_divide B) <->
% inverse(A) double_divide ((inverse(B) double_divide C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 416
% Current number of rules: 282
% New rule produced :
% [283]
% inverse(A double_divide B) <->
% ((inverse(A) double_divide inverse(B)) double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 415
% Current number of rules: 283
% New rule produced :
% [284]
% inverse(A) double_divide ((inverse(B) double_divide C) double_divide C) <->
% inverse(A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 414
% Current number of rules: 284
% New rule produced :
% [285]
% ((inverse(A) double_divide inverse(B)) double_divide C) double_divide C <->
% inverse(A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 413
% Current number of rules: 285
% New rule produced :
% [286]
% inverse((B double_divide C) double_divide A) <->
% inverse(A) double_divide (inverse(B) double_divide inverse(C))
% Current number of equations to process: 667
% Current number of ordered equations: 412
% Current number of rules: 286
% New rule produced :
% [287]
% inverse(A) double_divide (inverse(B) double_divide inverse(C)) <->
% inverse((B double_divide C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 411
% Current number of rules: 287
% New rule produced :
% [288]
% inverse(A double_divide B) <->
% inverse(A multiply B) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 410
% Current number of rules: 288
% New rule produced :
% [289]
% inverse(A multiply B) double_divide (inverse(C) double_divide C) <->
% inverse(A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 409
% Current number of rules: 289
% New rule produced :
% [290]
% inverse(A double_divide B) <->
% inverse(B) double_divide ((inverse(C) double_divide C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 408
% Current number of rules: 290
% New rule produced :
% [291]
% inverse(B) double_divide ((inverse(C) double_divide C) double_divide A) <->
% inverse(A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 407
% Current number of rules: 291
% New rule produced :
% [292]
% inverse(((inverse(C) double_divide C) double_divide B) double_divide A) <->
% inverse(A) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 406
% Current number of rules: 292
% New rule produced :
% [293]
% inverse(A) double_divide B <->
% inverse(((inverse(C) double_divide C) double_divide B) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 405
% Current number of rules: 293
% New rule produced :
% [294]
% (inverse(A) double_divide A) double_divide (inverse(B) double_divide C) <->
% inverse(C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 403
% Current number of rules: 294
% New rule produced :
% [295]
% inverse(C) double_divide B <->
% (inverse(A) double_divide A) double_divide (inverse(B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 401
% Current number of rules: 295
% New rule produced :
% [296]
% (inverse(A) double_divide A) double_divide B <->
% inverse(inverse(C)) double_divide (inverse(B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 400
% Current number of rules: 296
% New rule produced :
% [297]
% inverse(inverse(C)) double_divide (inverse(B) double_divide C) <->
% (inverse(A) double_divide A) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 399
% Current number of rules: 297
% New rule produced :
% [298]
% inverse(C) <->
% (inverse(A) double_divide B) double_divide ((B double_divide C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 398
% Current number of rules: 298
% New rule produced :
% [299]
% (inverse(A) double_divide B) double_divide ((B double_divide C) double_divide A)
% <-> inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 397
% Current number of rules: 299
% New rule produced :
% [300]
% inverse(C) double_divide B <->
% (inverse(A) double_divide inverse(B)) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 395
% Current number of rules: 300
% New rule produced :
% [301]
% (inverse(A) double_divide inverse(B)) double_divide (A double_divide C) <->
% inverse(C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 393
% Current number of rules: 301
% New rule produced :
% [302]
% inverse(B) double_divide C <->
% (inverse(A) double_divide B) double_divide (inverse(C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 391
% Current number of rules: 302
% New rule produced :
% [303]
% (inverse(A) double_divide B) double_divide (inverse(C) double_divide A) <->
% inverse(B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 389
% Current number of rules: 303
% New rule produced :
% [304]
% inverse(inverse(A double_divide B) double_divide (A double_divide C)) <->
% inverse(B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 385
% Current number of rules: 304
% New rule produced :
% [305]
% inverse(B) double_divide C <->
% inverse(inverse(A double_divide B) double_divide (A double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 381
% Current number of rules: 305
% New rule produced :
% [306]
% inverse(inverse(inverse(A) double_divide B)) <->
% inverse(B double_divide C) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 380
% Current number of rules: 306
% New rule produced :
% [307]
% inverse(B double_divide C) double_divide (A double_divide C) <->
% inverse(inverse(inverse(A) double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 379
% Current number of rules: 307
% New rule produced :
% [308]
% inverse(B double_divide C) double_divide (A double_divide C) <->
% inverse(inverse(inverse(A))) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 378
% Current number of rules: 308
% New rule produced :
% [309]
% inverse(inverse(inverse(A))) double_divide B <->
% inverse(B double_divide C) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 377
% Current number of rules: 309
% New rule produced :
% [310]
% inverse(inverse(A double_divide B) double_divide (A double_divide C)) <->
% inverse(C) multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 375
% Current number of rules: 310
% New rule produced :
% [311]
% inverse(C) multiply B <->
% inverse(inverse(A double_divide B) double_divide (A double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 373
% Current number of rules: 311
% New rule produced :
% [312]
% inverse(C) <->
% (inverse(A double_divide B) double_divide (B double_divide C)) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 370
% Current number of rules: 312
% New rule produced :
% [313]
% (inverse(A double_divide B) double_divide (B double_divide C)) double_divide A
% <-> inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 367
% Current number of rules: 313
% New rule produced :
% [314]
% inverse(A double_divide B) <->
% inverse(inverse(A) double_divide C) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 366
% Current number of rules: 314
% New rule produced :
% [315]
% inverse(inverse(A) double_divide C) double_divide (B double_divide C) <->
% inverse(A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 365
% Current number of rules: 315
% New rule produced :
% [316]
% inverse(A double_divide B) <->
% inverse(A double_divide C) multiply (inverse(B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 364
% Current number of rules: 316
% New rule produced :
% [317]
% inverse(A double_divide C) multiply (inverse(B) double_divide C) <->
% inverse(A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 363
% Current number of rules: 317
% New rule produced :
% [318]
% inverse(A double_divide B) <->
% inverse(inverse(A) double_divide (B double_divide C)) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 362
% Current number of rules: 318
% New rule produced :
% [319]
% inverse(B double_divide C) <->
% inverse(A) double_divide ((inverse(B) double_divide A) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 361
% Current number of rules: 319
% New rule produced :
% [320]
% inverse(A) double_divide ((inverse(B) double_divide A) double_divide C) <->
% inverse(B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 360
% Current number of rules: 320
% New rule produced :
% [321]
% inverse(inverse(A) double_divide (B double_divide C)) double_divide C <->
% inverse(A double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 359
% Current number of rules: 321
% New rule produced :
% [322]
% inverse(A double_divide C) <->
% inverse(A) double_divide ((inverse(B) double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 358
% Current number of rules: 322
% New rule produced :
% [323]
% inverse(A) double_divide ((inverse(B) double_divide B) double_divide C) <->
% inverse(A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 357
% Current number of rules: 323
% New rule produced :
% [324]
% inverse(A double_divide C) <->
% ((inverse(A) double_divide inverse(B)) double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 356
% Current number of rules: 324
% New rule produced :
% [325]
% ((inverse(A) double_divide inverse(B)) double_divide C) double_divide B <->
% inverse(A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 355
% Current number of rules: 325
% New rule produced :
% [326]
% inverse(C) <->
% inverse((((A double_divide B) double_divide B) double_divide C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 354
% Current number of rules: 326
% New rule produced :
% [327]
% inverse((((A double_divide B) double_divide B) double_divide C) double_divide A)
% <-> inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 353
% Current number of rules: 327
% New rule produced :
% [328]
% inverse(inverse(A double_divide B) double_divide (inverse(C) double_divide C))
% <-> A multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 351
% Current number of rules: 328
% New rule produced :
% [329]
% inverse(inverse((inverse(A) double_divide A) double_divide (B double_divide C)))
% <-> B multiply C
% Current number of equations to process: 667
% Current number of ordered equations: 350
% Current number of rules: 329
% New rule produced :
% [330]
% B multiply C <->
% inverse(inverse((inverse(A) double_divide A) double_divide (B double_divide C)))
% Current number of equations to process: 667
% Current number of ordered equations: 349
% Current number of rules: 330
% New rule produced :
% [331]
% A multiply B <->
% inverse(inverse(A double_divide B) double_divide (inverse(C) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 347
% Current number of rules: 331
% New rule produced :
% [332]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A)))) double_divide (inverse(B) double_divide B)))
% -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 345
% Current number of rules: 332
% New rule produced :
% [333]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A)) double_divide (inverse(B) double_divide B)))))
% -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 343
% Current number of rules: 333
% New rule produced :
% [334]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A) double_divide (inverse(B) double_divide B))))))
% -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 342
% Current number of rules: 334
% New rule produced :
% [335]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A))) double_divide (inverse(B) double_divide B))))
% -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 340
% Current number of rules: 335
% New rule produced :
% [336]
% A <->
% inverse((inverse(B) double_divide B) double_divide ((A double_divide C) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 338
% Current number of rules: 336
% New rule produced :
% [337]
% C <->
% inverse((inverse(A) double_divide A) double_divide (B double_divide C)) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 337
% Current number of rules: 337
% New rule produced :
% [338]
% inverse((inverse(B) double_divide B) double_divide ((A double_divide C) double_divide C))
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 335
% Current number of rules: 338
% New rule produced :
% [339]
% inverse((inverse(A) double_divide A) double_divide (B double_divide C)) double_divide B
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 334
% Current number of rules: 339
% New rule produced :
% [340]
% A multiply B <->
% inverse(inverse(A double_divide B)) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 333
% Current number of rules: 340
% New rule produced :
% [341]
% inverse(inverse(A double_divide B)) double_divide (inverse(C) double_divide C)
% <-> A multiply B
% Current number of equations to process: 667
% Current number of ordered equations: 332
% Current number of rules: 341
% New rule produced :
% [342]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A))))) double_divide (
% inverse(B) double_divide B))
% -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 331
% Current number of rules: 342
% New rule produced :
% [343]
% A <->
% inverse((A double_divide B) double_divide B) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 330
% Current number of rules: 343
% New rule produced :
% [344]
% B <->
% (inverse(A double_divide B) double_divide (inverse(C) double_divide C)) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 329
% Current number of rules: 344
% New rule produced :
% [345]
% inverse((A double_divide B) double_divide B) double_divide (inverse(C) double_divide C)
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 328
% Current number of rules: 345
% New rule produced :
% [346]
% (inverse(A double_divide B) double_divide (inverse(C) double_divide C)) double_divide A
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 327
% Current number of rules: 346
% New rule produced :
% [347]
% B <->
% inverse((((inverse(A) double_divide A) double_divide B) double_divide C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 325
% Current number of rules: 347
% New rule produced :
% [348]
% B <->
% (inverse((inverse(A) double_divide A) double_divide B) double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 324
% Current number of rules: 348
% New rule produced :
% [349]
% C <->
% inverse((((inverse(A) double_divide A) double_divide B) double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 323
% Current number of rules: 349
% New rule produced :
% [350]
% C <->
% inverse((((inverse(A) double_divide B) double_divide B) double_divide A) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 321
% Current number of rules: 350
% New rule produced :
% [351]
% inverse((((inverse(A) double_divide A) double_divide B) double_divide C) double_divide C)
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 319
% Current number of rules: 351
% New rule produced :
% [352]
% inverse((((inverse(A) double_divide A) double_divide B) double_divide B) double_divide C)
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 318
% Current number of rules: 352
% New rule produced :
% [353]
% inverse((((inverse(A) double_divide B) double_divide B) double_divide A) double_divide C)
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 316
% Current number of rules: 353
% New rule produced :
% [354]
% (inverse((inverse(A) double_divide A) double_divide B) double_divide C) double_divide C
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 315
% Current number of rules: 354
% New rule produced :
% [355]
% inverse(inverse(A) double_divide ((inverse(C) double_divide C) double_divide B))
% <-> A double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 314
% Current number of rules: 355
% New rule produced :
% [356]
% A double_divide B <->
% inverse(inverse(A) double_divide ((inverse(C) double_divide C) double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 313
% Current number of rules: 356
% New rule produced :
% [357]
% A <->
% inverse(A) double_divide (((inverse(B) double_divide B) double_divide C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 311
% Current number of rules: 357
% New rule produced :
% [358]
% A <->
% inverse(A) double_divide (((inverse(B) double_divide C) double_divide C) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 309
% Current number of rules: 358
% New rule produced :
% [359]
% A <->
% ((inverse(A) double_divide (inverse(B) double_divide B)) double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 308
% Current number of rules: 359
% New rule produced :
% [360]
% B <->
% (inverse(A) double_divide A) double_divide ((inverse(B) double_divide C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 307
% Current number of rules: 360
% New rule produced :
% [361]
% inverse(A) double_divide (((inverse(B) double_divide B) double_divide C) double_divide C)
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 305
% Current number of rules: 361
% New rule produced :
% [362]
% inverse(A) double_divide (((inverse(B) double_divide C) double_divide C) double_divide B)
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 303
% Current number of rules: 362
% New rule produced :
% [363]
% (inverse(A) double_divide A) double_divide ((inverse(B) double_divide C) double_divide C)
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 302
% Current number of rules: 363
% New rule produced :
% [364]
% ((inverse(A) double_divide (inverse(B) double_divide B)) double_divide C) double_divide C
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 301
% Current number of rules: 364
% New rule produced :
% [365]
% A double_divide B <->
% (inverse(A) double_divide inverse(B)) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 300
% Current number of rules: 365
% New rule produced :
% [366]
% (inverse(A) double_divide inverse(B)) double_divide (inverse(C) double_divide C)
% <-> A double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 299
% Current number of rules: 366
% New rule produced :
% [367]
% A <->
% inverse(B) double_divide (inverse((B double_divide C) double_divide A) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 298
% Current number of rules: 367
% New rule produced :
% [368]
% B <->
% (inverse(A) double_divide (inverse(B) double_divide C)) double_divide 
% (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 297
% Current number of rules: 368
% New rule produced :
% [369]
% inverse(B) double_divide (inverse((B double_divide C) double_divide A) double_divide C)
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 296
% Current number of rules: 369
% New rule produced :
% [370]
% (inverse(A) double_divide (inverse(B) double_divide C)) double_divide 
% (A double_divide C) <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 295
% Current number of rules: 370
% New rule produced :
% [371]
% inverse(inverse(A) double_divide (inverse(B) double_divide C)) <->
% inverse(A double_divide C) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 294
% Current number of rules: 371
% New rule produced :
% [372]
% inverse(A double_divide C) double_divide inverse(B) <->
% inverse(inverse(A) double_divide (inverse(B) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 293
% Current number of rules: 372
% New rule produced :
% [373]
% inverse(inverse(A double_divide B) double_divide C) <->
% inverse(A) double_divide (inverse(inverse(C)) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 292
% Current number of rules: 373
% New rule produced :
% [374]
% inverse(A) double_divide (inverse(B) double_divide inverse(C)) <->
% inverse(inverse(A) double_divide B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 291
% Current number of rules: 374
% New rule produced :
% [375]
% inverse(A) double_divide (inverse(inverse(C)) double_divide B) <->
% inverse(inverse(A double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 290
% Current number of rules: 375
% New rule produced :
% [376]
% inverse(inverse(A) double_divide B) double_divide C <->
% inverse(A) double_divide (inverse(B) double_divide inverse(C))
% Current number of equations to process: 667
% Current number of ordered equations: 289
% Current number of rules: 376
% New rule produced :
% [377]
% inverse(inverse(A) double_divide B) double_divide C <->
% inverse(inverse(B)) double_divide (inverse(C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 288
% Current number of rules: 377
% New rule produced :
% [378]
% inverse(inverse(B)) double_divide (inverse(C) double_divide A) <->
% inverse(inverse(A) double_divide B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 287
% Current number of rules: 378
% New rule produced :
% [379]
% inverse(inverse(inverse(A) double_divide (inverse(B) double_divide C))) <->
% (A double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 286
% Current number of rules: 379
% New rule produced :
% [380]
% (A double_divide C) double_divide B <->
% inverse(inverse(inverse(A) double_divide (inverse(B) double_divide C)))
% Current number of equations to process: 667
% Current number of ordered equations: 285
% Current number of rules: 380
% New rule produced :
% [381]
% (A double_divide C) double_divide B <->
% inverse(A) double_divide (inverse(inverse(inverse(B))) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 284
% Current number of rules: 381
% New rule produced :
% [382]
% (A double_divide C) double_divide B <->
% inverse(inverse(inverse(A))) double_divide (inverse(B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 283
% Current number of rules: 382
% New rule produced :
% [383]
% (B double_divide C) double_divide A <->
% inverse(inverse(inverse(A) double_divide B)) double_divide inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 282
% Current number of rules: 383
% New rule produced :
% [384]
% inverse(A) double_divide (inverse(inverse(inverse(B))) double_divide C) <->
% (A double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 281
% Current number of rules: 384
% New rule produced :
% [385]
% inverse(inverse(inverse(A))) double_divide (inverse(B) double_divide C) <->
% (A double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 280
% Current number of rules: 385
% New rule produced :
% [386]
% inverse(inverse(inverse(A) double_divide B)) double_divide inverse(C) <->
% (B double_divide C) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 279
% Current number of rules: 386
% New rule produced :
% [387]
% (A multiply B) double_divide (inverse(C) double_divide V_3) <->
% ((A double_divide B) double_divide V_3) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 278
% Current number of rules: 387
% New rule produced :
% [388]
% (A double_divide V_3) double_divide (B double_divide C) <->
% inverse(A) double_divide ((B multiply C) double_divide V_3)
% Current number of equations to process: 667
% Current number of ordered equations: 277
% Current number of rules: 388
% New rule produced :
% [389]
% inverse(A) double_divide ((B multiply C) double_divide V_3) <->
% (A double_divide V_3) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 276
% Current number of rules: 389
% New rule produced :
% [390]
% ((A double_divide B) double_divide V_3) double_divide C <->
% (A multiply B) double_divide (inverse(C) double_divide V_3)
% Current number of equations to process: 667
% Current number of ordered equations: 275
% Current number of rules: 390
% New rule produced :
% [391]
% (A double_divide B) double_divide C <->
% inverse(A) double_divide (inverse(inverse(B)) double_divide inverse(C))
% Current number of equations to process: 667
% Current number of ordered equations: 274
% Current number of rules: 391
% New rule produced :
% [392]
% (B double_divide C) double_divide A <->
% inverse(inverse(A)) double_divide (inverse(inverse(B)) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 273
% Current number of rules: 392
% New rule produced :
% [393]
% inverse(A) double_divide (inverse(inverse(B)) double_divide inverse(C)) <->
% (A double_divide B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 272
% Current number of rules: 393
% New rule produced :
% [394]
% inverse(inverse(A)) double_divide (inverse(inverse(B)) double_divide C) <->
% (B double_divide C) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 271
% Current number of rules: 394
% New rule produced :
% [395]
% inverse(A double_divide B) double_divide (inverse(C) double_divide C) <->
% inverse(inverse(A)) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 270
% Current number of rules: 395
% New rule produced :
% [396]
% inverse(B) double_divide inverse(C) <->
% inverse(inverse(A) double_divide A) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 269
% Current number of rules: 396
% New rule produced :
% [397]
% inverse(inverse(A) double_divide A) double_divide (B double_divide C) <->
% inverse(B) double_divide inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 268
% Current number of rules: 397
% New rule produced :
% [398]
% inverse(inverse(A)) double_divide B <->
% inverse(A double_divide B) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 267
% Current number of rules: 398
% New rule produced :
% [399]
% inverse((inverse(A) double_divide A) double_divide B) double_divide C <->
% inverse(inverse(C)) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 266
% Current number of rules: 399
% New rule produced :
% [400]
% inverse(inverse(C)) double_divide B <->
% inverse((inverse(A) double_divide A) double_divide B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 265
% Current number of rules: 400
% New rule produced :
% [401]
% A <->
% inverse((inverse(B) double_divide A) double_divide C) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 264
% Current number of rules: 401
% New rule produced :
% [402]
% C <->
% inverse(A) double_divide (inverse(B double_divide C) double_divide (A double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 263
% Current number of rules: 402
% New rule produced :
% [403]
% inverse((inverse(B) double_divide A) double_divide C) double_divide (B double_divide C)
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 262
% Current number of rules: 403
% New rule produced :
% [404]
% inverse(A) double_divide (inverse(B double_divide C) double_divide (A double_divide B))
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 261
% Current number of rules: 404
% New rule produced :
% [405]
% A <->
% inverse((inverse(B) double_divide B) double_divide C) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 259
% Current number of rules: 405
% New rule produced :
% [406]
% inverse((inverse(B) double_divide B) double_divide C) double_divide (A double_divide C)
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 257
% Current number of rules: 406
% New rule produced :
% [407]
% inverse(inverse(A double_divide B)) <->
% inverse(A double_divide C) double_divide (inverse(B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 255
% Current number of rules: 407
% New rule produced :
% [408]
% inverse(A double_divide C) double_divide (inverse(B) double_divide C) <->
% inverse(inverse(A double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 253
% Current number of rules: 408
% New rule produced :
% [409]
% inverse(inverse(A double_divide B) double_divide (inverse(C) double_divide A))
% <-> B multiply C
% Current number of equations to process: 667
% Current number of ordered equations: 251
% Current number of rules: 409
% New rule produced :
% [410]
% B multiply C <->
% inverse(inverse(A double_divide B) double_divide (inverse(C) double_divide A))
% Current number of equations to process: 667
% Current number of ordered equations: 249
% Current number of rules: 410
% New rule produced :
% [411]
% A <->
% inverse(B double_divide C) double_divide (inverse(A double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 247
% Current number of rules: 411
% New rule produced :
% [412]
% A <->
% inverse((A double_divide B) double_divide C) double_divide (inverse(B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 246
% Current number of rules: 412
% New rule produced :
% [413]
% B <->
% (inverse(A double_divide B) double_divide (inverse(C) double_divide A)) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 245
% Current number of rules: 413
% New rule produced :
% [414]
% C <->
% (inverse(A double_divide B) double_divide (inverse(C) double_divide B)) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 244
% Current number of rules: 414
% New rule produced :
% [415]
% (inverse(A double_divide B) double_divide (inverse(C) double_divide B)) double_divide A
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 243
% Current number of rules: 415
% New rule produced :
% [416]
% inverse(B double_divide C) double_divide (inverse(A double_divide B) double_divide C)
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 241
% Current number of rules: 416
% New rule produced :
% [417]
% inverse((A double_divide B) double_divide C) double_divide (inverse(B) double_divide C)
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 240
% Current number of rules: 417
% New rule produced :
% [418]
% (inverse(A double_divide B) double_divide (inverse(C) double_divide A)) double_divide C
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 239
% Current number of rules: 418
% New rule produced :
% [419]
% A double_divide C <->
% (inverse(A) double_divide inverse(B)) double_divide (inverse(C) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 237
% Current number of rules: 419
% New rule produced :
% [420]
% (inverse(A) double_divide inverse(B)) double_divide (inverse(C) double_divide B)
% <-> A double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 235
% Current number of rules: 420
% New rule produced :
% [421]
% inverse(inverse(inverse(A) double_divide B) double_divide (B double_divide C))
% <-> A double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 232
% Current number of rules: 421
% New rule produced :
% [422]
% A double_divide C <->
% inverse(inverse(inverse(A) double_divide B) double_divide (B double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 229
% Current number of rules: 422
% New rule produced :
% [423]
% B double_divide C <->
% inverse(inverse(A) double_divide B) double_divide inverse(A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 227
% Current number of rules: 423
% New rule produced :
% [424]
% inverse(inverse(A) double_divide B) double_divide inverse(A double_divide C)
% <-> B double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 225
% Current number of rules: 424
% New rule produced :
% [425]
% inverse(A) double_divide inverse(B) <->
% inverse(inverse(A) double_divide C) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 224
% Current number of rules: 425
% New rule produced :
% [426]
% inverse(inverse(A) double_divide C) double_divide (B double_divide C) <->
% inverse(A) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 223
% Current number of rules: 426
% New rule produced :
% [427]
% inverse(inverse(A double_divide B)) <->
% inverse(inverse(B) double_divide C) multiply (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 222
% Current number of rules: 427
% New rule produced :
% [428]
% inverse(inverse(B) double_divide C) multiply (A double_divide C) <->
% inverse(inverse(A double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 221
% Current number of rules: 428
% New rule produced :
% [429]
% inverse((inverse(C) double_divide C) double_divide B) <->
% inverse(inverse(A) double_divide inverse(B)) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 220
% Current number of rules: 429
% New rule produced :
% [430]
% inverse(inverse(A) double_divide inverse(B)) double_divide A <->
% inverse((inverse(C) double_divide C) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 219
% Current number of rules: 430
% New rule produced :
% [431]
% A <->
% inverse((inverse((A double_divide B) double_divide C) double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 217
% Current number of rules: 431
% New rule produced :
% [432]
% C <->
% inverse((inverse(A) double_divide ((A double_divide B) double_divide C)) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 216
% Current number of rules: 432
% New rule produced :
% [433]
% C <->
% inverse((inverse(A) double_divide (B double_divide C)) double_divide 
% (A double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 214
% Current number of rules: 433
% New rule produced :
% [434]
% inverse((inverse((A double_divide B) double_divide C) double_divide B) double_divide C)
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 212
% Current number of rules: 434
% New rule produced :
% [435]
% inverse((inverse(A) double_divide ((A double_divide B) double_divide C)) double_divide B)
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 211
% Current number of rules: 435
% New rule produced :
% [436]
% inverse((inverse(A) double_divide (B double_divide C)) double_divide 
% (A double_divide B)) <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 209
% Current number of rules: 436
% New rule produced :
% [437]
% C <->
% inverse((inverse(A) double_divide B) double_divide ((B double_divide C) double_divide A))
% Current number of equations to process: 667
% Current number of ordered equations: 208
% Current number of rules: 437
% New rule produced :
% [438]
% C <->
% inverse((((inverse(A) double_divide B) double_divide C) double_divide A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 207
% Current number of rules: 438
% New rule produced :
% [439]
% inverse((inverse(A) double_divide B) double_divide ((B double_divide C) double_divide A))
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 206
% Current number of rules: 439
% New rule produced :
% [440]
% inverse((((inverse(A) double_divide B) double_divide C) double_divide A) double_divide B)
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 205
% Current number of rules: 440
% New rule produced :
% [441]
% A <->
% inverse(inverse((A multiply B) double_divide C) double_divide (B double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 203
% Current number of rules: 441
% New rule produced :
% [442]
% B <->
% inverse((inverse(A double_divide B) multiply C) double_divide (A double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 202
% Current number of rules: 442
% New rule produced :
% [443]
% B <->
% inverse(inverse(A double_divide B) double_divide C) multiply (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 201
% Current number of rules: 443
% New rule produced :
% [444]
% inverse(inverse((A multiply B) double_divide C) double_divide (A double_divide C))
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 199
% Current number of rules: 444
% New rule produced :
% [445]
% inverse((inverse(A double_divide B) multiply C) double_divide (A double_divide C))
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 198
% Current number of rules: 445
% New rule produced :
% [446]
% inverse(inverse(A double_divide B) double_divide C) multiply (A double_divide C)
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 197
% Current number of rules: 446
% New rule produced :
% [447]
% inverse((inverse(B) double_divide B) double_divide (inverse(C) double_divide C))
% <-> inverse(A) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 196
% Current number of rules: 447
% New rule produced :
% [448]
% inverse(A) double_divide A <->
% inverse((inverse(B) double_divide B) double_divide (inverse(C) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 195
% Current number of rules: 448
% New rule produced :
% [449]
% inverse(C) double_divide C <->
% inverse(inverse(A) double_divide (inverse(B) double_divide B)) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 194
% Current number of rules: 449
% New rule produced :
% [450]
% inverse(inverse(A) double_divide (inverse(B) double_divide B)) double_divide A
% <-> inverse(C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 193
% Current number of rules: 450
% New rule produced :
% [451]
% inverse(A) double_divide A <->
% inverse(inverse(B) double_divide B) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 192
% Current number of rules: 451
% New rule produced :
% [452]
% inverse(C) double_divide C <->
% (inverse(inverse(A)) double_divide (inverse(B) double_divide B)) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 191
% Current number of rules: 452
% New rule produced :
% [453]
% inverse(inverse(B) double_divide B) double_divide (inverse(C) double_divide C)
% <-> inverse(A) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 190
% Current number of rules: 453
% New rule produced :
% [454]
% (inverse(inverse(A)) double_divide (inverse(B) double_divide B)) double_divide A
% <-> inverse(C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 189
% Current number of rules: 454
% New rule produced :
% [455]
% inverse(B) double_divide (inverse(inverse(B double_divide C)) double_divide C)
% <-> inverse(A) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 188
% Current number of rules: 455
% New rule produced :
% [456]
% inverse(A) double_divide A <->
% inverse(B) double_divide (inverse(inverse(B double_divide C)) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 187
% Current number of rules: 456
% New rule produced :
% [457]
% inverse(inverse(A) double_divide (inverse(inverse(B)) double_divide C)) <->
% inverse(A double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 186
% Current number of rules: 457
% New rule produced :
% [458]
% inverse(A double_divide C) double_divide B <->
% inverse(inverse(A) double_divide (inverse(inverse(B)) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 185
% Current number of rules: 458
% New rule produced :
% [459]
% inverse(A double_divide B) double_divide C <->
% inverse(inverse(B)) double_divide (inverse(A) double_divide inverse(C))
% Current number of equations to process: 667
% Current number of ordered equations: 184
% Current number of rules: 459
% New rule produced :
% [460]
% inverse(A double_divide B) double_divide C <->
% inverse(inverse(A)) double_divide (inverse(B) double_divide inverse(C))
% Current number of equations to process: 667
% Current number of ordered equations: 183
% Current number of rules: 460
% New rule produced :
% [461]
% inverse(inverse(B)) double_divide (inverse(A) double_divide inverse(C)) <->
% inverse(A double_divide B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 182
% Current number of rules: 461
% New rule produced :
% [462]
% inverse(inverse(A)) double_divide (inverse(B) double_divide inverse(C)) <->
% inverse(A double_divide B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 181
% Current number of rules: 462
% New rule produced :
% [463]
% inverse(A) double_divide ((B double_divide C) double_divide V_3) <->
% ((inverse(V_3) double_divide C) double_divide A) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 180
% Current number of rules: 463
% New rule produced :
% [464]
% ((inverse(V_3) double_divide C) double_divide A) double_divide B <->
% inverse(A) double_divide ((B double_divide C) double_divide V_3)
% Current number of equations to process: 667
% Current number of ordered equations: 179
% Current number of rules: 464
% New rule produced :
% [465]
% inverse((A double_divide B) double_divide C) <->
% inverse(inverse(A)) double_divide inverse(inverse(C) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 178
% Current number of rules: 465
% New rule produced :
% [466]
% inverse(inverse(A)) double_divide inverse(inverse(C) double_divide B) <->
% inverse((A double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 177
% Current number of rules: 466
% New rule produced :
% [467]
% (inverse(B) double_divide C) double_divide A <->
% inverse(inverse(inverse(A)) double_divide B) double_divide inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 176
% Current number of rules: 467
% New rule produced :
% [468]
% inverse(inverse(inverse(A)) double_divide B) double_divide inverse(C) <->
% (inverse(B) double_divide C) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 175
% Current number of rules: 468
% New rule produced :
% [469]
% inverse(inverse(inverse(A double_divide B) double_divide (A double_divide C)))
% <-> inverse(C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 174
% Current number of rules: 469
% New rule produced :
% [470]
% inverse(B) double_divide C <->
% inverse(inverse(A double_divide B)) double_divide inverse(A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 173
% Current number of rules: 470
% New rule produced :
% [471]
% inverse(C) double_divide B <->
% inverse(inverse(inverse(A double_divide B) double_divide (A double_divide C)))
% Current number of equations to process: 667
% Current number of ordered equations: 172
% Current number of rules: 471
% New rule produced :
% [472]
% inverse(C) double_divide B <->
% inverse(inverse(inverse(A double_divide B))) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 171
% Current number of rules: 472
% New rule produced :
% [473]
% inverse(inverse(A double_divide B)) double_divide inverse(A double_divide C)
% <-> inverse(B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 170
% Current number of rules: 473
% New rule produced :
% [474]
% inverse(inverse(inverse(A double_divide B))) double_divide (A double_divide C)
% <-> inverse(C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 169
% Current number of rules: 474
% New rule produced :
% [475]
% inverse(C) double_divide B <->
% inverse(inverse(A) double_divide A) double_divide (inverse(B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 167
% Current number of rules: 475
% New rule produced :
% [476]
% inverse(inverse(A) double_divide A) double_divide (inverse(B) double_divide C)
% <-> inverse(C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 165
% Current number of rules: 476
% New rule produced :
% [477]
% inverse(A) double_divide (inverse(inverse(A double_divide B)) double_divide C)
% <-> inverse(C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 164
% Current number of rules: 477
% New rule produced :
% [478]
% inverse(C) double_divide B <->
% inverse(A) double_divide (inverse(inverse(A double_divide B)) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 163
% Current number of rules: 478
% New rule produced :
% [479]
% inverse(A double_divide B) double_divide (A double_divide C) <->
% inverse(B double_divide V_3) double_divide (C double_divide V_3)
% Current number of equations to process: 667
% Current number of ordered equations: 161
% Current number of rules: 479
% New rule produced :
% [480]
% inverse(B double_divide V_3) double_divide (A double_divide V_3) <->
% ((inverse(A) double_divide B) double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 160
% Current number of rules: 480
% New rule produced :
% [481]
% inverse(C double_divide V_3) double_divide (A double_divide V_3) <->
% ((inverse(A) double_divide B) double_divide B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 159
% Current number of rules: 481
% New rule produced :
% [482]
% ((inverse(A) double_divide B) double_divide C) double_divide C <->
% inverse(B double_divide V_3) double_divide (A double_divide V_3)
% Current number of equations to process: 667
% Current number of ordered equations: 158
% Current number of rules: 482
% New rule produced :
% [483]
% ((inverse(A) double_divide B) double_divide B) double_divide C <->
% inverse(C double_divide V_3) double_divide (A double_divide V_3)
% Current number of equations to process: 667
% Current number of ordered equations: 157
% Current number of rules: 483
% New rule produced :
% [484]
% inverse(A) double_divide A <->
% inverse(inverse(inverse(B)) double_divide C) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 156
% Current number of rules: 484
% New rule produced :
% [485]
% inverse(inverse(inverse(B)) double_divide C) double_divide (B double_divide C)
% <-> inverse(A) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 155
% Current number of rules: 485
% New rule produced :
% [486]
% inverse(inverse(A double_divide B) double_divide (A double_divide C)) <->
% inverse(inverse(C)) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 153
% Current number of rules: 486
% New rule produced :
% [487]
% inverse(inverse(C)) double_divide inverse(B) <->
% inverse(inverse(A double_divide B) double_divide (A double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 151
% Current number of rules: 487
% New rule produced :
% [488]
% inverse(inverse(inverse(A)) double_divide B) <->
% inverse(inverse(B) double_divide C) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 150
% Current number of rules: 488
% New rule produced :
% [489]
% inverse(inverse(B) double_divide C) double_divide (A double_divide C) <->
% inverse(inverse(inverse(A)) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 149
% Current number of rules: 489
% New rule produced :
% [490]
% inverse(B double_divide C) double_divide (inverse(inverse(C)) double_divide B)
% <-> inverse(A) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 148
% Current number of rules: 490
% New rule produced :
% [491]
% inverse(A) double_divide A <->
% inverse(B double_divide C) double_divide (inverse(inverse(C)) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 147
% Current number of rules: 491
% New rule produced :
% [492]
% inverse(A double_divide B) double_divide (A double_divide C) <->
% ((inverse(V_3) double_divide V_3) double_divide C) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 146
% Current number of rules: 492
% New rule produced :
% [493]
% ((inverse(V_3) double_divide V_3) double_divide C) double_divide B <->
% inverse(A double_divide B) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 145
% Current number of rules: 493
% New rule produced :
% [494]
% inverse(inverse(inverse(A double_divide B))) <->
% inverse(inverse(B) double_divide C) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 144
% Current number of rules: 494
% New rule produced :
% [495]
% inverse(inverse(B) double_divide C) double_divide (A double_divide C) <->
% inverse(inverse(inverse(A double_divide B)))
% Current number of equations to process: 667
% Current number of ordered equations: 143
% Current number of rules: 495
% New rule produced :
% [496]
% inverse(A) <->
% inverse(inverse(A double_divide B) double_divide C) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 141
% Current number of rules: 496
% New rule produced :
% [497]
% inverse(A) <->
% inverse(inverse(B) double_divide C) double_divide ((A double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 140
% Current number of rules: 497
% New rule produced :
% [498]
% inverse(inverse(A double_divide B) double_divide C) double_divide (B double_divide C)
% <-> inverse(A)
% Current number of equations to process: 667
% Current number of ordered equations: 138
% Current number of rules: 498
% New rule produced :
% [499]
% inverse(inverse(B) double_divide C) double_divide ((A double_divide B) double_divide C)
% <-> inverse(A)
% Current number of equations to process: 667
% Current number of ordered equations: 137
% Current number of rules: 499
% New rule produced :
% [500]
% inverse(A) double_divide B <->
% inverse(inverse(inverse(B)) double_divide C) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 136
% Current number of rules: 500
% New rule produced :
% [501]
% inverse(inverse(inverse(B)) double_divide C) double_divide (A double_divide C)
% <-> inverse(A) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 135
% Current number of rules: 501
% New rule produced :
% [502]
% inverse(A double_divide C) <->
% (inverse(inverse(A)) double_divide inverse(B)) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 134
% Current number of rules: 502
% New rule produced :
% [503]
% (inverse(inverse(A)) double_divide inverse(B)) double_divide (B double_divide C)
% <-> inverse(A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 133
% Current number of rules: 503
% New rule produced :
% [504]
% inverse(A double_divide C) <->
% (inverse(inverse(A)) double_divide B) double_divide (inverse(B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 132
% Current number of rules: 504
% New rule produced :
% [505]
% (inverse(inverse(A)) double_divide B) double_divide (inverse(B) double_divide C)
% <-> inverse(A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 131
% Current number of rules: 505
% New rule produced :
% [506]
% inverse(B double_divide C) <->
% inverse(inverse(inverse(A) double_divide B)) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 130
% Current number of rules: 506
% New rule produced :
% [507]
% inverse(inverse(inverse(A) double_divide B)) double_divide (A double_divide C)
% <-> inverse(B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 129
% Current number of rules: 507
% New rule produced :
% [508]
% inverse(A double_divide C) <->
% inverse(inverse(A double_divide B)) double_divide (inverse(B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 127
% Current number of rules: 508
% New rule produced :
% [509]
% inverse(inverse(A double_divide B)) double_divide (inverse(B) double_divide C)
% <-> inverse(A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 125
% Current number of rules: 509
% New rule produced :
% [510]
% (eq)((inverse(A double_divide B) double_divide (B double_divide C)) double_divide A,
% inverse(inverse(inverse(C)))) -> (false)
% Current number of equations to process: 667
% Current number of ordered equations: 124
% Current number of rules: 510
% New rule produced :
% [511]
% inverse((inverse(inverse(A) double_divide B) double_divide A) double_divide B)
% <-> inverse(C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 123
% Current number of rules: 511
% New rule produced :
% [512]
% inverse(C) double_divide C <->
% inverse((inverse(inverse(A) double_divide B) double_divide A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 122
% Current number of rules: 512
% New rule produced :
% [513]
% inverse(inverse(A double_divide B) double_divide (inverse(C) double_divide C))
% <-> inverse(A) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 120
% Current number of rules: 513
% New rule produced :
% [514]
% inverse(inverse((inverse(A) double_divide A) double_divide (B double_divide C)))
% <-> inverse(B) double_divide inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 119
% Current number of rules: 514
% New rule produced :
% [515]
% inverse(B) double_divide inverse(C) <->
% inverse(inverse((inverse(A) double_divide A) double_divide (B double_divide C)))
% Current number of equations to process: 667
% Current number of ordered equations: 118
% Current number of rules: 515
% New rule produced :
% [516]
% inverse(A) double_divide inverse(B) <->
% inverse(inverse(A double_divide B) double_divide (inverse(C) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 116
% Current number of rules: 516
% New rule produced :
% [517]
% inverse(inverse(C) double_divide A) <->
% inverse(inverse(A) double_divide (inverse(B) double_divide B)) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 114
% Current number of rules: 517
% New rule produced :
% [518]
% inverse(inverse(A) double_divide (inverse(B) double_divide B)) double_divide C
% <-> inverse(inverse(C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 112
% Current number of rules: 518
% New rule produced :
% [519]
% inverse(A) double_divide inverse(B) <->
% inverse(inverse(A double_divide B)) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 111
% Current number of rules: 519
% New rule produced :
% [520]
% inverse(inverse(A double_divide B)) double_divide (inverse(C) double_divide C)
% <-> inverse(A) double_divide inverse(B)
% Current number of equations to process: 667
% Current number of ordered equations: 110
% Current number of rules: 520
% New rule produced :
% [521]
% inverse(inverse(A) double_divide B) <->
% inverse(inverse(B) double_divide A) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 108
% Current number of rules: 521
% New rule produced :
% [522]
% inverse(inverse(C) double_divide A) <->
% (inverse(inverse(A)) double_divide (inverse(B) double_divide B)) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 107
% Current number of rules: 522
% New rule produced :
% [523]
% inverse(inverse(B) double_divide A) double_divide (inverse(C) double_divide C)
% <-> inverse(inverse(A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 105
% Current number of rules: 523
% New rule produced :
% [524]
% (inverse(inverse(A)) double_divide (inverse(B) double_divide B)) double_divide C
% <-> inverse(inverse(C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 104
% Current number of rules: 524
% New rule produced :
% [525]
% C <->
% inverse(((inverse(A) double_divide inverse(B)) double_divide (A double_divide B)) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 103
% Current number of rules: 525
% New rule produced :
% [526]
% inverse(((inverse(A) double_divide inverse(B)) double_divide (A double_divide B)) double_divide C)
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 102
% Current number of rules: 526
% New rule produced :
% [527]
% C <->
% inverse(((inverse(A) double_divide B) double_divide (inverse(B) double_divide A)) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 101
% Current number of rules: 527
% New rule produced :
% [528]
% inverse(((inverse(A) double_divide B) double_divide (inverse(B) double_divide A)) double_divide C)
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 100
% Current number of rules: 528
% New rule produced :
% [529]
% A <->
% inverse(A) double_divide ((inverse(B) double_divide inverse(C)) double_divide 
% (B double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 99
% Current number of rules: 529
% New rule produced :
% [530]
% inverse(A) double_divide ((inverse(B) double_divide inverse(C)) double_divide 
% (B double_divide C)) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 98
% Current number of rules: 530
% New rule produced :
% [531]
% A <->
% inverse(A) double_divide ((inverse(B) double_divide C) double_divide 
% (inverse(C) double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 97
% Current number of rules: 531
% New rule produced :
% [532]
% inverse(A) double_divide ((inverse(B) double_divide C) double_divide 
% (inverse(C) double_divide B)) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 96
% Current number of rules: 532
% New rule produced :
% [533]
% inverse(A) double_divide (inverse(C) double_divide B) <->
% (((A double_divide B) double_divide C) double_divide V_3) double_divide V_3
% Current number of equations to process: 667
% Current number of ordered equations: 95
% Current number of rules: 533
% New rule produced :
% [534]
% inverse(A) double_divide (inverse(V_3) double_divide B) <->
% (((A double_divide B) double_divide C) double_divide C) double_divide V_3
% Current number of equations to process: 667
% Current number of ordered equations: 94
% Current number of rules: 534
% New rule produced :
% [535]
% (((A double_divide B) double_divide C) double_divide C) double_divide V_3 <->
% inverse(A) double_divide (inverse(V_3) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 93
% Current number of rules: 535
% New rule produced :
% [536]
% (((A double_divide B) double_divide C) double_divide V_3) double_divide V_3
% <-> inverse(A) double_divide (inverse(C) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 92
% Current number of rules: 536
% New rule produced :
% [537]
% inverse(inverse(A) double_divide (inverse(inverse(B) double_divide B) double_divide C))
% <-> A double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 91
% Current number of rules: 537
% New rule produced :
% [538]
% A double_divide C <->
% inverse(inverse(A) double_divide (inverse(inverse(B) double_divide B) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 90
% Current number of rules: 538
% New rule produced :
% [539]
% A double_divide B <->
% inverse(inverse(C) double_divide C) double_divide (inverse(A) double_divide 
% inverse(B))
% Current number of equations to process: 667
% Current number of ordered equations: 88
% Current number of rules: 539
% New rule produced :
% [540]
% A double_divide B <->
% inverse(inverse(A)) double_divide (inverse(B) double_divide (inverse(C) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 87
% Current number of rules: 540
% New rule produced :
% [541]
% inverse(inverse(C) double_divide C) double_divide (inverse(A) double_divide 
% inverse(B)) <->
% A double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 85
% Current number of rules: 541
% New rule produced :
% [542]
% inverse(inverse(A)) double_divide (inverse(B) double_divide (inverse(C) double_divide C))
% <-> A double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 84
% Current number of rules: 542
% New rule produced :
% [543]
% inverse(inverse(A) double_divide B) <->
% inverse(inverse(B double_divide C)) double_divide inverse(A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 83
% Current number of rules: 543
% New rule produced :
% [544]
% inverse(inverse(B double_divide C)) double_divide inverse(A double_divide C)
% <-> inverse(inverse(A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 82
% Current number of rules: 544
% New rule produced :
% [545]
% inverse(B) double_divide inverse(C) <->
% inverse(inverse(inverse(A) double_divide B)) double_divide (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 81
% Current number of rules: 545
% New rule produced :
% [546]
% inverse(inverse(A) double_divide B) double_divide inverse(A double_divide C)
% <-> inverse(inverse(B)) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 80
% Current number of rules: 546
% New rule produced :
% [547]
% inverse(inverse(B)) double_divide C <->
% inverse(inverse(A) double_divide B) double_divide inverse(A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 79
% Current number of rules: 547
% New rule produced :
% [548]
% inverse(inverse(inverse(A) double_divide B)) double_divide (A double_divide C)
% <-> inverse(B) double_divide inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 78
% Current number of rules: 548
% New rule produced :
% [549]
% inverse(B) double_divide inverse(C) <->
% inverse(inverse(A double_divide B)) double_divide (inverse(A) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 76
% Current number of rules: 549
% New rule produced :
% [550]
% inverse(inverse(A) double_divide B) double_divide inverse(A double_divide C)
% <-> inverse(inverse(C)) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 75
% Current number of rules: 550
% New rule produced :
% [551]
% inverse(inverse(A double_divide B)) double_divide (inverse(B) double_divide C)
% <-> inverse(A) double_divide inverse(C)
% Current number of equations to process: 667
% Current number of ordered equations: 73
% Current number of rules: 551
% New rule produced :
% [552]
% inverse(inverse(C)) double_divide B <->
% inverse(inverse(A) double_divide B) double_divide inverse(A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 72
% Current number of rules: 552
% New rule produced :
% [553]
% inverse(A) double_divide (inverse(B) double_divide C) <->
% ((B double_divide V_3) double_divide A) double_divide (C double_divide V_3)
% Current number of equations to process: 667
% Current number of ordered equations: 71
% Current number of rules: 553
% New rule produced :
% [554]
% ((B double_divide V_3) double_divide A) double_divide (C double_divide V_3)
% <-> inverse(A) double_divide (inverse(B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 70
% Current number of rules: 554
% New rule produced :
% [555]
% (A multiply B) double_divide C <->
% inverse(C double_divide V_3) double_divide ((A double_divide B) double_divide V_3)
% Current number of equations to process: 667
% Current number of ordered equations: 69
% Current number of rules: 555
% New rule produced :
% [556]
% inverse(C double_divide V_3) double_divide ((A double_divide B) double_divide V_3)
% <-> (A multiply B) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 68
% Current number of rules: 556
% New rule produced :
% [557]
% inverse(inverse(inverse(A) double_divide B) double_divide (B double_divide C))
% <-> inverse(inverse(C)) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 67
% Current number of rules: 557
% New rule produced :
% [558]
% inverse(inverse(C)) double_divide A <->
% inverse(inverse(inverse(A) double_divide B) double_divide (B double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 66
% Current number of rules: 558
% New rule produced :
% [559]
% inverse(A double_divide V_3) double_divide (inverse(B) double_divide V_3) <->
% ((A double_divide B) double_divide C) double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 65
% Current number of rules: 559
% New rule produced :
% [560]
% ((A double_divide B) double_divide C) double_divide C <->
% inverse(A double_divide V_3) double_divide (inverse(B) double_divide V_3)
% Current number of equations to process: 667
% Current number of ordered equations: 64
% Current number of rules: 560
% New rule produced :
% [561]
% inverse(inverse(A) double_divide B) <->
% inverse(A double_divide C) double_divide (inverse(inverse(B)) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 63
% Current number of rules: 561
% New rule produced :
% [562]
% inverse(A double_divide C) double_divide (inverse(inverse(B)) double_divide C)
% <-> inverse(inverse(A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 62
% Current number of rules: 562
% New rule produced :
% [563]
% inverse(inverse(inverse(A double_divide B) double_divide (inverse(C) double_divide A)))
% <-> B double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 61
% Current number of rules: 563
% New rule produced :
% [564]
% B double_divide C <->
% inverse(inverse(inverse(A double_divide B) double_divide (inverse(C) double_divide A)))
% Current number of equations to process: 667
% Current number of ordered equations: 60
% Current number of rules: 564
% New rule produced :
% [565]
% B double_divide C <->
% inverse(A double_divide B) double_divide (inverse(inverse(inverse(C))) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 59
% Current number of rules: 565
% New rule produced :
% [566]
% B double_divide C <->
% inverse(inverse(inverse(A double_divide B))) double_divide (inverse(C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 58
% Current number of rules: 566
% New rule produced :
% [567]
% A double_divide C <->
% inverse(inverse(inverse(A) double_divide B)) double_divide inverse(B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 57
% Current number of rules: 567
% New rule produced :
% [568]
% inverse(A double_divide B) double_divide (inverse(inverse(inverse(C))) double_divide A)
% <-> B double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 56
% Current number of rules: 568
% New rule produced :
% [569]
% inverse(inverse(inverse(A double_divide B))) double_divide (inverse(C) double_divide A)
% <-> B double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 55
% Current number of rules: 569
% New rule produced :
% [570]
% inverse(inverse(inverse(A) double_divide B)) double_divide inverse(B double_divide C)
% <-> A double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 54
% Current number of rules: 570
% New rule produced :
% [571]
% inverse(A double_divide B) double_divide ((C multiply V_3) double_divide A)
% <-> (C double_divide V_3) double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 53
% Current number of rules: 571
% New rule produced :
% [572]
% (C double_divide V_3) double_divide B <->
% inverse(A double_divide B) double_divide ((C multiply V_3) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 52
% Current number of rules: 572
% New rule produced :
% [573]
% A double_divide B <->
% inverse(inverse(inverse(A)) double_divide B) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 51
% Current number of rules: 573
% New rule produced :
% [574]
% inverse(inverse(inverse(A)) double_divide B) double_divide (inverse(C) double_divide C)
% <-> A double_divide B
% Current number of equations to process: 667
% Current number of ordered equations: 50
% Current number of rules: 574
% New rule produced :
% [575]
% B double_divide C <->
% inverse(A) double_divide (inverse(inverse(A double_divide B)) double_divide 
% inverse(C))
% Current number of equations to process: 667
% Current number of ordered equations: 49
% Current number of rules: 575
% New rule produced :
% [576]
% A double_divide C <->
% inverse(inverse(A)) double_divide (inverse(inverse(B double_divide C)) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 48
% Current number of rules: 576
% New rule produced :
% [577]
% inverse(A) double_divide (inverse(inverse(A double_divide B)) double_divide 
% inverse(C)) <-> B double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 47
% Current number of rules: 577
% New rule produced :
% [578]
% inverse(inverse(A)) double_divide (inverse(inverse(B double_divide C)) double_divide B)
% <-> A double_divide C
% Current number of equations to process: 667
% Current number of ordered equations: 46
% Current number of rules: 578
% New rule produced :
% [579]
% inverse(inverse(A) double_divide A) <->
% inverse(inverse(inverse(B)) double_divide C) double_divide (B double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 45
% Current number of rules: 579
% New rule produced :
% [580]
% inverse(inverse(inverse(B)) double_divide C) double_divide (B double_divide C)
% <-> inverse(inverse(A) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 44
% Current number of rules: 580
% New rule produced :
% [581]
% A <->
% inverse(inverse(A) double_divide B) double_divide ((inverse(C) double_divide C) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 43
% Current number of rules: 581
% New rule produced :
% [582]
% A <->
% inverse(inverse(inverse(B) double_divide B) double_divide C) double_divide 
% (A double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 42
% Current number of rules: 582
% New rule produced :
% [583]
% inverse(inverse(A) double_divide B) double_divide ((inverse(C) double_divide C) double_divide B)
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 41
% Current number of rules: 583
% New rule produced :
% [584]
% inverse(inverse(inverse(B) double_divide B) double_divide C) double_divide 
% (A double_divide C) <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 40
% Current number of rules: 584
% New rule produced :
% [585]
% C <->
% inverse(((inverse(A) double_divide inverse(B)) double_divide (A double_divide C)) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 38
% Current number of rules: 585
% New rule produced :
% [586]
% C <->
% inverse(inverse(A double_divide B) double_divide (B double_divide C)) double_divide 
% inverse(A)
% Current number of equations to process: 667
% Current number of ordered equations: 37
% Current number of rules: 586
% New rule produced :
% [587]
% inverse(((inverse(A) double_divide inverse(B)) double_divide (A double_divide C)) double_divide B)
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 35
% Current number of rules: 587
% New rule produced :
% [588]
% inverse(inverse(A double_divide B) double_divide (B double_divide C)) double_divide 
% inverse(A) <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 34
% Current number of rules: 588
% New rule produced :
% [589]
% B <->
% inverse(((inverse(A) double_divide B) double_divide (inverse(C) double_divide A)) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 33
% Current number of rules: 589
% New rule produced :
% [590]
% C <->
% inverse(inverse(A) double_divide ((inverse(B) double_divide A) double_divide 
% (B double_divide C)))
% Current number of equations to process: 667
% Current number of ordered equations: 32
% Current number of rules: 590
% New rule produced :
% [591]
% C <->
% inverse(inverse(inverse(A) double_divide B) double_divide (B double_divide C)) double_divide A
% Current number of equations to process: 667
% Current number of ordered equations: 31
% Current number of rules: 591
% New rule produced :
% [592]
% inverse(((inverse(A) double_divide B) double_divide (inverse(C) double_divide A)) double_divide C)
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 30
% Current number of rules: 592
% New rule produced :
% [593]
% inverse(inverse(A) double_divide ((inverse(B) double_divide A) double_divide 
% (B double_divide C))) <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 29
% Current number of rules: 593
% New rule produced :
% [594]
% inverse(inverse(inverse(A) double_divide B) double_divide (B double_divide C)) double_divide A
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 28
% Current number of rules: 594
% New rule produced :
% [595]
% B <->
% inverse(inverse(inverse(A double_divide B) double_divide (A double_divide C)) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 27
% Current number of rules: 595
% New rule produced :
% [596]
% C <->
% inverse(inverse(inverse((A double_divide B) double_divide C) double_divide A) double_divide B)
% Current number of equations to process: 667
% Current number of ordered equations: 26
% Current number of rules: 596
% New rule produced :
% [597]
% C <->
% inverse(inverse(inverse(A) double_divide B) double_divide ((A double_divide C) double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 24
% Current number of rules: 597
% New rule produced :
% [598]
% C <->
% inverse(inverse(A) double_divide ((inverse(B double_divide C) double_divide A) double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 23
% Current number of rules: 598
% New rule produced :
% [599]
% inverse(inverse(inverse(A double_divide B) double_divide (A double_divide C)) double_divide C)
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 22
% Current number of rules: 599
% New rule produced :
% [600]
% inverse(inverse(inverse((A double_divide B) double_divide C) double_divide A) double_divide B)
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 21
% Current number of rules: 600
% New rule produced :
% [601]
% inverse(inverse(inverse(A) double_divide B) double_divide ((A double_divide C) double_divide B))
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 19
% Current number of rules: 601
% New rule produced :
% [602]
% inverse(inverse(A) double_divide ((inverse(B double_divide C) double_divide A) double_divide B))
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 18
% Current number of rules: 602
% New rule produced :
% [603]
% C <->
% inverse(inverse(inverse(A) double_divide A) double_divide ((B double_divide C) double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 17
% Current number of rules: 603
% New rule produced :
% [604]
% inverse(inverse(inverse(A) double_divide A) double_divide ((B double_divide C) double_divide B))
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 16
% Current number of rules: 604
% New rule produced :
% [605]
% A <->
% inverse(inverse(A double_divide B) double_divide ((inverse(C) double_divide C) double_divide B))
% Current number of equations to process: 667
% Current number of ordered equations: 14
% Current number of rules: 605
% New rule produced :
% [606]
% inverse(inverse(A double_divide B) double_divide ((inverse(C) double_divide C) double_divide B))
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 12
% Current number of rules: 606
% New rule produced :
% [607]
% B <->
% inverse(((inverse(inverse(A) double_divide B) double_divide C) double_divide C) double_divide A)
% Current number of equations to process: 667
% Current number of ordered equations: 11
% Current number of rules: 607
% New rule produced :
% [608]
% B <->
% inverse(((inverse(A double_divide B) double_divide inverse(C)) double_divide A) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 10
% Current number of rules: 608
% New rule produced :
% [609]
% inverse(((inverse(inverse(A) double_divide B) double_divide C) double_divide C) double_divide A)
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 9
% Current number of rules: 609
% New rule produced :
% [610]
% inverse(((inverse(A double_divide B) double_divide inverse(C)) double_divide A) double_divide C)
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 8
% Current number of rules: 610
% New rule produced :
% [611]
% B <->
% inverse(inverse(inverse(A) double_divide B) double_divide ((A double_divide C) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 7
% Current number of rules: 611
% New rule produced :
% [612]
% inverse(inverse(inverse(A) double_divide B) double_divide ((A double_divide C) double_divide C))
% <-> B
% Current number of equations to process: 667
% Current number of ordered equations: 6
% Current number of rules: 612
% New rule produced :
% [613]
% A <->
% inverse(inverse(A double_divide B) double_divide ((inverse(B) double_divide C) double_divide C))
% Current number of equations to process: 667
% Current number of ordered equations: 5
% Current number of rules: 613
% New rule produced :
% [614]
% C <->
% inverse(inverse(A double_divide B) double_divide ((inverse(B) double_divide C) double_divide A))
% Current number of equations to process: 667
% Current number of ordered equations: 4
% Current number of rules: 614
% New rule produced :
% [615]
% inverse(inverse(A double_divide B) double_divide ((inverse(B) double_divide C) double_divide A))
% <-> C
% Current number of equations to process: 667
% Current number of ordered equations: 3
% Current number of rules: 615
% New rule produced :
% [616]
% inverse(inverse(A double_divide B) double_divide ((inverse(B) double_divide C) double_divide C))
% <-> A
% Current number of equations to process: 667
% Current number of ordered equations: 2
% Current number of rules: 616
% New rule produced :
% [617]
% inverse((inverse(A double_divide V_3) double_divide B) double_divide C) <->
% ((A double_divide B) double_divide C) double_divide V_3
% Current number of equations to process: 667
% Current number of ordered equations: 1
% Current number of rules: 617
% New rule produced :
% [618]
% ((A double_divide B) double_divide C) double_divide V_3 <->
% inverse((inverse(A double_divide V_3) double_divide B) double_divide C)
% Current number of equations to process: 667
% Current number of ordered equations: 0
% Current number of rules: 618
% New rule produced :
% [619]
% inverse((A multiply B) double_divide (A double_divide C)) <->
% inverse(C double_divide V_3) double_divide (B double_divide V_3)
% Current number of equations to process: 769
% Current number of ordered equations: 4
% Current number of rules: 619
% New rule produced :
% [620]
% inverse(A double_divide B) multiply (B double_divide C) <->
% inverse(C double_divide V_3) double_divide (A double_divide V_3)
% Current number of equations to process: 769
% Current number of ordered equations: 3
% Current number of rules: 620
% New rule produced :
% [621]
% inverse(C double_divide V_3) double_divide (B double_divide V_3) <->
% inverse((A multiply B) double_divide (A double_divide C))
% Current number of equations to process: 769
% Current number of ordered equations: 1
% Current number of rules: 621
% New rule produced :
% [622]
% inverse(C double_divide V_3) double_divide (A double_divide V_3) <->
% inverse(A double_divide B) multiply (B double_divide C)
% Current number of equations to process: 769
% Current number of ordered equations: 0
% Current number of rules: 622
% New rule produced :
% [623]
% inverse(inverse(inverse(B) double_divide C) double_divide (A double_divide C))
% <-> A double_divide B
% Current number of equations to process: 880
% Current number of ordered equations: 1
% Current number of rules: 623
% New rule produced :
% [624]
% A double_divide B <->
% inverse(inverse(inverse(B) double_divide C) double_divide (A double_divide C))
% Current number of equations to process: 880
% Current number of ordered equations: 0
% Current number of rules: 624
% New rule produced :
% [625]
% inverse(inverse(C double_divide V_3) double_divide (B double_divide V_3)) <->
% (A multiply B) double_divide (A double_divide C)
% Current number of equations to process: 900
% Current number of ordered equations: 2
% Current number of rules: 625
% New rule produced :
% [626]
% (A multiply B) double_divide (A double_divide C) <->
% inverse(inverse(C double_divide V_3) double_divide (B double_divide V_3))
% Current number of equations to process: 900
% Current number of ordered equations: 0
% Current number of rules: 626
% Rule [510]
% (eq)((inverse(A double_divide B) double_divide (B double_divide C)) double_divide A,
% inverse(inverse(inverse(C)))) -> (false) is composed into [510]
% (eq)((
% inverse(
% A double_divide B) double_divide 
% (B double_divide C)) double_divide A,
% inverse(
% inverse(
% inverse(C))))
% -> (true)
% Rule [342]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A))))) double_divide 
% (inverse(B) double_divide B)) -> (false) is composed into 
% [342]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A))))) double_divide (
% inverse(B) double_divide B))
% -> (true)
% Rule [335]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A))) double_divide 
% (inverse(B) double_divide B)))) -> (false) is composed into 
% [335]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A))) double_divide (inverse(B) double_divide B))))
% -> (true)
% Rule [334]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A) double_divide 
% (inverse(B) double_divide B))))))
% -> (false) is composed into [334]
% (eq)(A,inverse(inverse(inverse(inverse(
% inverse(A) double_divide 
% (inverse(B) double_divide B))))))
% -> (true)
% Rule [333]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A)) double_divide 
% (inverse(B) double_divide B))))) ->
% (false) is composed into [333]
% (eq)(A,inverse(inverse(inverse(inverse(
% inverse(A)) double_divide 
% (inverse(B) double_divide B)))))
% -> (true)
% Rule [332]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A)))) double_divide 
% (inverse(B) double_divide B))) -> (false) is composed into 
% [332]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(A)))) double_divide (inverse(B) double_divide B)))
% -> (true)
% Rule [144]
% (eq)(A double_divide B,inverse(inverse(inverse(inverse(A) double_divide 
% inverse(B))))) -> (false) is composed into 
% [144]
% (eq)(A double_divide B,inverse(inverse(inverse(inverse(A) double_divide 
% inverse(B))))) -> (true)
% Rule [139]
% (eq)(A,(inverse(inverse(inverse(inverse(A)))) double_divide B) double_divide B)
% -> (false) is composed into [139]
% (eq)(A,(inverse(inverse(inverse(inverse(A)))) double_divide B) double_divide B)
% -> (true)
% Rule [138]
% (eq)(A,inverse((inverse(inverse(inverse(A))) double_divide B) double_divide B))
% -> (false) is composed into [138]
% (eq)(A,inverse((inverse(inverse(inverse(A))) double_divide B) double_divide B))
% -> (true)
% Rule [137]
% (eq)(A,inverse(inverse(inverse((inverse(A) double_divide B) double_divide B))))
% -> (false) is composed into [137]
% (eq)(A,inverse(inverse(inverse((inverse(A) double_divide B) double_divide B))))
% -> (true)
% Rule [136]
% (eq)(A,inverse(inverse((inverse(inverse(A)) double_divide B) double_divide B)))
% -> (false) is composed into [136]
% (eq)(A,inverse(inverse((inverse(inverse(A)) double_divide B) double_divide B)))
% -> (true)
% Rule [116]
% (eq)(inverse(A) double_divide B,inverse(inverse(inverse(inverse(B) double_divide A))))
% -> (false) is composed into [116]
% (eq)(inverse(A) double_divide B,inverse(
% inverse(
% inverse(
% inverse(B) double_divide A))))
% -> (true)
% Rule [87]
% (eq)((inverse(A) double_divide A) double_divide B,inverse(inverse(
% inverse(B))))
% -> (false) is composed into [87]
% (eq)((inverse(A) double_divide A) double_divide B,
% inverse(inverse(inverse(B)))) -> (true)
% Rule [63]
% (eq)(A double_divide B,inverse(inverse(inverse(A multiply B)))) ->
% (false) is composed into [63]
% (eq)(A double_divide B,inverse(inverse(
% inverse(
% A multiply B))))
% -> (true)
% Rule [62]
% (eq)(A,inverse(inverse(inverse(inverse(inverse(inverse(A))))))) ->
% (false) is composed into [62]
% (eq)(A,inverse(inverse(inverse(inverse(
% inverse(
% inverse(A)))))))
% -> (true)
% Rule [32] (eq)(A,inverse(inverse(A))) -> (false) is composed into [32]
% (eq)(A,
% inverse(
% inverse(A)))
% -> (true)
% Rule [6] (eq)(A,inverse(inverse(inverse(inverse(A))))) -> (false) is composed into 
% [6] (eq)(A,inverse(inverse(inverse(inverse(A))))) -> (true)
% New rule produced : [627] (false) -> (true)
% The conjecture has been reduced. 
% Conjecture is now:
% Trivial
% 
% Current number of equations to process: 920
% Current number of ordered equations: 0
% Current number of rules: 627
% The current conjecture is true and the solution is the identity
% % SZS output start Refutation
% 
% The following 4 rules have been used:
% [2] 
% inverse(inverse(B)) <-> B; trace = in the starting set
% [6] (eq)(A,inverse(inverse(inverse(inverse(A))))) -> (false); trace = in the starting set
% [32] (eq)(A,inverse(inverse(A))) -> (false); trace = Cp of 6 and 2
% [627] (false) -> (true); trace = Cp of 32 and 2
% The current conjecture inverse(inverse(inverse(inverse(A)))) = A
% is true and the solution is the identity
% The current conjecture 
% inverse(A multiply B) = A double_divide B
% is true and the solution is the identity
% The current conjecture 
% A double_divide B = inverse(A multiply B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) = (A double_divide B) multiply B
% is true and the solution is the identity
% The current conjecture 
% inverse(A) = (A double_divide B) multiply B
% is true and the solution is the identity
% The current conjecture 
% (A double_divide B) multiply B = inverse(A)
% is true and the solution is the identity
% The current conjecture 
% (A double_divide B) multiply B = inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse(B) multiply A = inverse(A) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(A) multiply B = inverse(B) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(B) double_divide A = inverse(A) multiply B
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide B = inverse(B) multiply A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A)) = (A double_divide B) double_divide B
% is true and the solution is the identity
% The current conjecture 
% (A double_divide B) double_divide B = inverse(inverse(A))
% is true and the solution is the identity
% The current conjecture 
% A multiply B = inverse(A) double_divide inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide inverse(B) = A multiply B
% is true and the solution is the identity
% The current conjecture A = 
% (inverse(B) double_divide B) multiply A
% is true and the solution is the identity
% The current conjecture B = 
% (inverse(A) double_divide A) multiply B
% is true and the solution is the identity
% The current conjecture 
% (inverse(B) double_divide B) multiply A = A
% is true and the solution is the identity
% The current conjecture 
% (inverse(A) double_divide A) multiply B = B
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide B) = inverse(inverse(A multiply B))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A multiply B)) = inverse(A double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide A) = inverse(B) multiply B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide A) = inverse(B) multiply B
% is true and the solution is the identity
% The current conjecture 
% inverse(B) multiply B = inverse(inverse(A) double_divide A)
% is true and the solution is the identity
% The current conjecture 
% inverse(B) multiply B = inverse(inverse(A) double_divide A)
% is true and the solution is the identity
% The current conjecture 
% inverse(B) = (inverse(A) double_divide A) double_divide B
% is true and the solution is the identity
% The current conjecture 
% (inverse(A) double_divide A) double_divide B = inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide A) = inverse(B) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(B) double_divide B = inverse(inverse(A) double_divide A)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B) double_divide B) = inverse(A) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide A = inverse(inverse(B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) = (inverse(B) double_divide B) double_divide A
% is true and the solution is the identity
% The current conjecture 
% (inverse(B) double_divide B) double_divide A = inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse(B) = (inverse(A) double_divide A) double_divide B
% is true and the solution is the identity
% The current conjecture 
% (inverse(A) double_divide A) double_divide B = inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) = (inverse(B) double_divide B) double_divide A
% is true and the solution is the identity
% The current conjecture 
% (inverse(B) double_divide B) double_divide A = inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B) double_divide B) = inverse(A) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide A = inverse(inverse(B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B) double_divide B) = inverse(A) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide A = inverse(inverse(B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B) double_divide B) = inverse(A) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide A = inverse(inverse(B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% (A double_divide B) double_divide B = (A double_divide C) double_divide C
% is true and the solution is the identity
% The current conjecture 
% (A double_divide C) double_divide C = (A double_divide B) double_divide B
% is true and the solution is the identity
% The current conjecture A = 
% inverse((inverse(A) double_divide B) double_divide B)
% is true and the solution is the identity
% The current conjecture A = 
% (inverse(inverse(A)) double_divide B) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse((inverse(A) double_divide B) double_divide B) = A
% is true and the solution is the identity
% The current conjecture 
% (inverse(inverse(A)) double_divide B) double_divide B = A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A double_divide B))) = A multiply B
% is true and the solution is the identity
% The current conjecture 
% A multiply B = inverse(inverse(inverse(A double_divide B)))
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse((A double_divide B) double_divide A))
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(A double_divide B)) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse((A double_divide B) double_divide A)) = B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A double_divide B)) double_divide A = B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide inverse(B)) = A double_divide B
% is true and the solution is the identity
% The current conjecture 
% A double_divide B = inverse(inverse(A) double_divide inverse(B))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B)) double_divide A = inverse(inverse(A)) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A)) double_divide B = inverse(inverse(B)) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide inverse(B)) = A double_divide B
% is true and the solution is the identity
% The current conjecture 
% A double_divide B = inverse(inverse(A) double_divide inverse(B))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A double_divide B)) = inverse(A) multiply inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A double_divide B)) = inverse(A) multiply inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) multiply inverse(B) = inverse(inverse(A double_divide B))
% is true and the solution is the identity
% The current conjecture 
% inverse(A) multiply inverse(B) = inverse(inverse(A double_divide B))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A double_divide B)) = inverse(inverse(B)) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B)) double_divide A = inverse(inverse(A double_divide B))
% is true and the solution is the identity
% The current conjecture A = 
% (inverse(inverse(B)) double_divide A) double_divide B
% is true and the solution is the identity
% The current conjecture 
% (inverse(inverse(B)) double_divide A) double_divide B = A
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(A double_divide B)) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A double_divide B)) double_divide B = A
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse((A double_divide B) double_divide A))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse((A double_divide B) double_divide A)) = B
% is true and the solution is the identity
% The current conjecture A = 
% inverse((inverse(A) double_divide B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse((inverse(A) double_divide B) double_divide B) = A
% is true and the solution is the identity
% The current conjecture A = 
% inverse((inverse(A) double_divide B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse((inverse(A) double_divide B) double_divide B) = A
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse((A double_divide B) double_divide A))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse((A double_divide B) double_divide A)) = B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide A)) = inverse(B) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(B) double_divide B = inverse(inverse(inverse(A) double_divide A))
% is true and the solution is the identity
% The current conjecture 
% inverse(B) double_divide B = inverse(inverse(inverse(A))) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A))) double_divide A = inverse(B) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(A) = inverse(A double_divide B) double_divide inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide B) double_divide inverse(B) = inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) = inverse(inverse(B) double_divide A) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B) double_divide A) double_divide B = inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide B)) = inverse(B) multiply A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide B)) = inverse(B) multiply A
% is true and the solution is the identity
% The current conjecture 
% inverse(B) multiply A = inverse(inverse(inverse(A) double_divide B))
% is true and the solution is the identity
% The current conjecture 
% inverse(B) multiply A = inverse(inverse(inverse(A) double_divide B))
% is true and the solution is the identity
% The current conjecture 
% inverse(B) = inverse(inverse(A) double_divide B) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide B) double_divide A = inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(B) = inverse(A double_divide B) double_divide inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) = inverse(A double_divide B) double_divide inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide B) double_divide inverse(B) = inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide B) double_divide inverse(A) = inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(B) = inverse(inverse(A) double_divide A) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide A) double_divide B = inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) = inverse(A) multiply (inverse(B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) = inverse(A) multiply (inverse(B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) multiply (inverse(B) double_divide B) = inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) multiply (inverse(B) double_divide B) = inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) = inverse(inverse(B) double_divide B) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B) double_divide B) double_divide A = inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A double_divide B))) = inverse(A) double_divide 
% inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide inverse(B) = inverse(inverse(inverse(A double_divide B)))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide A) = inverse(inverse(B)) double_divide 
% inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B)) double_divide inverse(B) = inverse(inverse(A) double_divide A)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide A) = inverse(inverse(inverse(B))) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(B))) double_divide B = inverse(inverse(A) double_divide A)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B) double_divide A) = inverse(inverse(inverse(A))) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A))) double_divide B = inverse(inverse(B) double_divide A)
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(inverse(B) double_divide A) double_divide B)
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(A) double_divide B) double_divide inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(B) double_divide A) double_divide B) = A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide B) double_divide inverse(B) = A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A)) = inverse((inverse(B) double_divide B) double_divide A)
% is true and the solution is the identity
% The current conjecture 
% inverse((inverse(B) double_divide B) double_divide A) = inverse(inverse(A))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A)) = inverse(A) double_divide (inverse(B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide (inverse(B) double_divide B) = inverse(inverse(A))
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(A) double_divide A) double_divide inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide A) double_divide inverse(B) = B
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(inverse(A) double_divide A) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide A) double_divide B) = B
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(A) double_divide A) double_divide inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide A) double_divide inverse(B) = B
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(inverse(B) double_divide A) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(B) double_divide A) double_divide B) = A
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(inverse(A) double_divide A) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide A) double_divide B) = B
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(A) double_divide A) double_divide inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide A) double_divide inverse(B) = B
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(A double_divide B) double_divide inverse(B))
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(inverse(A) double_divide A) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide A) double_divide B) = B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A double_divide B) double_divide inverse(B)) = A
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(inverse(A) double_divide B) double_divide A)
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(A double_divide B) double_divide inverse(A))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide B) double_divide A) = B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A double_divide B) double_divide inverse(A)) = B
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(inverse(A) double_divide B) double_divide A)
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(A double_divide B) double_divide inverse(A))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide B) double_divide A) = B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A double_divide B) double_divide inverse(A)) = B
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(A double_divide B) double_divide inverse(A))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A double_divide B) double_divide inverse(A)) = B
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(inverse(A) double_divide B) double_divide A)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide B) double_divide A) = B
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide B) = ((A multiply B) double_divide C) double_divide C
% is true and the solution is the identity
% The current conjecture 
% ((A multiply B) double_divide C) double_divide C = inverse(A double_divide B)
% is true and the solution is the identity
% The current conjecture 
% (A multiply B) double_divide (A double_divide B) = inverse(C) double_divide C
% is true and the solution is the identity
% The current conjecture 
% inverse(C) double_divide C = (A multiply B) double_divide (A double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(inverse(A) double_divide B))) = inverse(B) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(inverse(A))) double_divide B) = inverse(B) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(B) double_divide A = inverse(inverse(inverse(inverse(A) double_divide B)))
% is true and the solution is the identity
% The current conjecture 
% inverse(B) double_divide A = inverse(inverse(inverse(inverse(A))) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse((A multiply B) double_divide C) = inverse(C) double_divide (A double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(C) double_divide (A double_divide B) = inverse((A multiply B) double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A)) double_divide B) = inverse(inverse(inverse(B)) double_divide A)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(B)) double_divide A) = inverse(inverse(inverse(A)) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(inverse(B))) double_divide B) = inverse(A) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide A = inverse(inverse(inverse(inverse(B))) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide B)) = inverse(inverse(B)) double_divide 
% inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B)) double_divide inverse(A) = inverse(inverse(inverse(A) double_divide B))
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide B) = inverse(inverse(inverse(A) double_divide 
% inverse(B)))
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide B) = inverse(inverse(inverse(A))) double_divide 
% inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide inverse(B))) = inverse(A double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A))) double_divide inverse(B) = inverse(A double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse((A double_divide B) double_divide C) = (A multiply B) double_divide 
% inverse(C)
% is true and the solution is the identity
% The current conjecture 
% (A multiply B) double_divide inverse(C) = inverse((A double_divide B) double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(B) double_divide (A double_divide C) = inverse(A) double_divide 
% (B double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide (B double_divide C) = inverse(B) double_divide 
% (A double_divide C)
% is true and the solution is the identity
% The current conjecture 
% (inverse(A) double_divide B) double_divide C = (inverse(C) double_divide B) double_divide A
% is true and the solution is the identity
% The current conjecture 
% (inverse(C) double_divide B) double_divide A = (inverse(A) double_divide B) double_divide C
% is true and the solution is the identity
% The current conjecture 
% inverse(B) = inverse((inverse(inverse(A)) double_divide B) double_divide A)
% is true and the solution is the identity
% The current conjecture 
% inverse((inverse(inverse(A)) double_divide B) double_divide A) = inverse(B)
% is true and the solution is the identity
% The current conjecture 
% (A multiply B) double_divide (A double_divide C) = inverse(C) double_divide B
% is true and the solution is the identity
% The current conjecture 
% (A multiply B) double_divide (B double_divide C) = inverse(C) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(C) double_divide B = (A multiply B) double_divide (A double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(C) double_divide A = (A multiply B) double_divide (B double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide B) double_divide C = inverse(A double_divide C) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide C) double_divide B = inverse(A double_divide B) double_divide C
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide (B double_divide C) = inverse(C) double_divide 
% (A double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(C) double_divide (A double_divide B) = inverse(A) double_divide 
% (B double_divide C)
% is true and the solution is the identity
% The current conjecture 
% (inverse(C) double_divide C) double_divide A = (inverse(A) double_divide B) double_divide B
% is true and the solution is the identity
% The current conjecture 
% (inverse(A) double_divide B) double_divide B = (inverse(C) double_divide C) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(((A double_divide B) double_divide C) double_divide C) = A multiply B
% is true and the solution is the identity
% The current conjecture 
% A multiply B = inverse(((A double_divide B) double_divide C) double_divide C)
% is true and the solution is the identity
% The current conjecture 
% A multiply B = (inverse(A double_divide B) double_divide C) double_divide C
% is true and the solution is the identity
% The current conjecture 
% (inverse(A double_divide B) double_divide C) double_divide C = A multiply B
% is true and the solution is the identity
% The current conjecture B = 
% (((A double_divide B) double_divide C) double_divide C) double_divide A
% is true and the solution is the identity
% The current conjecture B = 
% (((A double_divide B) double_divide A) double_divide C) double_divide C
% is true and the solution is the identity
% The current conjecture 
% (((A double_divide B) double_divide C) double_divide C) double_divide A = B
% is true and the solution is the identity
% The current conjecture 
% (((A double_divide B) double_divide A) double_divide C) double_divide C = B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(C) double_divide (A double_divide B)) = (A multiply B) double_divide C
% is true and the solution is the identity
% The current conjecture 
% (A multiply B) double_divide C = inverse(inverse(C) double_divide (A double_divide B))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(inverse(A)) double_divide B)) = inverse(inverse(B)) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B)) double_divide A = inverse(inverse(inverse(inverse(A)) double_divide B))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A double_divide B)) = inverse(inverse(A)) double_divide 
% inverse(inverse(B))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A)) double_divide inverse(inverse(B)) = inverse(inverse(
% A double_divide B))
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(inverse(A) double_divide (inverse(B) double_divide B)))
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(inverse(A)) double_divide (inverse(B) double_divide B))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide (inverse(B) double_divide B))) = A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A)) double_divide (inverse(B) double_divide B)) = A
% is true and the solution is the identity
% The current conjecture 
% inverse((inverse(C) double_divide C) double_divide A) = (A double_divide B) double_divide B
% is true and the solution is the identity
% The current conjecture 
% (A double_divide B) double_divide B = inverse((inverse(C) double_divide C) double_divide A)
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(inverse(A)) double_divide (inverse(B) double_divide B))
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(inverse(A))) double_divide (inverse(B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A)) double_divide (inverse(B) double_divide B)) = A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A))) double_divide (inverse(B) double_divide B) = A
% is true and the solution is the identity
% The current conjecture 
% (A double_divide B) double_divide B = inverse(A) double_divide (inverse(C) double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide (inverse(C) double_divide C) = (A double_divide B) double_divide B
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(inverse((inverse(A) double_divide A) double_divide B)))
% is true and the solution is the identity
% The current conjecture B = 
% inverse((inverse(inverse(inverse(A))) double_divide A) double_divide B)
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(inverse(inverse(A) double_divide A)) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse((inverse(A) double_divide A) double_divide B))) = B
% is true and the solution is the identity
% The current conjecture 
% inverse((inverse(inverse(inverse(A))) double_divide A) double_divide B) = B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(inverse(A) double_divide A)) double_divide B) = B
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(inverse(A) double_divide (inverse(B) double_divide B)))
% is true and the solution is the identity
% The current conjecture A = 
% inverse(A) double_divide (inverse(inverse(inverse(B))) double_divide B)
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(inverse(A))) double_divide (inverse(B) double_divide B)
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(inverse(A) double_divide A)) double_divide inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide (inverse(B) double_divide B))) = A
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide (inverse(inverse(inverse(B))) double_divide B) = A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A))) double_divide (inverse(B) double_divide B) = A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A) double_divide A)) double_divide inverse(B) = B
% is true and the solution is the identity
% The current conjecture 
% A double_divide B = (A multiply B) double_divide (inverse(C) double_divide C)
% is true and the solution is the identity
% The current conjecture 
% (A multiply B) double_divide (inverse(C) double_divide C) = A double_divide B
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(inverse(A)) double_divide (inverse(B) double_divide A))
% is true and the solution is the identity
% The current conjecture B = 
% inverse(inverse(A) double_divide (inverse(A) double_divide inverse(B)))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(A)) double_divide (inverse(B) double_divide A)) = B
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide (inverse(A) double_divide inverse(B))) = B
% is true and the solution is the identity
% The current conjecture A = 
% inverse(B) double_divide (inverse(inverse(A)) double_divide inverse(B))
% is true and the solution is the identity
% The current conjecture A = 
% inverse(inverse(B)) double_divide (inverse(inverse(A)) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(B) double_divide (inverse(inverse(A)) double_divide inverse(B)) = A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(B)) double_divide (inverse(inverse(A)) double_divide B) = A
% is true and the solution is the identity
% The current conjecture 
% (A double_divide C) double_divide C = inverse(A) double_divide (inverse(B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide (inverse(B) double_divide B) = (A double_divide C) double_divide C
% is true and the solution is the identity
% The current conjecture 
% (A double_divide B) double_divide A = inverse(B) double_divide (inverse(C) double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(B) double_divide (inverse(C) double_divide C) = (A double_divide B) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(C)) double_divide B = ((A double_divide B) double_divide A) double_divide C
% is true and the solution is the identity
% The current conjecture 
% ((A double_divide B) double_divide A) double_divide C = inverse(inverse(C)) double_divide B
% is true and the solution is the identity
% The current conjecture 
% B double_divide C = (A multiply B) double_divide (inverse(C) double_divide A)
% is true and the solution is the identity
% The current conjecture 
% A double_divide C = (A multiply B) double_divide (inverse(C) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% (A multiply B) double_divide (inverse(C) double_divide B) = A double_divide C
% is true and the solution is the identity
% The current conjecture 
% (A multiply B) double_divide (inverse(C) double_divide A) = B double_divide C
% is true and the solution is the identity
% The current conjecture 
% inverse(C) double_divide C = ((inverse(A) double_divide A) double_divide B) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(C) double_divide C = ((inverse(A) double_divide B) double_divide B) double_divide A
% is true and the solution is the identity
% The current conjecture 
% ((inverse(A) double_divide A) double_divide B) double_divide B = inverse(C) double_divide C
% is true and the solution is the identity
% The current conjecture 
% ((inverse(A) double_divide B) double_divide B) double_divide A = inverse(C) double_divide C
% is true and the solution is the identity
% The current conjecture 
% inverse(C) double_divide C = ((inverse(A) double_divide A) double_divide B) double_divide B
% is true and the solution is the identity
% The current conjecture 
% ((inverse(A) double_divide A) double_divide B) double_divide B = inverse(C) double_divide C
% is true and the solution is the identity
% The current conjecture 
% inverse(B) = inverse(inverse(inverse(inverse(A) double_divide A) double_divide B))
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(inverse(inverse(A) double_divide A) double_divide B)) = 
% inverse(B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) = inverse(inverse(A)) double_divide inverse(inverse(B) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A)) double_divide inverse(inverse(B) double_divide B) = 
% inverse(A)
% is true and the solution is the identity
% The current conjecture 
% inverse((A double_divide B) double_divide C) = inverse(A) multiply (inverse(C) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse((A double_divide B) double_divide C) = inverse(A) multiply (inverse(C) double_divide B)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) multiply (inverse(C) double_divide B) = inverse((A double_divide B) double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) multiply (inverse(C) double_divide B) = inverse((A double_divide B) double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide B = ((inverse(C) double_divide B) double_divide A) double_divide C
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide ((A double_divide B) double_divide C) = inverse(C) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(C) double_divide B = inverse(A) double_divide ((A double_divide B) double_divide C)
% is true and the solution is the identity
% The current conjecture 
% ((inverse(C) double_divide B) double_divide A) double_divide C = inverse(A) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide A = ((inverse(B) double_divide C) double_divide C) double_divide B
% is true and the solution is the identity
% The current conjecture 
% ((inverse(B) double_divide C) double_divide C) double_divide B = inverse(A) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse((A double_divide B) double_divide C) = inverse(inverse(C) double_divide B) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(C) double_divide B) double_divide A = inverse((A double_divide B) double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide B) double_divide inverse(C) = (inverse(B) double_divide C) double_divide A
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide B) double_divide inverse(C) = (inverse(A) double_divide C) double_divide B
% is true and the solution is the identity
% The current conjecture 
% (inverse(B) double_divide C) double_divide A = inverse(A double_divide B) double_divide 
% inverse(C)
% is true and the solution is the identity
% The current conjecture 
% (inverse(A) double_divide C) double_divide B = inverse(A double_divide B) double_divide 
% inverse(C)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide B = ((inverse(C) double_divide C) double_divide A) double_divide B
% is true and the solution is the identity
% The current conjecture 
% ((inverse(C) double_divide C) double_divide A) double_divide B = inverse(A) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(B double_divide C) = (inverse(A) double_divide B) double_divide 
% (A double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide C = inverse((A double_divide B) double_divide C) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(A) double_divide ((A double_divide B) double_divide C) = inverse(C) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(C) double_divide B = inverse(A) double_divide ((A double_divide B) double_divide C)
% is true and the solution is the identity
% The current conjecture 
% (inverse(A) double_divide B) double_divide (A double_divide C) = inverse(
% B double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse((A double_divide B) double_divide C) double_divide B = inverse(A) double_divide C
% is true and the solution is the identity
% The current conjecture 
% inverse(B) double_divide C = ((inverse(A) double_divide A) double_divide B) double_divide C
% is true and the solution is the identity
% The current conjecture 
% ((inverse(A) double_divide A) double_divide B) double_divide C = inverse(B) double_divide C
% is true and the solution is the identity
% The current conjecture 
% inverse(C) double_divide B = ((inverse(A) double_divide B) double_divide C) double_divide A
% is true and the solution is the identity
% The current conjecture 
% ((inverse(A) double_divide B) double_divide C) double_divide A = inverse(C) double_divide B
% is true and the solution is the identity
% The current conjecture 
% inverse(B double_divide C) = (inverse(A) double_divide B) double_divide 
% (A double_divide C)
% is true and the solution is the identity
% The current conjecture 
% (inverse(A) double_divide B) double_divide (A double_divide C) = inverse(
% B double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(A double_divide C) = (inverse(A) multiply B) double_divide (B double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse(B double_divide C) = (inverse(B) multiply A) double_divide (A double_divide C)
% is true and the solution is the identity
% The current conjecture 
% (inverse(A) multiply B) double_divide (B double_divide C) = inverse(A double_divide C)
% is true and the solution is the identity
% The current conjecture 
% (inverse(B) multiply A) double_divide (A double_divide C) = inverse(B double_divide C)
% is true and the solution is the identity
% The current conjecture 
% inverse((B double_divide C) double_divide A) = inverse(inverse(A) double_divide B) double_divide C
% is true and the solution is the identity
% The current conjecture 
% inverse(inverse(A) double_divide B) double_divide C = inverse((B double_divide C) double_divide A)
% is true and the solution is the identity
% The current conjecture 
% inverse(B double_divide C) = (inverse(A) double_divide B) double_divide 
% (A double_divide C)
% is true and the solution is the identity
% The current conjecture 
% (inverse(A) double_divide B) double_divide (A double_divide C) = inverse(
% B double_divide C)
% is true and the solution is the identity
% 
% New rule produced :
% [628]
% (eq)(inverse((inverse(B) double_divide A) double_divide (B double_divide C)),
% A double_divide C) -> (true)
% Current number of equations to process: 905
% Current number of ordered equations: 0
% Current number of rules: 628
% New rule produced :
% [629] A <-> inverse(inverse(inverse(inverse(inverse(inverse(A))))))
% Current number of equations to process: 951
% Current number of ordered equations: 1
% Current number of rules: 629
% New rule produced :
% [630] inverse(inverse(inverse(inverse(inverse(inverse(A)))))) <-> A
% Current number of equations to process: 951
% Current number of ordered equations: 0
% Current number of rules: 630
% New rule produced :
% [631]
% inverse(inverse(inverse(inverse(A)))) <-> (A double_divide B) double_divide B
% Current number of equations to process: 950
% Current number of ordered equations: 1
% Current number of rules: 631
% New rule produced :
% [632]
% (A double_divide B) double_divide B <-> inverse(inverse(inverse(inverse(A))))
% Current number of equations to process: 950
% Current number of ordered equations: 0
% Current number of rules: 632
% New rule produced :
% [633] (eq)(A double_divide B,inverse(A multiply B)) -> (true)
% Current number of equations to process: 969
% Current number of ordered equations: 0
% Current number of rules: 633
% New rule produced :
% [634]
% inverse(A double_divide B) <->
% inverse(inverse(inverse(inverse(A multiply B))))
% Current number of equations to process: 973
% Current number of ordered equations: 1
% Current number of rules: 634
% New rule produced :
% [635]
% inverse(inverse(inverse(inverse(A multiply B)))) <->
% inverse(A double_divide B)
% Current number of equations to process: 973
% Current number of ordered equations: 0
% Current number of rules: 635
% New rule produced :
% [636] inverse(inverse(inverse(A multiply B))) <-> A double_divide B
% Rule
% [635]
% inverse(inverse(inverse(inverse(A multiply B)))) <->
% inverse(A double_divide B) collapsed.
% Current number of equations to process: 995
% Current number of ordered equations: 1
% Current number of rules: 635
% New rule produced :
% [637] A double_divide B <-> inverse(inverse(inverse(A multiply B)))
% Rule
% [634]
% inverse(A double_divide B) <->
% inverse(inverse(inverse(inverse(A multiply B)))) collapsed.
% Current number of equations to process: 995
% Current number of ordered equations: 0
% Current number of rules: 635
% New rule produced :
% [638]
% inverse(inverse(inverse(A))) <-> (inverse(B) double_divide B) double_divide A
% Current number of equations to process: 995
% Current number of ordered equations: 1
% Current number of rules: 636
% New rule produced :
% [639]
% (inverse(B) double_divide B) double_divide A <-> inverse(inverse(inverse(A)))
% Current number of equations to process: 995
% Current number of ordered equations: 0
% Current number of rules: 637
% New rule produced : [640] (eq)(inverse(inverse(A)),A) -> (true)
% Current number of equations to process: 1012
% Current number of ordered equations: 0
% Current number of rules: 638
% New rule produced : [641] A <-> inverse((A double_divide B) multiply B)
% Current number of equations to process: 1036
% Current number of ordered equations: 3
% Current number of rules: 639
% New rule produced : [642] B <-> inverse(A multiply B) double_divide A
% Current number of equations to process: 1036
% Current number of ordered equations: 2
% Current number of rules: 640
% New rule produced : [643] inverse((A double_divide B) multiply B) <-> A
% Current number of equations to process: 1036
% Current number of ordered equations: 1
% Current number of rules: 641
% New rule produced : [644] inverse(A multiply B) double_divide A <-> B
% Current number of equations to process: 1036
% Current number of ordered equations: 0
% Current number of rules: 642
% New rule produced :
% [645] inverse(inverse(B) multiply B) <-> inverse(A) double_divide A
% Current number of equations to process: 1035
% Current number of ordered equations: 1
% Current number of rules: 643
% New rule produced :
% [646] inverse(A) double_divide A <-> inverse(inverse(B) multiply B)
% Current number of equations to process: 1035
% Current number of ordered equations: 0
% Current number of rules: 644
% New rule produced :
% [647] inverse(inverse(A multiply B)) <-> inverse(A) double_divide inverse(B)
% Current number of equations to process: 1038
% Current number of ordered equations: 1
% Current number of rules: 645
% New rule produced :
% [648] inverse(A) double_divide inverse(B) <-> inverse(inverse(A multiply B))
% Current number of equations to process: 1038
% Current number of ordered equations: 0
% Current number of rules: 646
% New rule produced :
% [649] inverse(inverse(inverse(A) multiply B)) <-> inverse(B) double_divide A
% Current number of equations to process: 1045
% Current number of ordered equations: 1
% Current number of rules: 647
% New rule produced :
% [650] inverse(B) double_divide A <-> inverse(inverse(inverse(A) multiply B))
% Current number of equations to process: 1045
% Current number of ordered equations: 0
% Current number of rules: 648
% New rule produced :
% [651] inverse(A double_divide B) <-> inverse(inverse(A) multiply inverse(B))
% Current number of equations to process: 1044
% Current number of ordered equations: 1
% Current number of rules: 649
% New rule produced :
% [652] inverse(inverse(A) multiply inverse(B)) <-> inverse(A double_divide B)
% Current number of equations to process: 1044
% Current number of ordered equations: 0
% Current number of rules: 650
% New rule produced :
% [653] (eq)(A multiply B,inverse(A double_divide B)) -> (true)
% Current number of equations to process: 1053
% Current number of ordered equations: 0
% Current number of rules: 651
% New rule produced :
% [654] B <-> inverse(inverse((inverse(A) double_divide A) multiply B))
% Current number of equations to process: 1051
% Current number of ordered equations: 3
% Current number of rules: 652
% New rule produced :
% [655] B <-> inverse(inverse(inverse(A) multiply A) double_divide B)
% Current number of equations to process: 1051
% Current number of ordered equations: 2
% Current number of rules: 653
% New rule produced :
% [656] inverse(inverse((inverse(A) double_divide A) multiply B)) <-> B
% Current number of equations to process: 1051
% Current number of ordered equations: 1
% Current number of rules: 654
% New rule produced :
% [657] inverse(inverse(inverse(A) multiply A) double_divide B) <-> B
% Current number of equations to process: 1051
% Current number of ordered equations: 0
% Current number of rules: 655
% New rule produced :
% [658] A <-> inverse(inverse(A) multiply (inverse(B) double_divide B))
% Current number of equations to process: 1049
% Current number of ordered equations: 3
% Current number of rules: 656
% New rule produced :
% [659] B <-> inverse(inverse(A) multiply A) double_divide inverse(B)
% Current number of equations to process: 1049
% Current number of ordered equations: 2
% Current number of rules: 657
% New rule produced :
% [660] inverse(inverse(A) multiply (inverse(B) double_divide B)) <-> A
% Current number of equations to process: 1049
% Current number of ordered equations: 1
% Current number of rules: 658
% New rule produced :
% [661] inverse(inverse(A) multiply A) double_divide inverse(B) <-> B
% Current number of equations to process: 1049
% Current number of ordered equations: 0
% Current number of rules: 659
% New rule produced :
% [662]
% inverse(A multiply B) <->
% ((A double_divide B) double_divide C) double_divide C
% Current number of equations to process: 1053
% Current number of ordered equations: 1
% Current number of rules: 660
% New rule produced :
% [663]
% ((A double_divide B) double_divide C) double_divide C <->
% inverse(A multiply B)
% Current number of equations to process: 1053
% Current number of ordered equations: 0
% Current number of rules: 661
% New rule produced :
% [664] inverse(inverse(b1 multiply inverse(b1))) <-> a1 multiply inverse(a1)
% Current number of equations to process: 1071
% Current number of ordered equations: 5
% Current number of rules: 662
% New rule produced :
% [665] b1 multiply inverse(inverse(inverse(b1))) <-> a1 multiply inverse(a1)
% Current number of equations to process: 1071
% Current number of ordered equations: 4
% Current number of rules: 663
% New rule produced :
% [666] inverse(b1) multiply inverse(inverse(b1)) <-> a1 multiply inverse(a1)
% Current number of equations to process: 1071
% Current number of ordered equations: 3
% Current number of rules: 664
% New rule produced :
% [667] a1 multiply inverse(a1) <-> inverse(inverse(b1 multiply inverse(b1)))
% Current number of equations to process: 1071
% Current number of ordered equations: 2
% Current number of rules: 665
% New rule produced :
% [668] a1 multiply inverse(a1) <-> b1 multiply inverse(inverse(inverse(b1)))
% Current number of equations to process: 1071
% Current number of ordered equations: 1
% Current number of rules: 666
% New rule produced :
% [669] a1 multiply inverse(a1) <-> inverse(b1) multiply inverse(inverse(b1))
% Current number of equations to process: 1071
% Current number of ordered equations: 0
% Current number of rules: 667
% New rule produced :
% [670] inverse(inverse(a1 multiply inverse(a1))) <-> b1 multiply inverse(b1)
% Current number of equations to process: 1094
% Current number of ordered equations: 5
% Current number of rules: 668
% New rule produced :
% [671] b1 multiply inverse(b1) <-> inverse(inverse(a1 multiply inverse(a1)))
% Current number of equations to process: 1094
% Current number of ordered equations: 4
% Current number of rules: 669
% New rule produced :
% [672] b1 multiply inverse(b1) <-> a1 multiply inverse(inverse(inverse(a1)))
% Current number of equations to process: 1094
% Current number of ordered equations: 3
% Current number of rules: 670
% New rule produced :
% [673] b1 multiply inverse(b1) <-> inverse(a1) multiply inverse(inverse(a1))
% Current number of equations to process: 1094
% Current number of ordered equations: 2
% Current number of rules: 671
% New rule produced :
% [674] a1 multiply inverse(inverse(inverse(a1))) <-> b1 multiply inverse(b1)
% Current number of equations to process: 1094
% Current number of ordered equations: 1
% Current number of rules: 672
% New rule produced :
% [675] inverse(a1) multiply inverse(inverse(a1)) <-> b1 multiply inverse(b1)
% Current number of equations to process: 1094
% Current number of ordered equations: 0
% Current number of rules: 673
% New rule produced : [676] A <-> (inverse(A) double_divide B) multiply B
% Current number of equations to process: 1119
% Current number of ordered equations: 1
% Current number of rules: 674
% New rule produced : [677] (inverse(A) double_divide B) multiply B <-> A
% Current number of equations to process: 1119
% Current number of ordered equations: 0
% Current number of rules: 675
% New rule produced :
% [678] inverse(inverse(inverse(A))) <-> (A double_divide B) multiply B
% Current number of equations to process: 1124
% Current number of ordered equations: 1
% Current number of rules: 676
% New rule produced :
% [679] (A double_divide B) multiply B <-> inverse(inverse(inverse(A)))
% Current number of equations to process: 1124
% Current number of ordered equations: 0
% Current number of rules: 677
% New rule produced :
% [680] (A double_divide B) multiply B <-> (A double_divide C) multiply C
% Current number of equations to process: 1123
% Current number of ordered equations: 0
% Current number of rules: 678
% New rule produced :
% [681]
% (A double_divide C) multiply C <->
% (inverse(A) double_divide B) double_divide B
% Current number of equations to process: 1131
% Current number of ordered equations: 1
% Current number of rules: 679
% New rule produced :
% [682]
% (inverse(A) double_divide B) double_divide B <->
% (A double_divide C) multiply C
% Current number of equations to process: 1131
% Current number of ordered equations: 0
% Current number of rules: 680
% New rule produced :
% [683] A multiply B <-> ((A double_divide B) double_divide C) multiply C
% Current number of equations to process: 1130
% Current number of ordered equations: 1
% Current number of rules: 681
% New rule produced :
% [684] ((A double_divide B) double_divide C) multiply C <-> A multiply B
% Current number of equations to process: 1130
% Current number of ordered equations: 0
% Current number of rules: 682
% New rule produced :
% [685]
% inverse(C) double_divide C <->
% ((A double_divide B) multiply B) double_divide A
% Current number of equations to process: 1132
% Current number of ordered equations: 1
% Current number of rules: 683
% New rule produced :
% [686]
% ((A double_divide B) multiply B) double_divide A <->
% inverse(C) double_divide C
% Current number of equations to process: 1132
% Current number of ordered equations: 0
% Current number of rules: 684
% New rule produced :
% [687] inverse(inverse(B)) <-> (inverse(A) double_divide A) multiply B
% Current number of equations to process: 1160
% Current number of ordered equations: 1
% Current number of rules: 685
% New rule produced :
% [688] (inverse(A) double_divide A) multiply B <-> inverse(inverse(B))
% Current number of equations to process: 1160
% Current number of ordered equations: 0
% Current number of rules: 686
% New rule produced :
% [689] inverse(A) <-> inverse(inverse(A double_divide B)) multiply B
% Current number of equations to process: 1166
% Current number of ordered equations: 1
% Current number of rules: 687
% New rule produced :
% [690] inverse(inverse(A double_divide B)) multiply B <-> inverse(A)
% Current number of equations to process: 1166
% Current number of ordered equations: 0
% Current number of rules: 688
% New rule produced :
% [691] (eq)(A,(inverse(A) double_divide B) multiply B) -> (true)
% Current number of equations to process: 1167
% Current number of ordered equations: 1
% Current number of rules: 689
% New rule produced :
% [692] (eq)(A,inverse((A double_divide B) multiply B)) -> (true)
% Current number of equations to process: 1167
% Current number of ordered equations: 0
% Current number of rules: 690
% New rule produced :
% [693]
% inverse(inverse(inverse(inverse(inverse(A))))) <->
% (A double_divide B) multiply B
% Current number of equations to process: 1166
% Current number of ordered equations: 1
% Current number of rules: 691
% New rule produced :
% [694]
% (A double_divide B) multiply B <->
% inverse(inverse(inverse(inverse(inverse(A)))))
% Current number of equations to process: 1166
% Current number of ordered equations: 0
% Current number of rules: 692
% New rule produced :
% [695] A <-> inverse(inverse(inverse((A double_divide B) multiply B)))
% Current number of equations to process: 1162
% Current number of ordered equations: 7
% Current number of rules: 693
% New rule produced :
% [696] A <-> inverse((inverse(inverse(A)) double_divide B) multiply B)
% Current number of equations to process: 1162
% Current number of ordered equations: 6
% Current number of rules: 694
% New rule produced :
% [697] A <-> inverse(inverse((inverse(A) double_divide B) multiply B))
% Current number of equations to process: 1162
% Current number of ordered equations: 5
% Current number of rules: 695
% New rule produced :
% [698] A <-> (inverse(inverse(inverse(A))) double_divide B) multiply B
% Current number of equations to process: 1162
% Current number of ordered equations: 4
% Current number of rules: 696
% New rule produced :
% [699] inverse(inverse(inverse((A double_divide B) multiply B))) <-> A
% Current number of equations to process: 1162
% Current number of ordered equations: 3
% Current number of rules: 697
% New rule produced :
% [700] inverse((inverse(inverse(A)) double_divide B) multiply B) <-> A
% Current number of equations to process: 1162
% Current number of ordered equations: 2
% Current number of rules: 698
% New rule produced :
% [701] inverse(inverse((inverse(A) double_divide B) multiply B)) <-> A
% Current number of equations to process: 1162
% Current number of ordered equations: 1
% Current number of rules: 699
% New rule produced :
% [702] (inverse(inverse(inverse(A))) double_divide B) multiply B <-> A
% Current number of equations to process: 1162
% Current number of ordered equations: 0
% Current number of rules: 700
% New rule produced :
% [703] A double_divide B <-> ((A multiply B) double_divide C) multiply C
% Current number of equations to process: 1161
% Current number of ordered equations: 1
% Current number of rules: 701
% New rule produced :
% [704] ((A multiply B) double_divide C) multiply C <-> A double_divide B
% Current number of equations to process: 1161
% Current number of ordered equations: 0
% Current number of rules: 702
% New rule produced :
% [705] inverse(inverse(B)) <-> inverse(inverse(A) double_divide B) multiply A
% Current number of equations to process: 1160
% Current number of ordered equations: 1
% Current number of rules: 703
% New rule produced :
% [706] inverse(inverse(A) double_divide B) multiply A <-> inverse(inverse(B))
% Current number of equations to process: 1160
% Current number of ordered equations: 0
% Current number of rules: 704
% New rule produced :
% [707] inverse(inverse(B)) <-> inverse(A double_divide B) multiply inverse(A)
% Current number of equations to process: 1158
% Current number of ordered equations: 2
% Current number of rules: 705
% New rule produced :
% [708] inverse(A double_divide B) multiply inverse(B) <-> inverse(inverse(A))
% Current number of equations to process: 1158
% Current number of ordered equations: 0
% Current number of rules: 706
% New rule produced :
% [709]
% a1 multiply inverse(a1) <-> b1 multiply ((b1 double_divide A) multiply A)
% Current number of equations to process: 1159
% Current number of ordered equations: 1
% Current number of rules: 707
% New rule produced :
% [710]
% b1 multiply ((b1 double_divide A) multiply A) <-> a1 multiply inverse(a1)
% Current number of equations to process: 1159
% Current number of ordered equations: 0
% Current number of rules: 708
% New rule produced :
% [711]
% b1 multiply inverse(b1) <-> a1 multiply ((a1 double_divide A) multiply A)
% Current number of equations to process: 1158
% Current number of ordered equations: 1
% Current number of rules: 709
% New rule produced :
% [712]
% a1 multiply ((a1 double_divide A) multiply A) <-> b1 multiply inverse(b1)
% Current number of equations to process: 1158
% Current number of ordered equations: 0
% Current number of rules: 710
% New rule produced :
% [713] inverse(A) <-> inverse(inverse(A) double_divide B) multiply inverse(B)
% Current number of equations to process: 1157
% Current number of ordered equations: 1
% Current number of rules: 711
% New rule produced :
% [714] inverse(inverse(A) double_divide B) multiply inverse(B) <-> inverse(A)
% Current number of equations to process: 1157
% Current number of ordered equations: 0
% Current number of rules: 712
% New rule produced : [715] inverse(B) <-> inverse(A multiply B) multiply A
% Current number of equations to process: 1173
% Current number of ordered equations: 2
% Current number of rules: 713
% New rule produced : [716] inverse(A multiply B) multiply B <-> inverse(A)
% Current number of equations to process: 1173
% Current number of ordered equations: 0
% Current number of rules: 714
% New rule produced :
% [717] inverse(B) double_divide A <-> inverse(inverse(inverse(A))) multiply B
% Current number of equations to process: 1172
% Current number of ordered equations: 1
% Current number of rules: 715
% New rule produced :
% [718] inverse(inverse(inverse(A))) multiply B <-> inverse(B) double_divide A
% Current number of equations to process: 1172
% Current number of ordered equations: 0
% Current number of rules: 716
% New rule produced :
% [719]
% (A multiply B) multiply C <-> inverse(C) double_divide (A double_divide B)
% Current number of equations to process: 1172
% Current number of ordered equations: 1
% Current number of rules: 717
% New rule produced :
% [720]
% inverse(C) double_divide (A double_divide B) <-> (A multiply B) multiply C
% Current number of equations to process: 1172
% Current number of ordered equations: 0
% Current number of rules: 718
% New rule produced :
% [721] a1 multiply inverse(a1) <-> b1 double_divide inverse(b1)
% Current number of equations to process: 1197
% Current number of ordered equations: 1
% Current number of rules: 719
% New rule produced :
% [722] b1 double_divide inverse(b1) <-> a1 multiply inverse(a1)
% Current number of equations to process: 1197
% Current number of ordered equations: 0
% Current number of rules: 720
% New rule produced :
% [723] b1 multiply inverse(b1) <-> a1 double_divide inverse(a1)
% Current number of equations to process: 1196
% Current number of ordered equations: 1
% Current number of rules: 721
% New rule produced :
% [724] a1 double_divide inverse(a1) <-> b1 multiply inverse(b1)
% Current number of equations to process: 1196
% Current number of ordered equations: 0
% Current number of rules: 722
% New rule produced :
% [725] inverse(B) multiply B <-> inverse(A) double_divide A
% Rule [721] a1 multiply inverse(a1) <-> b1 double_divide inverse(b1)
% collapsed.
% Rule [723] b1 multiply inverse(b1) <-> a1 double_divide inverse(a1)
% collapsed.
% Current number of equations to process: 1195
% Current number of ordered equations: 1
% Current number of rules: 721
% New rule produced :
% [726] inverse(A) double_divide A <-> inverse(B) multiply B
% Rule [722] b1 double_divide inverse(b1) <-> a1 multiply inverse(a1)
% collapsed.
% Rule [724] a1 double_divide inverse(a1) <-> b1 multiply inverse(b1)
% collapsed.
% Current number of equations to process: 1195
% Current number of ordered equations: 0
% Current number of rules: 720
% New rule produced :
% [727] A double_divide B <-> inverse(A) multiply inverse(B)
% Rule
% [651] inverse(A double_divide B) <-> inverse(inverse(A) multiply inverse(B))
% collapsed.
% Current number of equations to process: 1201
% Current number of ordered equations: 1
% Current number of rules: 720
% New rule produced :
% [728] inverse(A) multiply inverse(B) <-> A double_divide B
% Rule
% [652] inverse(inverse(A) multiply inverse(B)) <-> inverse(A double_divide B)
% collapsed.
% Current number of equations to process: 1201
% Current number of ordered equations: 0
% Current number of rules: 720
% New rule produced :
% [729] inverse(inverse(A) multiply B) <-> inverse(B) multiply A
% Current number of equations to process: 1211
% Current number of ordered equations: 1
% Current number of rules: 721
% New rule produced :
% [730] inverse(B) multiply A <-> inverse(inverse(A) multiply B)
% Current number of equations to process: 1211
% Current number of ordered equations: 0
% Current number of rules: 722
% New rule produced :
% [731] inverse(B) <-> (inverse(A) multiply B) double_divide A
% Current number of equations to process: 1210
% Current number of ordered equations: 1
% Current number of rules: 723
% New rule produced :
% [732] (inverse(A) multiply B) double_divide A <-> inverse(B)
% Current number of equations to process: 1210
% Current number of ordered equations: 0
% Current number of rules: 724
% New rule produced :
% [733] inverse(A double_divide B) <-> inverse(inverse(B)) multiply A
% Current number of equations to process: 1208
% Current number of ordered equations: 3
% Current number of rules: 725
% New rule produced :
% [734] inverse(A double_divide B) <-> inverse(inverse(A)) multiply B
% Current number of equations to process: 1208
% Current number of ordered equations: 2
% Current number of rules: 726
% New rule produced :
% [735] inverse(inverse(B)) multiply A <-> inverse(A double_divide B)
% Current number of equations to process: 1208
% Current number of ordered equations: 1
% Current number of rules: 727
% New rule produced :
% [736] inverse(inverse(A)) multiply B <-> inverse(A double_divide B)
% Current number of equations to process: 1208
% Current number of ordered equations: 0
% Current number of rules: 728
% New rule produced :
% [737] inverse(inverse(B)) multiply A <-> inverse(inverse(A)) multiply B
% Current number of equations to process: 1207
% Current number of ordered equations: 0
% Current number of rules: 729
% New rule produced :
% [738] A <-> inverse(inverse(B) double_divide A) multiply B
% Current number of equations to process: 1205
% Current number of ordered equations: 3
% Current number of rules: 730
% New rule produced :
% [739] A <-> (inverse(A) multiply B) double_divide inverse(B)
% Current number of equations to process: 1205
% Current number of ordered equations: 2
% Current number of rules: 731
% New rule produced :
% [740] inverse(inverse(B) double_divide A) multiply B <-> A
% Current number of equations to process: 1205
% Current number of ordered equations: 1
% Current number of rules: 732
% New rule produced :
% [741] (inverse(A) multiply B) double_divide inverse(B) <-> A
% Current number of equations to process: 1205
% Current number of ordered equations: 0
% Current number of rules: 733
% New rule produced :
% [742] B <-> inverse((inverse(A) multiply A) double_divide B)
% Current number of equations to process: 1204
% Current number of ordered equations: 1
% Current number of rules: 734
% New rule produced :
% [743] inverse((inverse(A) multiply A) double_divide B) <-> B
% Current number of equations to process: 1204
% Current number of ordered equations: 0
% Current number of rules: 735
% New rule produced :
% [744] A <-> inverse(inverse(B) double_divide B) multiply A
% Current number of equations to process: 1202
% Current number of ordered equations: 3
% Current number of rules: 736
% New rule produced :
% [745] B <-> (inverse(A) multiply A) double_divide inverse(B)
% Current number of equations to process: 1202
% Current number of ordered equations: 2
% Current number of rules: 737
% New rule produced :
% [746] inverse(inverse(B) double_divide B) multiply A <-> A
% Current number of equations to process: 1202
% Current number of ordered equations: 1
% Current number of rules: 738
% New rule produced :
% [747] (inverse(A) multiply A) double_divide inverse(B) <-> B
% Current number of equations to process: 1202
% Current number of ordered equations: 0
% Current number of rules: 739
% New rule produced :
% [748] inverse(B) multiply A <-> inverse(inverse(inverse(A))) double_divide B
% Current number of equations to process: 1214
% Current number of ordered equations: 1
% Current number of rules: 740
% New rule produced :
% [749] inverse(inverse(inverse(A))) double_divide B <-> inverse(B) multiply A
% Current number of equations to process: 1214
% Current number of ordered equations: 0
% Current number of rules: 741
% New rule produced :
% [750] inverse(A) double_divide A <-> inverse(inverse(inverse(B))) multiply B
% Current number of equations to process: 1213
% Current number of ordered equations: 1
% Current number of rules: 742
% New rule produced :
% [751] inverse(inverse(inverse(B))) multiply B <-> inverse(A) double_divide A
% Current number of equations to process: 1213
% Current number of ordered equations: 0
% Current number of rules: 743
% New rule produced :
% [752] A multiply B <-> inverse(inverse(inverse(A))) double_divide inverse(B)
% Current number of equations to process: 1225
% Current number of ordered equations: 1
% Current number of rules: 744
% New rule produced :
% [753] inverse(inverse(inverse(A))) double_divide inverse(B) <-> A multiply B
% Current number of equations to process: 1225
% Current number of ordered equations: 0
% Current number of rules: 745
% New rule produced :
% [754]
% (A double_divide B) multiply C <-> (A multiply B) double_divide inverse(C)
% Current number of equations to process: 1224
% Current number of ordered equations: 1
% Current number of rules: 746
% New rule produced :
% [755]
% (A multiply B) double_divide inverse(C) <-> (A double_divide B) multiply C
% Current number of equations to process: 1224
% Current number of ordered equations: 0
% Current number of rules: 747
% New rule produced :
% [756]
% (A multiply B) double_divide C <-> inverse(C) multiply (A double_divide B)
% Current number of equations to process: 1223
% Current number of ordered equations: 1
% Current number of rules: 748
% New rule produced :
% [757]
% inverse(C) multiply (A double_divide B) <-> (A multiply B) double_divide C
% Current number of equations to process: 1223
% Current number of ordered equations: 0
% Current number of rules: 749
% New rule produced :
% [758]
% inverse(inverse(A) multiply B) <->
% inverse(inverse(B)) double_divide inverse(A)
% Current number of equations to process: 1222
% Current number of ordered equations: 1
% Current number of rules: 750
% New rule produced :
% [759]
% inverse(inverse(B)) double_divide inverse(A) <->
% inverse(inverse(A) multiply B)
% Current number of equations to process: 1222
% Current number of ordered equations: 0
% Current number of rules: 751
% New rule produced :
% [760]
% inverse(inverse(inverse(A)) multiply B) <->
% inverse(inverse(B)) double_divide A
% Current number of equations to process: 1221
% Current number of ordered equations: 1
% Current number of rules: 752
% New rule produced :
% [761]
% inverse(inverse(B)) double_divide A <->
% inverse(inverse(inverse(A)) multiply B)
% Current number of equations to process: 1221
% Current number of ordered equations: 0
% Current number of rules: 753
% New rule produced :
% [762]
% inverse(inverse(inverse(A)) double_divide B) <->
% inverse(inverse(B)) multiply A
% Current number of equations to process: 1220
% Current number of ordered equations: 1
% Current number of rules: 754
% New rule produced :
% [763]
% inverse(inverse(B)) multiply A <->
% inverse(inverse(inverse(A)) double_divide B)
% Current number of equations to process: 1220
% Current number of ordered equations: 0
% Current number of rules: 755
% New rule produced :
% [764]
% inverse(C) double_divide A <-> ((A double_divide B) multiply B) multiply C
% Current number of equations to process: 1228
% Current number of ordered equations: 1
% Current number of rules: 756
% New rule produced :
% [765]
% ((A double_divide B) multiply B) multiply C <-> inverse(C) double_divide A
% Current number of equations to process: 1228
% Current number of ordered equations: 0
% Current number of rules: 757
% New rule produced :
% [766] inverse(inverse(B)) <-> (inverse(A) multiply B) multiply A
% Current number of equations to process: 1273
% Current number of ordered equations: 1
% Current number of rules: 758
% New rule produced :
% [767] (inverse(A) multiply B) multiply A <-> inverse(inverse(B))
% Current number of equations to process: 1273
% Current number of ordered equations: 0
% Current number of rules: 759
% New rule produced :
% [768] inverse(A) <-> (inverse(A) multiply B) multiply inverse(B)
% Current number of equations to process: 1274
% Current number of ordered equations: 1
% Current number of rules: 760
% New rule produced :
% [769] (inverse(A) multiply B) multiply inverse(B) <-> inverse(A)
% Current number of equations to process: 1274
% Current number of ordered equations: 0
% Current number of rules: 761
% New rule produced :
% [770] A double_divide B <-> inverse(inverse(inverse(A))) multiply inverse(B)
% Current number of equations to process: 1275
% Current number of ordered equations: 1
% Current number of rules: 762
% New rule produced :
% [771] inverse(inverse(inverse(A))) multiply inverse(B) <-> A double_divide B
% Current number of equations to process: 1275
% Current number of ordered equations: 0
% Current number of rules: 763
% New rule produced :
% [772]
% (A multiply B) multiply inverse(C) <-> (A double_divide B) double_divide C
% Current number of equations to process: 1274
% Current number of ordered equations: 1
% Current number of rules: 764
% New rule produced :
% [773]
% (A double_divide B) double_divide C <-> (A multiply B) multiply inverse(C)
% Current number of equations to process: 1274
% Current number of ordered equations: 0
% Current number of rules: 765
% New rule produced :
% [774]
% inverse(C) multiply A <-> ((A double_divide B) multiply B) double_divide C
% Current number of equations to process: 1278
% Current number of ordered equations: 1
% Current number of rules: 766
% New rule produced :
% [775]
% ((A double_divide B) multiply B) double_divide C <-> inverse(C) multiply A
% Current number of equations to process: 1278
% Current number of ordered equations: 0
% Current number of rules: 767
% New rule produced :
% [776]
% inverse((A double_divide B) double_divide B) <->
% (inverse(A) double_divide C) double_divide C
% Current number of equations to process: 1277
% Current number of ordered equations: 1
% Current number of rules: 768
% New rule produced :
% [777]
% (inverse(A) double_divide C) double_divide C <->
% inverse((A double_divide B) double_divide B)
% Current number of equations to process: 1277
% Current number of ordered equations: 0
% Current number of rules: 769
% New rule produced :
% [778] (eq)(A,(inverse(inverse(A)) double_divide B) double_divide B) -> (true)
% Current number of equations to process: 1278
% Current number of ordered equations: 1
% Current number of rules: 770
% New rule produced :
% [779] (eq)(A,inverse((inverse(A) double_divide B) double_divide B)) -> (true)
% Current number of equations to process: 1278
% Current number of ordered equations: 0
% Current number of rules: 771
% New rule produced :
% [780] (eq)((inverse(A) double_divide A) double_divide B,inverse(B)) -> (true)
% Current number of equations to process: 1277
% Current number of ordered equations: 0
% Current number of rules: 772
% New rule produced :
% [781]
% inverse(inverse(inverse(inverse(inverse(A double_divide B))))) <->
% A multiply B
% Current number of equations to process: 1276
% Current number of ordered equations: 1
% Current number of rules: 773
% New rule produced :
% [782]
% A multiply B <->
% inverse(inverse(inverse(inverse(inverse(A double_divide B)))))
% Current number of equations to process: 1276
% Current number of ordered equations: 0
% Current number of rules: 774
% New rule produced :
% [783]
% A <-> inverse(inverse(inverse(inverse((A double_divide B) double_divide B))))
% Current number of equations to process: 1274
% Current number of ordered equations: 3
% Current number of rules: 775
% New rule produced :
% [784]
% B <-> inverse(inverse(inverse(inverse(A double_divide B)))) double_divide A
% Current number of equations to process: 1274
% Current number of ordered equations: 2
% Current number of rules: 776
% New rule produced :
% [785]
% inverse(inverse(inverse(inverse((A double_divide B) double_divide B)))) <-> A
% Current number of equations to process: 1274
% Current number of ordered equations: 1
% Current number of rules: 777
% New rule produced :
% [786]
% inverse(inverse(inverse(inverse(A double_divide B)))) double_divide A <-> B
% Current number of equations to process: 1274
% Current number of ordered equations: 0
% Current number of rules: 778
% New rule produced :
% [787]
% A <-> inverse(inverse((inverse(inverse(A)) double_divide B) double_divide B))
% Current number of equations to process: 1268
% Current number of ordered equations: 7
% Current number of rules: 779
% New rule produced :
% [788]
% A <-> inverse(inverse(inverse((inverse(A) double_divide B) double_divide B)))
% Current number of equations to process: 1268
% Current number of ordered equations: 6
% Current number of rules: 780
% New rule produced :
% [789]
% A <-> inverse((inverse(inverse(inverse(A))) double_divide B) double_divide B)
% Current number of equations to process: 1268
% Current number of ordered equations: 5
% Current number of rules: 781
% New rule produced :
% [790]
% A <-> (inverse(inverse(inverse(inverse(A)))) double_divide B) double_divide B
% Current number of equations to process: 1268
% Current number of ordered equations: 4
% Current number of rules: 782
% New rule produced :
% [791]
% inverse(inverse((inverse(inverse(A)) double_divide B) double_divide B)) <-> A
% Current number of equations to process: 1268
% Current number of ordered equations: 3
% Current number of rules: 783
% New rule produced :
% [792]
% inverse(inverse(inverse((inverse(A) double_divide B) double_divide B))) <-> A
% Current number of equations to process: 1268
% Current number of ordered equations: 2
% Current number of rules: 784
% New rule produced :
% [793]
% inverse((inverse(inverse(inverse(A))) double_divide B) double_divide B) <-> A
% Current number of equations to process: 1268
% Current number of ordered equations: 1
% Current number of rules: 785
% New rule produced :
% [794]
% (inverse(inverse(inverse(inverse(A)))) double_divide B) double_divide B <-> A
% Current number of equations to process: 1268
% Current number of ordered equations: 0
% Current number of rules: 786
% New rule produced :
% [795]
% inverse(inverse(inverse(inverse(A) double_divide inverse(B)))) <->
% A double_divide B
% Current number of equations to process: 1267
% Current number of ordered equations: 1
% Current number of rules: 787
% New rule produced :
% [796]
% A double_divide B <->
% inverse(inverse(inverse(inverse(A) double_divide inverse(B))))
% Current number of equations to process: 1267
% Current number of ordered equations: 0
% Current number of rules: 788
% New rule produced :
% [797]
% inverse(inverse(inverse(inverse(B))) double_divide inverse(A)) <->
% A double_divide B
% Current number of equations to process: 1266
% Current number of ordered equations: 1
% Current number of rules: 789
% New rule produced :
% [798]
% A double_divide B <->
% inverse(inverse(inverse(inverse(B))) double_divide inverse(A))
% Current number of equations to process: 1266
% Current number of ordered equations: 0
% Current number of rules: 790
% New rule produced :
% [799]
% A <->
% inverse(inverse(inverse(inverse(inverse(inverse(inverse(inverse(A))))))))
% Current number of equations to process: 1265
% Current number of ordered equations: 1
% Current number of rules: 791
% New rule produced :
% [800]
% inverse(inverse(inverse(inverse(inverse(inverse(inverse(inverse(A)))))))) <->
% A
% Current number of equations to process: 1265
% Current number of ordered equations: 0
% Current number of rules: 792
% New rule produced :
% [801]
% inverse(((A multiply B) double_divide C) double_divide C) <->
% A double_divide B
% Current number of equations to process: 1263
% Current number of ordered equations: 3
% Current number of rules: 793
% New rule produced :
% [802]
% A double_divide B <->
% inverse(((A multiply B) double_divide C) double_divide C)
% Current number of equations to process: 1263
% Current number of ordered equations: 2
% Current number of rules: 794
% New rule produced :
% [803]
% A double_divide B <-> (inverse(A multiply B) double_divide C) double_divide C
% Current number of equations to process: 1263
% Current number of ordered equations: 1
% Current number of rules: 795
% New rule produced :
% [804]
% (inverse(A multiply B) double_divide C) double_divide C <-> A double_divide B
% Current number of equations to process: 1263
% Current number of ordered equations: 0
% Current number of rules: 796
% New rule produced :
% [805]
% inverse((A multiply B) double_divide inverse(C)) <->
% (A double_divide B) double_divide C
% Current number of equations to process: 1262
% Current number of ordered equations: 1
% Current number of rules: 797
% New rule produced :
% [806]
% (A double_divide B) double_divide C <->
% inverse((A multiply B) double_divide inverse(C))
% Current number of equations to process: 1262
% Current number of ordered equations: 0
% Current number of rules: 798
% New rule produced :
% [807]
% B multiply C <->
% (inverse(A) double_divide A) double_divide (B double_divide C)
% Current number of equations to process: 1261
% Current number of ordered equations: 1
% Current number of rules: 799
% New rule produced :
% [808]
% (inverse(A) double_divide A) double_divide (B double_divide C) <->
% B multiply C
% Current number of equations to process: 1261
% Current number of ordered equations: 0
% Current number of rules: 800
% New rule produced :
% [809]
% inverse(inverse(inverse(inverse(inverse(A multiply B))))) <->
% A double_divide B
% Current number of equations to process: 1260
% Current number of ordered equations: 1
% Current number of rules: 801
% New rule produced :
% [810]
% A double_divide B <->
% inverse(inverse(inverse(inverse(inverse(A multiply B)))))
% Current number of equations to process: 1260
% Current number of ordered equations: 0
% Current number of rules: 802
% New rule produced :
% [811]
% inverse(A) double_divide inverse(B) <->
% ((A double_divide B) double_divide C) multiply C
% Current number of equations to process: 1259
% Current number of ordered equations: 1
% Current number of rules: 803
% New rule produced :
% [812]
% ((A double_divide B) double_divide C) multiply C <->
% inverse(A) double_divide inverse(B)
% Current number of equations to process: 1259
% Current number of ordered equations: 0
% Current number of rules: 804
% New rule produced :
% [813]
% inverse(inverse(C) double_divide A) <->
% ((A double_divide B) multiply B) double_divide C
% Current number of equations to process: 1258
% Current number of ordered equations: 1
% Current number of rules: 805
% New rule produced :
% [814]
% ((A double_divide B) multiply B) double_divide C <->
% inverse(inverse(C) double_divide A)
% Current number of equations to process: 1258
% Current number of ordered equations: 0
% Current number of rules: 806
% New rule produced :
% [815]
% B <-> inverse((inverse(inverse(inverse(A))) multiply A) double_divide B)
% Current number of equations to process: 1257
% Current number of ordered equations: 1
% Current number of rules: 807
% New rule produced :
% [816]
% inverse((inverse(inverse(inverse(A))) multiply A) double_divide B) <-> B
% Current number of equations to process: 1257
% Current number of ordered equations: 0
% Current number of rules: 808
% New rule produced :
% [817]
% B <-> (inverse(inverse(inverse(A))) multiply A) double_divide inverse(B)
% Current number of equations to process: 1256
% Current number of ordered equations: 1
% Current number of rules: 809
% New rule produced :
% [818]
% (inverse(inverse(inverse(A))) multiply A) double_divide inverse(B) <-> B
% Current number of equations to process: 1256
% Current number of ordered equations: 0
% Current number of rules: 810
% New rule produced :
% [819]
% (A double_divide B) double_divide C <->
% inverse(inverse(C) double_divide B) multiply A
% Current number of equations to process: 1254
% Current number of ordered equations: 3
% Current number of rules: 811
% New rule produced :
% [820]
% (A double_divide C) double_divide B <->
% (inverse(A) multiply B) double_divide inverse(C)
% Current number of equations to process: 1254
% Current number of ordered equations: 2
% Current number of rules: 812
% New rule produced :
% [821]
% inverse(inverse(C) double_divide B) multiply A <->
% (A double_divide B) double_divide C
% Current number of equations to process: 1254
% Current number of ordered equations: 1
% Current number of rules: 813
% New rule produced :
% [822]
% (inverse(A) multiply B) double_divide inverse(C) <->
% (A double_divide C) double_divide B
% Current number of equations to process: 1254
% Current number of ordered equations: 0
% Current number of rules: 814
% New rule produced :
% [823]
% inverse((inverse(A) double_divide B) double_divide B) <->
% (A double_divide C) double_divide C
% Current number of equations to process: 1252
% Current number of ordered equations: 3
% Current number of rules: 815
% New rule produced :
% [824]
% (A double_divide C) double_divide C <->
% inverse((inverse(A) double_divide B) double_divide B)
% Current number of equations to process: 1252
% Current number of ordered equations: 2
% Current number of rules: 816
% New rule produced :
% [825]
% (A double_divide C) double_divide C <->
% (inverse(inverse(A)) double_divide B) double_divide B
% Current number of equations to process: 1252
% Current number of ordered equations: 1
% Current number of rules: 817
% New rule produced :
% [826]
% (inverse(inverse(A)) double_divide B) double_divide B <->
% (A double_divide C) double_divide C
% Current number of equations to process: 1252
% Current number of ordered equations: 0
% Current number of rules: 818
% New rule produced :
% [827] (eq)(A,inverse(inverse((A double_divide B) double_divide B))) -> (true)
% Current number of equations to process: 1249
% Current number of ordered equations: 0
% Current number of rules: 819
% New rule produced :
% [828] (eq)(A,(A double_divide B) double_divide B) -> (true)
% Current number of equations to process: 1271
% Current number of ordered equations: 0
% Current number of rules: 820
% New rule produced :
% [829]
% inverse(inverse(A double_divide B)) <-> inverse(inverse(A)) double_divide B
% Current number of equations to process: 1270
% Current number of ordered equations: 1
% Current number of rules: 821
% New rule produced :
% [830]
% inverse(inverse(A)) double_divide B <-> inverse(inverse(A double_divide B))
% Current number of equations to process: 1270
% Current number of ordered equations: 0
% Current number of rules: 822
% New rule produced :
% [831] B <-> inverse(inverse(A)) double_divide (A double_divide B)
% Current number of equations to process: 1269
% Current number of ordered equations: 1
% Current number of rules: 823
% New rule produced :
% [832] inverse(inverse(A)) double_divide (A double_divide B) <-> B
% Current number of equations to process: 1269
% Current number of ordered equations: 0
% Current number of rules: 824
% New rule produced :
% [833]
% inverse((A double_divide B) multiply B) <->
% (A double_divide C) double_divide C
% Current number of equations to process: 1289
% Current number of ordered equations: 3
% Current number of rules: 825
% New rule produced :
% [834]
% (A double_divide C) double_divide C <->
% inverse((A double_divide B) multiply B)
% Current number of equations to process: 1289
% Current number of ordered equations: 2
% Current number of rules: 826
% New rule produced :
% [835]
% (A double_divide C) double_divide C <->
% (inverse(A) double_divide B) multiply B
% Current number of equations to process: 1289
% Current number of ordered equations: 1
% Current number of rules: 827
% New rule produced :
% [836]
% (inverse(A) double_divide B) multiply B <->
% (A double_divide C) double_divide C
% Current number of equations to process: 1289
% Current number of ordered equations: 0
% Current number of rules: 828
% New rule produced :
% [837]
% inverse(inverse(B)) <-> inverse(inverse(A)) double_divide (A double_divide B)
% Current number of equations to process: 1288
% Current number of ordered equations: 1
% Current number of rules: 829
% New rule produced :
% [838]
% inverse(inverse(A)) double_divide (A double_divide B) <-> inverse(inverse(B))
% Current number of equations to process: 1288
% Current number of ordered equations: 0
% Current number of rules: 830
% New rule produced :
% [839]
% inverse(inverse(A)) <-> inverse(inverse(A double_divide B)) double_divide B
% Current number of equations to process: 1287
% Current number of ordered equations: 1
% Current number of rules: 831
% New rule produced :
% [840]
% inverse(inverse(A double_divide B)) double_divide B <-> inverse(inverse(A))
% Current number of equations to process: 1287
% Current number of ordered equations: 0
% Current number of rules: 832
% New rule produced :
% [841]
% inverse(inverse(inverse(A))) <->
% inverse(A double_divide B) double_divide inverse(B)
% Current number of equations to process: 1298
% Current number of ordered equations: 1
% Current number of rules: 833
% New rule produced :
% [842]
% inverse(A double_divide B) double_divide inverse(B) <->
% inverse(inverse(inverse(A)))
% Current number of equations to process: 1298
% Current number of ordered equations: 0
% Current number of rules: 834
% New rule produced :
% [843]
% inverse(inverse(inverse(A))) <->
% inverse(inverse(B) double_divide A) double_divide B
% Current number of equations to process: 1297
% Current number of ordered equations: 1
% Current number of rules: 835
% New rule produced :
% [844]
% inverse(inverse(B) double_divide A) double_divide B <->
% inverse(inverse(inverse(A)))
% Current number of equations to process: 1297
% Current number of ordered equations: 0
% Current number of rules: 836
% New rule produced :
% [845] (eq)(inverse(A),inverse((A double_divide B) double_divide B)) -> (true)
% Current number of equations to process: 1300
% Current number of ordered equations: 0
% Current number of rules: 837
% New rule produced :
% [846]
% inverse(inverse(inverse(inverse(inverse(inverse(A)))))) <->
% (A double_divide B) double_divide B
% Current number of equations to process: 1299
% Current number of ordered equations: 1
% Current number of rules: 838
% New rule produced :
% [847]
% (A double_divide B) double_divide B <->
% inverse(inverse(inverse(inverse(inverse(inverse(A))))))
% Current number of equations to process: 1299
% Current number of ordered equations: 0
% Current number of rules: 839
% New rule produced :
% [848]
% inverse(A) double_divide inverse(C) <->
% ((A double_divide B) double_divide B) multiply C
% Current number of equations to process: 1298
% Current number of ordered equations: 1
% Current number of rules: 840
% New rule produced :
% [849]
% ((A double_divide B) double_divide B) multiply C <->
% inverse(A) double_divide inverse(C)
% Current number of equations to process: 1298
% Current number of ordered equations: 0
% Current number of rules: 841
% New rule produced :
% [850]
% inverse(A) multiply inverse(C) <->
% ((A double_divide B) double_divide B) double_divide C
% Current number of equations to process: 1297
% Current number of ordered equations: 1
% Current number of rules: 842
% New rule produced :
% [851]
% ((A double_divide B) double_divide B) double_divide C <->
% inverse(A) multiply inverse(C)
% Current number of equations to process: 1297
% Current number of ordered equations: 0
% Current number of rules: 843
% New rule produced :
% [852] inverse(inverse(B)) <-> inverse(A multiply B) double_divide A
% Current number of equations to process: 1315
% Current number of ordered equations: 2
% Current number of rules: 844
% New rule produced :
% [853] inverse(A multiply B) double_divide B <-> inverse(inverse(A))
% Current number of equations to process: 1315
% Current number of ordered equations: 0
% Current number of rules: 845
% New rule produced :
% [854] inverse(B) <-> inverse(inverse(A)) multiply (A double_divide B)
% Current number of equations to process: 1314
% Current number of ordered equations: 1
% Current number of rules: 846
% New rule produced :
% [855] inverse(inverse(A)) multiply (A double_divide B) <-> inverse(B)
% Current number of equations to process: 1314
% Current number of ordered equations: 0
% Current number of rules: 847
% New rule produced :
% [856]
% inverse(inverse(inverse(B))) <-> (inverse(A) multiply B) double_divide A
% Current number of equations to process: 1313
% Current number of ordered equations: 1
% Current number of rules: 848
% New rule produced :
% [857]
% (inverse(A) multiply B) double_divide A <-> inverse(inverse(inverse(B)))
% Current number of equations to process: 1313
% Current number of ordered equations: 0
% Current number of rules: 849
% New rule produced :
% [858]
% inverse(inverse(A)) <-> (inverse(A) multiply B) double_divide inverse(B)
% Current number of equations to process: 1312
% Current number of ordered equations: 1
% Current number of rules: 850
% New rule produced :
% [859]
% (inverse(A) multiply B) double_divide inverse(B) <-> inverse(inverse(A))
% Current number of equations to process: 1312
% Current number of ordered equations: 0
% Current number of rules: 851
% New rule produced :
% [860]
% inverse(A) double_divide inverse(B) <->
% ((A multiply B) double_divide C) double_divide C
% Current number of equations to process: 1313
% Current number of ordered equations: 1
% Current number of rules: 852
% New rule produced :
% [861]
% ((A multiply B) double_divide C) double_divide C <->
% inverse(A) double_divide inverse(B)
% Current number of equations to process: 1313
% Current number of ordered equations: 0
% Current number of rules: 853
% New rule produced :
% [862] inverse(A multiply B) <-> inverse(A) multiply inverse(B)
% Current number of equations to process: 1329
% Current number of ordered equations: 1
% Current number of rules: 854
% New rule produced :
% [863] inverse(A) multiply inverse(B) <-> inverse(A multiply B)
% Current number of equations to process: 1329
% Current number of ordered equations: 0
% Current number of rules: 855
% New rule produced :
% [864] inverse(B) <-> (A multiply B) double_divide inverse(A)
% Rule
% [858]
% inverse(inverse(A)) <-> (inverse(A) multiply B) double_divide inverse(B)
% collapsed.
% Current number of equations to process: 1327
% Current number of ordered equations: 2
% Current number of rules: 855
% New rule produced :
% [865] (A multiply B) double_divide inverse(B) <-> inverse(A)
% Rule
% [859]
% (inverse(A) multiply B) double_divide inverse(B) <-> inverse(inverse(A))
% collapsed.
% Current number of equations to process: 1327
% Current number of ordered equations: 0
% Current number of rules: 855
% New rule produced :
% [866] inverse(A multiply B) <-> inverse(inverse(B)) double_divide A
% Rule
% [758]
% inverse(inverse(A) multiply B) <->
% inverse(inverse(B)) double_divide inverse(A) collapsed.
% Current number of equations to process: 1326
% Current number of ordered equations: 1
% Current number of rules: 855
% New rule produced :
% [867] inverse(inverse(B)) double_divide A <-> inverse(A multiply B)
% Rule
% [759]
% inverse(inverse(B)) double_divide inverse(A) <->
% inverse(inverse(A) multiply B) collapsed.
% Current number of equations to process: 1326
% Current number of ordered equations: 0
% Current number of rules: 855
% New rule produced :
% [868] inverse(inverse(inverse(A)) double_divide B) <-> A multiply B
% Current number of equations to process: 1325
% Current number of ordered equations: 1
% Current number of rules: 856
% New rule produced :
% [869] A multiply B <-> inverse(inverse(inverse(A)) double_divide B)
% Current number of equations to process: 1325
% Current number of ordered equations: 0
% Current number of rules: 857
% New rule produced :
% [870] inverse(inverse(inverse(A) double_divide inverse(B))) <-> A multiply B
% Current number of equations to process: 1337
% Current number of ordered equations: 1
% Current number of rules: 858
% New rule produced :
% [871] A multiply B <-> inverse(inverse(inverse(A) double_divide inverse(B)))
% Current number of equations to process: 1337
% Current number of ordered equations: 0
% Current number of rules: 859
% New rule produced :
% [872]
% inverse(A multiply B) <->
% inverse(inverse(A)) double_divide inverse(inverse(B))
% Current number of equations to process: 1349
% Current number of ordered equations: 1
% Current number of rules: 860
% New rule produced :
% [873]
% inverse(inverse(A)) double_divide inverse(inverse(B)) <->
% inverse(A multiply B)
% Current number of equations to process: 1349
% Current number of ordered equations: 0
% Current number of rules: 861
% New rule produced :
% [874]
% (A multiply B) double_divide inverse(C) <->
% (inverse(B) double_divide C) double_divide A
% Current number of equations to process: 1347
% Current number of ordered equations: 3
% Current number of rules: 862
% New rule produced :
% [875]
% (A multiply B) double_divide inverse(C) <->
% (inverse(A) double_divide C) double_divide B
% Current number of equations to process: 1347
% Current number of ordered equations: 2
% Current number of rules: 863
% New rule produced :
% [876]
% (inverse(B) double_divide C) double_divide A <->
% (A multiply B) double_divide inverse(C)
% Current number of equations to process: 1347
% Current number of ordered equations: 1
% Current number of rules: 864
% New rule produced :
% [877]
% (inverse(A) double_divide C) double_divide B <->
% (A multiply B) double_divide inverse(C)
% Current number of equations to process: 1347
% Current number of ordered equations: 0
% Current number of rules: 865
% New rule produced :
% [878]
% inverse(inverse(inverse(inverse(A multiply B)))) <->
% inverse(A) double_divide inverse(B)
% Current number of equations to process: 1354
% Current number of ordered equations: 1
% Current number of rules: 866
% New rule produced :
% [879]
% inverse(A) double_divide inverse(B) <->
% inverse(inverse(inverse(inverse(A multiply B))))
% Current number of equations to process: 1354
% Current number of ordered equations: 0
% Current number of rules: 867
% New rule produced :
% [880] inverse(inverse(A) multiply inverse(B)) <-> A multiply B
% Current number of equations to process: 1403
% Current number of ordered equations: 1
% Current number of rules: 868
% New rule produced :
% [881] A multiply B <-> inverse(inverse(A) multiply inverse(B))
% Current number of equations to process: 1403
% Current number of ordered equations: 0
% Current number of rules: 869
% New rule produced :
% [882] inverse(inverse(B)) <-> (A multiply B) multiply inverse(A)
% Current number of equations to process: 1401
% Current number of ordered equations: 2
% Current number of rules: 870
% New rule produced :
% [883] (A multiply B) multiply inverse(B) <-> inverse(inverse(A))
% Current number of equations to process: 1401
% Current number of ordered equations: 0
% Current number of rules: 871
% New rule produced :
% [884]
% inverse(inverse(inverse(B))) <-> (A multiply B) double_divide inverse(A)
% Current number of equations to process: 1405
% Current number of ordered equations: 2
% Current number of rules: 872
% New rule produced :
% [885]
% (A multiply B) double_divide inverse(B) <-> inverse(inverse(inverse(A)))
% Current number of equations to process: 1405
% Current number of ordered equations: 0
% Current number of rules: 873
% New rule produced :
% [886] A <-> inverse(inverse(A)) multiply (inverse(B) double_divide B)
% Current number of equations to process: 1416
% Current number of ordered equations: 1
% Current number of rules: 874
% New rule produced :
% [887] inverse(inverse(A)) multiply (inverse(B) double_divide B) <-> A
% Current number of equations to process: 1416
% Current number of ordered equations: 0
% Current number of rules: 875
% New rule produced :
% [888]
% (A double_divide B) double_divide B <->
% (inverse(C) double_divide C) multiply A
% Current number of equations to process: 1415
% Current number of ordered equations: 1
% Current number of rules: 876
% New rule produced :
% [889]
% (inverse(C) double_divide C) multiply A <->
% (A double_divide B) double_divide B
% Current number of equations to process: 1415
% Current number of ordered equations: 0
% Current number of rules: 877
% New rule produced :
% [890]
% A multiply C <-> ((A double_divide B) multiply B) double_divide inverse(C)
% Current number of equations to process: 1436
% Current number of ordered equations: 1
% Current number of rules: 878
% New rule produced :
% [891]
% ((A double_divide B) multiply B) double_divide inverse(C) <-> A multiply C
% Current number of equations to process: 1436
% Current number of ordered equations: 0
% Current number of rules: 879
% New rule produced :
% [892]
% inverse(inverse(inverse(inverse(A)))) <->
% (inverse(B) double_divide B) multiply A
% Current number of equations to process: 1496
% Current number of ordered equations: 1
% Current number of rules: 880
% New rule produced :
% [893]
% (inverse(B) double_divide B) multiply A <->
% inverse(inverse(inverse(inverse(A))))
% Current number of equations to process: 1496
% Current number of ordered equations: 0
% Current number of rules: 881
% New rule produced :
% [894] B <-> inverse(inverse(inverse(A) double_divide A)) multiply B
% Current number of equations to process: 1494
% Current number of ordered equations: 3
% Current number of rules: 882
% New rule produced :
% [895] B <-> (inverse(inverse(inverse(A))) double_divide A) multiply B
% Current number of equations to process: 1494
% Current number of ordered equations: 2
% Current number of rules: 883
% New rule produced :
% [896] inverse(inverse(inverse(A) double_divide A)) multiply B <-> B
% Current number of equations to process: 1494
% Current number of ordered equations: 1
% Current number of rules: 884
% New rule produced :
% [897] (inverse(inverse(inverse(A))) double_divide A) multiply B <-> B
% Current number of equations to process: 1494
% Current number of ordered equations: 0
% Current number of rules: 885
% New rule produced :
% [898]
% (A double_divide B) multiply B <->
% inverse(A) multiply (inverse(C) double_divide C)
% Current number of equations to process: 1502
% Current number of ordered equations: 1
% Current number of rules: 886
% New rule produced :
% [899]
% inverse(A) multiply (inverse(C) double_divide C) <->
% (A double_divide B) multiply B
% Current number of equations to process: 1502
% Current number of ordered equations: 0
% Current number of rules: 887
% New rule produced :
% [900] C <-> ((A multiply B) double_divide (A double_divide B)) multiply C
% Current number of equations to process: 1501
% Current number of ordered equations: 1
% Current number of rules: 888
% New rule produced :
% [901] ((A multiply B) double_divide (A double_divide B)) multiply C <-> C
% Current number of equations to process: 1501
% Current number of ordered equations: 0
% Current number of rules: 889
% New rule produced :
% [902] B <-> inverse(inverse(inverse(inverse(A))) double_divide A) multiply B
% Current number of equations to process: 1500
% Current number of ordered equations: 1
% Current number of rules: 890
% New rule produced :
% [903] inverse(inverse(inverse(inverse(A))) double_divide A) multiply B <-> B
% Current number of equations to process: 1500
% Current number of ordered equations: 0
% Current number of rules: 891
% New rule produced : [904] B <-> (inverse(A) multiply A) multiply B
% Current number of equations to process: 1511
% Current number of ordered equations: 1
% Current number of rules: 892
% New rule produced : [905] (inverse(A) multiply A) multiply B <-> B
% Current number of equations to process: 1511
% Current number of ordered equations: 0
% Current number of rules: 893
% New rule produced : [906] inverse(B) multiply B <-> inverse(A) multiply A
% Rule [37] b1 multiply inverse(b1) <-> a1 multiply inverse(a1) collapsed.
% Rule [38] a1 multiply inverse(a1) <-> b1 multiply inverse(b1) collapsed.
% Rule
% [666] inverse(b1) multiply inverse(inverse(b1)) <-> a1 multiply inverse(a1)
% collapsed.
% Rule
% [669] a1 multiply inverse(a1) <-> inverse(b1) multiply inverse(inverse(b1))
% collapsed.
% Rule
% [673] b1 multiply inverse(b1) <-> inverse(a1) multiply inverse(inverse(a1))
% collapsed.
% Rule
% [675] inverse(a1) multiply inverse(inverse(a1)) <-> b1 multiply inverse(b1)
% collapsed.
% Current number of equations to process: 1514
% Current number of ordered equations: 0
% Current number of rules: 888
% New rule produced : [907] B <-> inverse(inverse(A) multiply A) multiply B
% Current number of equations to process: 1536
% Current number of ordered equations: 1
% Current number of rules: 889
% New rule produced : [908] inverse(inverse(A) multiply A) multiply B <-> B
% Current number of equations to process: 1536
% Current number of ordered equations: 0
% Current number of rules: 890
% New rule produced :
% [909] inverse(B) multiply B <-> inverse(inverse(inverse(A))) double_divide A
% Current number of equations to process: 1535
% Current number of ordered equations: 1
% Current number of rules: 891
% New rule produced :
% [910] inverse(inverse(inverse(A))) double_divide A <-> inverse(B) multiply B
% Current number of equations to process: 1535
% Current number of ordered equations: 0
% Current number of rules: 892
% New rule produced :
% [911] inverse(inverse(inverse(A) double_divide A)) <-> inverse(B) multiply B
% Current number of equations to process: 1534
% Current number of ordered equations: 1
% Current number of rules: 893
% New rule produced :
% [912] inverse(B) multiply B <-> inverse(inverse(inverse(A) double_divide A))
% Current number of equations to process: 1534
% Current number of ordered equations: 0
% Current number of rules: 894
% New rule produced :
% [913] B <-> (inverse(inverse(inverse(A))) multiply A) multiply B
% Current number of equations to process: 1541
% Current number of ordered equations: 1
% Current number of rules: 895
% New rule produced :
% [914] (inverse(inverse(inverse(A))) multiply A) multiply B <-> B
% Current number of equations to process: 1541
% Current number of ordered equations: 0
% Current number of rules: 896
% New rule produced :
% [915]
% inverse(inverse(inverse(inverse(A) double_divide A))) <->
% inverse(B) multiply B
% Current number of equations to process: 1547
% Current number of ordered equations: 3
% Current number of rules: 897
% New rule produced :
% [916]
% inverse(inverse(inverse(inverse(A))) double_divide A) <->
% inverse(B) multiply B
% Current number of equations to process: 1547
% Current number of ordered equations: 2
% Current number of rules: 898
% New rule produced :
% [917]
% inverse(B) multiply B <->
% inverse(inverse(inverse(inverse(A) double_divide A)))
% Current number of equations to process: 1547
% Current number of ordered equations: 1
% Current number of rules: 899
% New rule produced :
% [918]
% inverse(B) multiply B <->
% inverse(inverse(inverse(inverse(A))) double_divide A)
% Current number of equations to process: 1547
% Current number of ordered equations: 0
% Current number of rules: 900
% New rule produced :
% [919] C <-> (((A double_divide B) multiply B) double_divide A) multiply C
% Current number of equations to process: 1552
% Current number of ordered equations: 1
% Current number of rules: 901
% New rule produced :
% [920] (((A double_divide B) multiply B) double_divide A) multiply C <-> C
% Current number of equations to process: 1552
% Current number of ordered equations: 0
% Current number of rules: 902
% New rule produced :
% [921] inverse(inverse(A) multiply A) <-> inverse(B) multiply B
% Current number of equations to process: 1589
% Current number of ordered equations: 1
% Current number of rules: 903
% New rule produced :
% [922] inverse(B) multiply B <-> inverse(inverse(A) multiply A)
% Current number of equations to process: 1589
% Current number of ordered equations: 0
% Current number of rules: 904
% New rule produced :
% [923] inverse(inverse(inverse(A) multiply A)) <-> inverse(B) multiply B
% Rule
% [664] inverse(inverse(b1 multiply inverse(b1))) <-> a1 multiply inverse(a1)
% collapsed.
% Rule
% [670] inverse(inverse(a1 multiply inverse(a1))) <-> b1 multiply inverse(b1)
% collapsed.
% Current number of equations to process: 1593
% Current number of ordered equations: 1
% Current number of rules: 903
% New rule produced :
% [924] inverse(B) multiply B <-> inverse(inverse(inverse(A) multiply A))
% Rule
% [667] a1 multiply inverse(a1) <-> inverse(inverse(b1 multiply inverse(b1)))
% collapsed.
% Rule
% [671] b1 multiply inverse(b1) <-> inverse(inverse(a1 multiply inverse(a1)))
% collapsed.
% Current number of equations to process: 1593
% Current number of ordered equations: 0
% Current number of rules: 902
% New rule produced :
% [925]
% inverse(inverse(B) double_divide B) <->
% inverse(inverse(inverse(A))) multiply A
% Current number of equations to process: 1592
% Current number of ordered equations: 1
% Current number of rules: 903
% New rule produced :
% [926]
% inverse(inverse(inverse(A))) multiply A <->
% inverse(inverse(B) double_divide B)
% Current number of equations to process: 1592
% Current number of ordered equations: 0
% Current number of rules: 904
% New rule produced :
% [927]
% inverse(inverse(inverse(inverse(A) multiply A))) <->
% inverse(B) double_divide B
% Current number of equations to process: 1592
% Current number of ordered equations: 1
% Current number of rules: 905
% New rule produced :
% [928]
% inverse(B) double_divide B <->
% inverse(inverse(inverse(inverse(A) multiply A)))
% Current number of equations to process: 1592
% Current number of ordered equations: 0
% Current number of rules: 906
% New rule produced :
% [929]
% inverse(inverse(inverse(inverse(A))) multiply A) <-> inverse(B) multiply B
% Current number of equations to process: 1591
% Current number of ordered equations: 1
% Current number of rules: 907
% New rule produced :
% [930]
% inverse(B) multiply B <-> inverse(inverse(inverse(inverse(A))) multiply A)
% Current number of equations to process: 1591
% Current number of ordered equations: 0
% Current number of rules: 908
% New rule produced :
% [931]
% inverse(inverse(C) double_divide C) <->
% (A multiply B) multiply (A double_divide B)
% Current number of equations to process: 1593
% Current number of ordered equations: 1
% Current number of rules: 909
% New rule produced :
% [932]
% (A multiply B) multiply (A double_divide B) <->
% inverse(inverse(C) double_divide C)
% Current number of equations to process: 1593
% Current number of ordered equations: 0
% Current number of rules: 910
% New rule produced :
% [933]
% inverse(inverse(C) double_divide C) <->
% ((A double_divide B) multiply B) multiply A
% Current number of equations to process: 1622
% Current number of ordered equations: 1
% Current number of rules: 911
% New rule produced :
% [934]
% ((A double_divide B) multiply B) multiply A <->
% inverse(inverse(C) double_divide C)
% Current number of equations to process: 1622
% Current number of ordered equations: 0
% Current number of rules: 912
% New rule produced :
% [935]
% (A double_divide B) multiply B <->
% (inverse(C) double_divide C) double_divide A
% Current number of equations to process: 1667
% Current number of ordered equations: 1
% Current number of rules: 913
% New rule produced :
% [936]
% (inverse(C) double_divide C) double_divide A <->
% (A double_divide B) multiply B
% Current number of equations to process: 1667
% Current number of ordered equations: 0
% Current number of rules: 914
% New rule produced :
% [937]
% inverse(inverse(B)) <-> (inverse(inverse(A)) double_divide B) double_divide A
% Current number of equations to process: 1666
% Current number of ordered equations: 1
% Current number of rules: 915
% New rule produced :
% [938]
% (inverse(inverse(A)) double_divide B) double_divide A <-> inverse(inverse(B))
% Current number of equations to process: 1666
% Current number of ordered equations: 0
% Current number of rules: 916
% New rule produced :
% [939]
% inverse(inverse(inverse(inverse(B)) double_divide A)) <-> A double_divide B
% Current number of equations to process: 1669
% Current number of ordered equations: 1
% Current number of rules: 917
% New rule produced :
% [940]
% A double_divide B <-> inverse(inverse(inverse(inverse(B)) double_divide A))
% Current number of equations to process: 1669
% Current number of ordered equations: 0
% Current number of rules: 918
% New rule produced :
% [941]
% inverse(inverse(inverse(inverse(inverse(A))))) <->
% (inverse(B) double_divide B) double_divide A
% Current number of equations to process: 1674
% Current number of ordered equations: 1
% Current number of rules: 919
% New rule produced :
% [942]
% (inverse(B) double_divide B) double_divide A <->
% inverse(inverse(inverse(inverse(inverse(A)))))
% Current number of equations to process: 1674
% Current number of ordered equations: 0
% Current number of rules: 920
% New rule produced :
% [943]
% inverse(B) <-> inverse(inverse(inverse(A) double_divide A)) double_divide B
% Current number of equations to process: 1672
% Current number of ordered equations: 3
% Current number of rules: 921
% New rule produced :
% [944]
% inverse(B) <-> (inverse(inverse(inverse(A))) double_divide A) double_divide B
% Current number of equations to process: 1672
% Current number of ordered equations: 2
% Current number of rules: 922
% New rule produced :
% [945]
% inverse(inverse(inverse(A) double_divide A)) double_divide B <-> inverse(B)
% Current number of equations to process: 1672
% Current number of ordered equations: 1
% Current number of rules: 923
% New rule produced :
% [946]
% (inverse(inverse(inverse(A))) double_divide A) double_divide B <-> inverse(B)
% Current number of equations to process: 1672
% Current number of ordered equations: 0
% Current number of rules: 924
% New rule produced :
% [947]
% inverse(inverse(inverse(A))) <->
% inverse(inverse(B) double_divide B) double_divide A
% Current number of equations to process: 1671
% Current number of ordered equations: 1
% Current number of rules: 925
% New rule produced :
% [948]
% inverse(inverse(B) double_divide B) double_divide A <->
% inverse(inverse(inverse(A)))
% Current number of equations to process: 1671
% Current number of ordered equations: 0
% Current number of rules: 926
% New rule produced :
% [949] (eq)(A,inverse((inverse(B) double_divide B) double_divide A)) -> (true)
% Current number of equations to process: 1679
% Current number of ordered equations: 1
% Current number of rules: 927
% New rule produced :
% [950] (eq)(A,inverse(A) double_divide (inverse(B) double_divide B)) -> (true)
% Current number of equations to process: 1679
% Current number of ordered equations: 0
% Current number of rules: 928
% New rule produced :
% [951]
% A <-> inverse(inverse(inverse(inverse(A) double_divide B)) double_divide B)
% Current number of equations to process: 1678
% Current number of ordered equations: 1
% Current number of rules: 929
% New rule produced :
% [952]
% inverse(inverse(inverse(inverse(A) double_divide B)) double_divide B) <-> A
% Current number of equations to process: 1678
% Current number of ordered equations: 0
% Current number of rules: 930
% New rule produced :
% [953] inverse(B) <-> (inverse(A) multiply A) double_divide B
% Current number of equations to process: 1723
% Current number of ordered equations: 1
% Current number of rules: 931
% New rule produced :
% [954] (inverse(A) multiply A) double_divide B <-> inverse(B)
% Current number of equations to process: 1723
% Current number of ordered equations: 0
% Current number of rules: 932
% New rule produced :
% [955] inverse(B) <-> inverse(inverse(A) multiply A) double_divide B
% Current number of equations to process: 1731
% Current number of ordered equations: 1
% Current number of rules: 933
% New rule produced :
% [956] inverse(inverse(A) multiply A) double_divide B <-> inverse(B)
% Current number of equations to process: 1731
% Current number of ordered equations: 0
% Current number of rules: 934
% New rule produced :
% [957] inverse(inverse(B)) <-> inverse(inverse(A) double_divide A) multiply B
% Current number of equations to process: 1737
% Current number of ordered equations: 1
% Current number of rules: 935
% New rule produced :
% [958] inverse(inverse(A) double_divide A) multiply B <-> inverse(inverse(B))
% Current number of equations to process: 1737
% Current number of ordered equations: 0
% Current number of rules: 936
% New rule produced :
% [959]
% inverse(B) <-> (inverse(inverse(inverse(A))) multiply A) double_divide B
% Current number of equations to process: 1741
% Current number of ordered equations: 1
% Current number of rules: 937
% New rule produced :
% [960]
% (inverse(inverse(inverse(A))) multiply A) double_divide B <-> inverse(B)
% Current number of equations to process: 1741
% Current number of ordered equations: 0
% Current number of rules: 938
% New rule produced :
% [961]
% inverse(inverse(inverse(inverse(A) double_divide A))) <->
% inverse(B) double_divide B
% Current number of equations to process: 1740
% Current number of ordered equations: 1
% Current number of rules: 939
% New rule produced :
% [962]
% inverse(B) double_divide B <->
% inverse(inverse(inverse(inverse(A) double_divide A)))
% Current number of equations to process: 1740
% Current number of ordered equations: 0
% Current number of rules: 940
% New rule produced :
% [963] inverse(inverse(inverse(A) multiply A)) <-> inverse(B) double_divide B
% Current number of equations to process: 1790
% Current number of ordered equations: 1
% Current number of rules: 941
% New rule produced :
% [964] inverse(B) double_divide B <-> inverse(inverse(inverse(A) multiply A))
% Current number of equations to process: 1790
% Current number of ordered equations: 0
% Current number of rules: 942
% New rule produced :
% [965]
% inverse(inverse(inverse(inverse(A))) multiply A) <->
% inverse(B) double_divide B
% Current number of equations to process: 1806
% Current number of ordered equations: 1
% Current number of rules: 943
% New rule produced :
% [966]
% inverse(B) double_divide B <->
% inverse(inverse(inverse(inverse(A))) multiply A)
% Current number of equations to process: 1806
% Current number of ordered equations: 0
% Current number of rules: 944
% New rule produced :
% [967]
% inverse(inverse(inverse(A) double_divide A)) <->
% inverse(inverse(inverse(B))) double_divide B
% Current number of equations to process: 1805
% Current number of ordered equations: 1
% Current number of rules: 945
% New rule produced :
% [968]
% inverse(inverse(inverse(B))) double_divide B <->
% inverse(inverse(inverse(A) double_divide A))
% Current number of equations to process: 1805
% Current number of ordered equations: 0
% Current number of rules: 946
% New rule produced :
% [969]
% inverse(inverse(C) double_divide C) <->
% (A multiply B) double_divide (A double_divide B)
% Current number of equations to process: 1811
% Current number of ordered equations: 1
% Current number of rules: 947
% New rule produced :
% [970]
% (A multiply B) double_divide (A double_divide B) <->
% inverse(inverse(C) double_divide C)
% Current number of equations to process: 1811
% Current number of ordered equations: 0
% Current number of rules: 948
% New rule produced :
% [971]
% inverse((A double_divide B) double_divide B) <->
% (A double_divide C) multiply C
% Current number of equations to process: 1862
% Current number of ordered equations: 1
% Current number of rules: 949
% New rule produced :
% [972]
% (A double_divide C) multiply C <->
% inverse((A double_divide B) double_divide B)
% Current number of equations to process: 1862
% Current number of ordered equations: 0
% Current number of rules: 950
% New rule produced :
% [973]
% inverse((A double_divide B) double_divide B) <->
% (inverse(C) double_divide C) double_divide A
% Current number of equations to process: 1877
% Current number of ordered equations: 1
% Current number of rules: 951
% New rule produced :
% [974]
% (inverse(C) double_divide C) double_divide A <->
% inverse((A double_divide B) double_divide B)
% Current number of equations to process: 1877
% Current number of ordered equations: 0
% Current number of rules: 952
% New rule produced :
% [975]
% inverse(inverse(C) double_divide C) <->
% ((A double_divide B) multiply B) double_divide A
% Current number of equations to process: 1891
% Current number of ordered equations: 1
% Current number of rules: 953
% New rule produced :
% [976]
% ((A double_divide B) multiply B) double_divide A <->
% inverse(inverse(C) double_divide C)
% Current number of equations to process: 1891
% Current number of ordered equations: 0
% Current number of rules: 954
% New rule produced :
% [977]
% inverse(inverse((A double_divide B) double_divide B)) <->
% (A double_divide C) double_divide C
% Current number of equations to process: 1889
% Current number of ordered equations: 3
% Current number of rules: 955
% New rule produced :
% [978]
% (A double_divide C) double_divide C <->
% inverse(inverse((A double_divide B) double_divide B))
% Current number of equations to process: 1889
% Current number of ordered equations: 2
% Current number of rules: 956
% New rule produced :
% [979]
% (A double_divide C) double_divide C <->
% inverse(inverse(A double_divide B)) double_divide B
% Current number of equations to process: 1889
% Current number of ordered equations: 1
% Current number of rules: 957
% New rule produced :
% [980]
% inverse(inverse(A double_divide B)) double_divide B <->
% (A double_divide C) double_divide C
% Current number of equations to process: 1889
% Current number of ordered equations: 0
% Current number of rules: 958
% New rule produced :
% [981]
% C <-> ((A double_divide B) double_divide B) double_divide (A double_divide C)
% Current number of equations to process: 1888
% Current number of ordered equations: 1
% Current number of rules: 959
% New rule produced :
% [982]
% ((A double_divide B) double_divide B) double_divide (A double_divide C) <-> C
% Current number of equations to process: 1888
% Current number of ordered equations: 0
% Current number of rules: 960
% New rule produced :
% [983]
% inverse(inverse(inverse(inverse(inverse(B) double_divide B)))) <->
% inverse(A) double_divide A
% Current number of equations to process: 1892
% Current number of ordered equations: 3
% Current number of rules: 961
% New rule produced :
% [984]
% inverse(B) double_divide B <->
% inverse(inverse(inverse(inverse(inverse(A))))) double_divide A
% Current number of equations to process: 1892
% Current number of ordered equations: 2
% Current number of rules: 962
% New rule produced :
% [985]
% inverse(A) double_divide A <->
% inverse(inverse(inverse(inverse(inverse(B) double_divide B))))
% Current number of equations to process: 1892
% Current number of ordered equations: 1
% Current number of rules: 963
% New rule produced :
% [986]
% inverse(inverse(inverse(inverse(inverse(A))))) double_divide A <->
% inverse(B) double_divide B
% Current number of equations to process: 1892
% Current number of ordered equations: 0
% Current number of rules: 964
% New rule produced :
% [987]
% inverse((A double_divide C) multiply B) <->
% inverse(A) double_divide (inverse(B) double_divide C)
% Current number of equations to process: 1890
% Current number of ordered equations: 3
% Current number of rules: 965
% New rule produced :
% [988]
% inverse(A) double_divide (inverse(B) double_divide C) <->
% inverse((A double_divide C) multiply B)
% Current number of equations to process: 1890
% Current number of ordered equations: 2
% Current number of rules: 966
% New rule produced :
% [989]
% inverse(A) double_divide (inverse(C) double_divide B) <->
% inverse(A multiply B) double_divide C
% Current number of equations to process: 1890
% Current number of ordered equations: 1
% Current number of rules: 967
% New rule produced :
% [990]
% inverse(A multiply B) double_divide C <->
% inverse(A) double_divide (inverse(C) double_divide B)
% Current number of equations to process: 1890
% Current number of ordered equations: 0
% Current number of rules: 968
% New rule produced :
% [991]
% b1 multiply inverse((b1 double_divide A) double_divide A) <->
% a1 multiply inverse(a1)
% Current number of equations to process: 1886
% Current number of ordered equations: 7
% Current number of rules: 969
% New rule produced :
% [992]
% b1 multiply ((inverse(b1) double_divide A) double_divide A) <->
% a1 multiply inverse(a1)
% Current number of equations to process: 1886
% Current number of ordered equations: 6
% Current number of rules: 970
% New rule produced :
% [993]
% inverse(b1) multiply ((b1 double_divide A) double_divide A) <->
% a1 multiply inverse(a1)
% Current number of equations to process: 1886
% Current number of ordered equations: 5
% Current number of rules: 971
% New rule produced :
% [994]
% a1 multiply inverse(a1) <->
% b1 multiply inverse((b1 double_divide A) double_divide A)
% Current number of equations to process: 1886
% Current number of ordered equations: 4
% Current number of rules: 972
% New rule produced :
% [995]
% a1 multiply inverse(a1) <->
% b1 multiply ((inverse(b1) double_divide A) double_divide A)
% Current number of equations to process: 1886
% Current number of ordered equations: 3
% Current number of rules: 973
% New rule produced :
% [996]
% a1 multiply inverse(a1) <->
% inverse(b1) multiply ((b1 double_divide A) double_divide A)
% Current number of equations to process: 1886
% Current number of ordered equations: 2
% Current number of rules: 974
% New rule produced :
% [997]
% a1 multiply inverse(a1) <->
% ((b1 multiply inverse(b1)) double_divide A) double_divide A
% Current number of equations to process: 1886
% Current number of ordered equations: 1
% Current number of rules: 975
% New rule produced :
% [998]
% ((b1 multiply inverse(b1)) double_divide A) double_divide A <->
% a1 multiply inverse(a1)
% Current number of equations to process: 1886
% Current number of ordered equations: 0
% Current number of rules: 976
% New rule produced :
% [999]
% inverse(inverse(inverse(inverse(b1 multiply inverse(b1))))) <->
% a1 multiply inverse(a1)
% Current number of equations to process: 1883
% Current number of ordered equations: 5
% Current number of rules: 977
% New rule produced :
% [1000]
% b1 multiply inverse(inverse(inverse(inverse(inverse(b1))))) <->
% a1 multiply inverse(a1)
% Current number of equations to process: 1883
% Current number of ordered equations: 4
% Current number of rules: 978
% New rule produced :
% [1001]
% inverse(b1) multiply inverse(inverse(inverse(inverse(b1)))) <->
% a1 multiply inverse(a1)
% Current number of equations to process: 1883
% Current number of ordered equations: 3
% Current number of rules: 979
% New rule produced :
% [1002]
% a1 multiply inverse(a1) <->
% inverse(inverse(inverse(inverse(b1 multiply inverse(b1)))))
% Current number of equations to process: 1883
% Current number of ordered equations: 2
% Current number of rules: 980
% New rule produced :
% [1003]
% a1 multiply inverse(a1) <->
% b1 multiply inverse(inverse(inverse(inverse(inverse(b1)))))
% Current number of equations to process: 1883
% Current number of ordered equations: 1
% Current number of rules: 981
% New rule produced :
% [1004]
% a1 multiply inverse(a1) <->
% inverse(b1) multiply inverse(inverse(inverse(inverse(b1))))
% Current number of equations to process: 1883
% Current number of ordered equations: 0
% Current number of rules: 982
% New rule produced :
% [1005]
% b1 multiply inverse(b1) <->
% a1 multiply inverse((a1 double_divide A) double_divide A)
% Current number of equations to process: 1879
% Current number of ordered equations: 7
% Current number of rules: 983
% New rule produced :
% [1006]
% b1 multiply inverse(b1) <->
% a1 multiply ((inverse(a1) double_divide A) double_divide A)
% Current number of equations to process: 1879
% Current number of ordered equations: 6
% Current number of rules: 984
% New rule produced :
% [1007]
% b1 multiply inverse(b1) <->
% inverse(a1) multiply ((a1 double_divide A) double_divide A)
% Current number of equations to process: 1879
% Current number of ordered equations: 5
% Current number of rules: 985
% New rule produced :
% [1008]
% b1 multiply inverse(b1) <->
% ((a1 multiply inverse(a1)) double_divide A) double_divide A
% Current number of equations to process: 1879
% Current number of ordered equations: 4
% Current number of rules: 986
% New rule produced :
% [1009]
% a1 multiply inverse((a1 double_divide A) double_divide A) <->
% b1 multiply inverse(b1)
% Current number of equations to process: 1879
% Current number of ordered equations: 3
% Current number of rules: 987
% New rule produced :
% [1010]
% a1 multiply ((inverse(a1) double_divide A) double_divide A) <->
% b1 multiply inverse(b1)
% Current number of equations to process: 1879
% Current number of ordered equations: 2
% Current number of rules: 988
% New rule produced :
% [1011]
% inverse(a1) multiply ((a1 double_divide A) double_divide A) <->
% b1 multiply inverse(b1)
% Current number of equations to process: 1879
% Current number of ordered equations: 1
% Current number of rules: 989
% New rule produced :
% [1012]
% ((a1 multiply inverse(a1)) double_divide A) double_divide A <->
% b1 multiply inverse(b1)
% Current number of equations to process: 1879
% Current number of ordered equations: 0
% Current number of rules: 990
% New rule produced :
% [1013]
% inverse(inverse(inverse(inverse(a1 multiply inverse(a1))))) <->
% b1 multiply inverse(b1)
% Current number of equations to process: 1876
% Current number of ordered equations: 5
% Current number of rules: 991
% New rule produced :
% [1014]
% b1 multiply inverse(b1) <->
% inverse(inverse(inverse(inverse(a1 multiply inverse(a1)))))
% Current number of equations to process: 1876
% Current number of ordered equations: 4
% Current number of rules: 992
% New rule produced :
% [1015]
% b1 multiply inverse(b1) <->
% a1 multiply inverse(inverse(inverse(inverse(inverse(a1)))))
% Current number of equations to process: 1876
% Current number of ordered equations: 3
% Current number of rules: 993
% New rule produced :
% [1016]
% b1 multiply inverse(b1) <->
% inverse(a1) multiply inverse(inverse(inverse(inverse(a1))))
% Current number of equations to process: 1876
% Current number of ordered equations: 2
% Current number of rules: 994
% New rule produced :
% [1017]
% a1 multiply inverse(inverse(inverse(inverse(inverse(a1))))) <->
% b1 multiply inverse(b1)
% Current number of equations to process: 1876
% Current number of ordered equations: 1
% Current number of rules: 995
% New rule produced :
% [1018]
% inverse(a1) multiply inverse(inverse(inverse(inverse(a1)))) <->
% b1 multiply inverse(b1)
% Current number of equations to process: 1876
% Current number of ordered equations: 0
% Current number of rules: 996
% New rule produced :
% [1019]
% inverse(((A double_divide B) multiply B) double_divide C) <->
% inverse(C) double_divide A
% Current number of equations to process: 1874
% Current number of ordered equations: 3
% Current number of rules: 997
% New rule produced :
% [1020]
% inverse(A) double_divide B <->
% ((inverse(B) double_divide A) double_divide C) multiply C
% Current number of equations to process: 1874
% Current number of ordered equations: 2
% Current number of rules: 998
% New rule produced :
% [1021]
% inverse(C) double_divide A <->
% inverse(((A double_divide B) multiply B) double_divide C)
% Current number of equations to process: 1874
% Current number of ordered equations: 1
% Current number of rules: 999
% New rule produced :
% [1022]
% ((inverse(B) double_divide A) double_divide C) multiply C <->
% inverse(A) double_divide B
% Current number of equations to process: 1874
% Current number of ordered equations: 0
% Current number of rules: 1000
% New rule produced :
% [1023]
% inverse(A double_divide C) <->
% ((A double_divide B) multiply B) double_divide inverse(C)
% Current number of equations to process: 1873
% Current number of ordered equations: 1
% Current number of rules: 1001
% New rule produced :
% [1024]
% ((A double_divide B) multiply B) double_divide inverse(C) <->
% inverse(A double_divide C)
% Current number of equations to process: 1873
% Current number of ordered equations: 0
% Current number of rules: 1002
% New rule produced :
% [1025]
% inverse(A) <->
% (((A double_divide B) double_divide C) double_divide C) multiply B
% Current number of equations to process: 1871
% Current number of ordered equations: 3
% Current number of rules: 1003
% New rule produced :
% [1026]
% inverse(A) <->
% (((A double_divide B) multiply B) double_divide C) double_divide C
% Current number of equations to process: 1871
% Current number of ordered equations: 2
% Current number of rules: 1004
% New rule produced :
% [1027]
% (((A double_divide B) double_divide C) double_divide C) multiply B <->
% inverse(A)
% Current number of equations to process: 1871
% Current number of ordered equations: 1
% Current number of rules: 1005
% New rule produced :
% [1028]
% (((A double_divide B) multiply B) double_divide C) double_divide C <->
% inverse(A)
% Current number of equations to process: 1871
% Current number of ordered equations: 0
% Current number of rules: 1006
% New rule produced :
% [1029]
% inverse(A) <->
% inverse(inverse(inverse(inverse(A double_divide B)))) multiply B
% Current number of equations to process: 1870
% Current number of ordered equations: 1
% Current number of rules: 1007
% New rule produced :
% [1030]
% inverse(inverse(inverse(inverse(A double_divide B)))) multiply B <->
% inverse(A)
% Current number of equations to process: 1870
% Current number of ordered equations: 0
% Current number of rules: 1008
% New rule produced :
% [1031]
% inverse(B) double_divide A <->
% ((inverse(A) multiply B) double_divide C) double_divide C
% Current number of equations to process: 1868
% Current number of ordered equations: 3
% Current number of rules: 1009
% New rule produced :
% [1032]
% inverse(C) double_divide A <->
% ((inverse(A) double_divide B) double_divide B) multiply C
% Current number of equations to process: 1868
% Current number of ordered equations: 2
% Current number of rules: 1010
% New rule produced :
% [1033]
% ((inverse(A) double_divide B) double_divide B) multiply C <->
% inverse(C) double_divide A
% Current number of equations to process: 1868
% Current number of ordered equations: 1
% Current number of rules: 1011
% New rule produced :
% [1034]
% ((inverse(A) multiply B) double_divide C) double_divide C <->
% inverse(B) double_divide A
% Current number of equations to process: 1868
% Current number of ordered equations: 0
% Current number of rules: 1012
% New rule produced :
% [1035]
% inverse(C) double_divide (A double_divide B) <->
% (inverse(A) double_divide inverse(B)) multiply C
% Current number of equations to process: 1867
% Current number of ordered equations: 1
% Current number of rules: 1013
% New rule produced :
% [1036]
% (inverse(A) double_divide inverse(B)) multiply C <->
% inverse(C) double_divide (A double_divide B)
% Current number of equations to process: 1867
% Current number of ordered equations: 0
% Current number of rules: 1014
% New rule produced :
% [1037]
% (inverse(A) double_divide B) multiply C <->
% inverse(C) double_divide (inverse(B) double_divide A)
% Current number of equations to process: 1866
% Current number of ordered equations: 1
% Current number of rules: 1015
% New rule produced :
% [1038]
% inverse(C) double_divide (inverse(B) double_divide A) <->
% (inverse(A) double_divide B) multiply C
% Current number of equations to process: 1866
% Current number of ordered equations: 0
% Current number of rules: 1016
% New rule produced :
% [1039]
% inverse(inverse(inverse(inverse(inverse(A) multiply B)))) <->
% inverse(B) double_divide A
% Current number of equations to process: 1864
% Current number of ordered equations: 3
% Current number of rules: 1017
% New rule produced :
% [1040]
% inverse(B) double_divide A <->
% inverse(inverse(inverse(inverse(inverse(A) multiply B))))
% Current number of equations to process: 1864
% Current number of ordered equations: 2
% Current number of rules: 1018
% New rule produced :
% [1041]
% inverse(B) double_divide A <->
% inverse(inverse(inverse(inverse(inverse(A))))) multiply B
% Current number of equations to process: 1864
% Current number of ordered equations: 1
% Current number of rules: 1019
% New rule produced :
% [1042]
% inverse(inverse(inverse(inverse(inverse(A))))) multiply B <->
% inverse(B) double_divide A
% Current number of equations to process: 1864
% Current number of ordered equations: 0
% Current number of rules: 1020
% New rule produced :
% [1043]
% inverse(B) multiply A <->
% ((inverse(A) double_divide B) double_divide C) double_divide C
% Current number of equations to process: 1862
% Current number of ordered equations: 3
% Current number of rules: 1021
% New rule produced :
% [1044]
% inverse(C) multiply A <->
% ((inverse(A) double_divide B) double_divide B) double_divide C
% Current number of equations to process: 1862
% Current number of ordered equations: 2
% Current number of rules: 1022
% New rule produced :
% [1045]
% ((inverse(A) double_divide B) double_divide C) double_divide C <->
% inverse(B) multiply A
% Current number of equations to process: 1862
% Current number of ordered equations: 1
% Current number of rules: 1023
% New rule produced :
% [1046]
% ((inverse(A) double_divide B) double_divide B) double_divide C <->
% inverse(C) multiply A
% Current number of equations to process: 1862
% Current number of ordered equations: 0
% Current number of rules: 1024
% New rule produced :
% [1047]
% inverse(C) multiply (A double_divide B) <->
% (inverse(A) double_divide inverse(B)) double_divide C
% Current number of equations to process: 1861
% Current number of ordered equations: 1
% Current number of rules: 1025
% New rule produced :
% [1048]
% (inverse(A) double_divide inverse(B)) double_divide C <->
% inverse(C) multiply (A double_divide B)
% Current number of equations to process: 1861
% Current number of ordered equations: 0
% Current number of rules: 1026
% New rule produced :
% [1049]
% inverse(C) multiply (inverse(B) double_divide A) <->
% (inverse(A) double_divide B) double_divide C
% Current number of equations to process: 1860
% Current number of ordered equations: 1
% Current number of rules: 1027
% New rule produced :
% [1050]
% (inverse(A) double_divide B) double_divide C <->
% inverse(C) multiply (inverse(B) double_divide A)
% Current number of equations to process: 1860
% Current number of ordered equations: 0
% Current number of rules: 1028
% New rule produced :
% [1051]
% inverse(A double_divide C) multiply (B double_divide C) <->
% inverse(A) double_divide B
% Current number of equations to process: 1859
% Current number of ordered equations: 1
% Current number of rules: 1029
% New rule produced :
% [1052]
% inverse(A) double_divide B <->
% inverse(A double_divide C) multiply (B double_divide C)
% Current number of equations to process: 1859
% Current number of ordered equations: 0
% Current number of rules: 1030
% New rule produced :
% [1053]
% inverse(A double_divide B) double_divide (A double_divide C) <->
% inverse(B) multiply C
% Current number of equations to process: 1858
% Current number of ordered equations: 1
% Current number of rules: 1031
% New rule produced :
% [1054]
% inverse(B) multiply C <->
% inverse(A double_divide B) double_divide (A double_divide C)
% Current number of equations to process: 1858
% Current number of ordered equations: 0
% Current number of rules: 1032
% New rule produced :
% [1055]
% inverse(inverse(inverse(inverse(inverse(A) double_divide B)))) <->
% inverse(B) multiply A
% Current number of equations to process: 1856
% Current number of ordered equations: 3
% Current number of rules: 1033
% New rule produced :
% [1056]
% inverse(B) multiply A <->
% inverse(inverse(inverse(inverse(inverse(A) double_divide B))))
% Current number of equations to process: 1856
% Current number of ordered equations: 2
% Current number of rules: 1034
% New rule produced :
% [1057]
% inverse(B) multiply A <->
% inverse(inverse(inverse(inverse(inverse(A))))) double_divide B
% Current number of equations to process: 1856
% Current number of ordered equations: 1
% Current number of rules: 1035
% New rule produced :
% [1058]
% inverse(inverse(inverse(inverse(inverse(A))))) double_divide B <->
% inverse(B) multiply A
% Current number of equations to process: 1856
% Current number of ordered equations: 0
% Current number of rules: 1036
% New rule produced :
% [1059]
% inverse(A) double_divide ((A double_divide B) double_divide B) <->
% inverse(C) double_divide C
% Current number of equations to process: 1855
% Current number of ordered equations: 1
% Current number of rules: 1037
% New rule produced :
% [1060]
% inverse(C) double_divide C <->
% inverse(A) double_divide ((A double_divide B) double_divide B)
% Current number of equations to process: 1855
% Current number of ordered equations: 0
% Current number of rules: 1038
% New rule produced :
% [1061]
% inverse(inverse(A) double_divide inverse(B)) <->
% ((A double_divide B) double_divide C) double_divide C
% Current number of equations to process: 1854
% Current number of ordered equations: 1
% Current number of rules: 1039
% New rule produced :
% [1062]
% ((A double_divide B) double_divide C) double_divide C <->
% inverse(inverse(A) double_divide inverse(B))
% Current number of equations to process: 1854
% Current number of ordered equations: 0
% Current number of rules: 1040
% New rule produced :
% [1063]
% inverse(inverse(A) double_divide inverse(C)) <->
% ((A double_divide B) double_divide B) double_divide C
% Current number of equations to process: 1853
% Current number of ordered equations: 1
% Current number of rules: 1041
% New rule produced :
% [1064]
% ((A double_divide B) double_divide B) double_divide C <->
% inverse(inverse(A) double_divide inverse(C))
% Current number of equations to process: 1853
% Current number of ordered equations: 0
% Current number of rules: 1042
% New rule produced :
% [1065]
% inverse(A) double_divide B <->
% ((inverse(C) double_divide C) double_divide B) multiply A
% Current number of equations to process: 1851
% Current number of ordered equations: 1
% Current number of rules: 1043
% New rule produced :
% [1066]
% ((inverse(C) double_divide C) double_divide B) multiply A <->
% inverse(A) double_divide B
% Current number of equations to process: 1851
% Current number of ordered equations: 0
% Current number of rules: 1044
% New rule produced :
% [1067]
% inverse(B) multiply A <->
% inverse(A) double_divide ((B double_divide C) double_divide C)
% Current number of equations to process: 1850
% Current number of ordered equations: 1
% Current number of rules: 1045
% New rule produced :
% [1068]
% inverse(A) double_divide ((B double_divide C) double_divide C) <->
% inverse(B) multiply A
% Current number of equations to process: 1850
% Current number of ordered equations: 0
% Current number of rules: 1046
% New rule produced :
% [1069]
% inverse(A double_divide B) <->
% (A multiply B) multiply (inverse(C) double_divide C)
% Current number of equations to process: 1849
% Current number of ordered equations: 1
% Current number of rules: 1047
% New rule produced :
% [1070]
% (A multiply B) multiply (inverse(C) double_divide C) <->
% inverse(A double_divide B)
% Current number of equations to process: 1849
% Current number of ordered equations: 0
% Current number of rules: 1048
% New rule produced :
% [1071]
% inverse((inverse(A) double_divide A) double_divide B) <->
% (inverse(C) double_divide C) multiply B
% Current number of equations to process: 1848
% Current number of ordered equations: 1
% Current number of rules: 1049
% New rule produced :
% [1072]
% (inverse(C) double_divide C) multiply B <->
% inverse((inverse(A) double_divide A) double_divide B)
% Current number of equations to process: 1848
% Current number of ordered equations: 0
% Current number of rules: 1050
% New rule produced :
% [1073]
% inverse(A) double_divide (inverse(B) double_divide B) <->
% (inverse(C) double_divide C) multiply A
% Current number of equations to process: 1847
% Current number of ordered equations: 1
% Current number of rules: 1051
% New rule produced :
% [1074]
% (inverse(C) double_divide C) multiply A <->
% inverse(A) double_divide (inverse(B) double_divide B)
% Current number of equations to process: 1847
% Current number of ordered equations: 0
% Current number of rules: 1052
% New rule produced :
% [1075]
% inverse(A multiply B) <->
% (inverse(C) double_divide C) multiply (A double_divide B)
% Current number of equations to process: 1846
% Current number of ordered equations: 1
% Current number of rules: 1053
% New rule produced :
% [1076]
% (inverse(C) double_divide C) multiply (A double_divide B) <->
% inverse(A multiply B)
% Current number of equations to process: 1846
% Current number of ordered equations: 0
% Current number of rules: 1054
% New rule produced :
% [1077]
% inverse((A multiply B) double_divide (A double_divide B)) <->
% inverse(C) multiply C
% Current number of equations to process: 1845
% Current number of ordered equations: 1
% Current number of rules: 1055
% New rule produced :
% [1078]
% inverse(C) multiply C <->
% inverse((A multiply B) double_divide (A double_divide B))
% Current number of equations to process: 1845
% Current number of ordered equations: 0
% Current number of rules: 1056
% New rule produced :
% [1079]
% inverse(inverse(inverse(inverse(inverse(A))) double_divide A)) <->
% inverse(B) multiply B
% Current number of equations to process: 1844
% Current number of ordered equations: 1
% Current number of rules: 1057
% New rule produced :
% [1080]
% inverse(B) multiply B <->
% inverse(inverse(inverse(inverse(inverse(A))) double_divide A))
% Current number of equations to process: 1844
% Current number of ordered equations: 0
% Current number of rules: 1058
% New rule produced :
% [1081]
% inverse(((A double_divide B) multiply B) double_divide A) <->
% inverse(C) multiply C
% Current number of equations to process: 1840
% Current number of ordered equations: 3
% Current number of rules: 1059
% New rule produced :
% [1082]
% inverse(C) multiply C <->
% inverse(((A double_divide B) multiply B) double_divide A)
% Current number of equations to process: 1840
% Current number of ordered equations: 2
% Current number of rules: 1060
% New rule produced :
% [1083]
% inverse(C) multiply C <->
% ((inverse(A) double_divide A) double_divide B) multiply B
% Current number of equations to process: 1840
% Current number of ordered equations: 1
% Current number of rules: 1061
% New rule produced :
% [1084]
% ((inverse(A) double_divide A) double_divide B) multiply B <->
% inverse(C) multiply C
% Current number of equations to process: 1840
% Current number of ordered equations: 0
% Current number of rules: 1062
% New rule produced :
% [1085]
% inverse(B) double_divide (inverse(C) double_divide C) <->
% (inverse(A) multiply A) multiply B
% Current number of equations to process: 1839
% Current number of ordered equations: 1
% Current number of rules: 1063
% New rule produced :
% [1086]
% (inverse(A) multiply A) multiply B <->
% inverse(B) double_divide (inverse(C) double_divide C)
% Current number of equations to process: 1839
% Current number of ordered equations: 0
% Current number of rules: 1064
% New rule produced :
% [1087]
% inverse(B) multiply (inverse(C) double_divide C) <->
% (inverse(A) multiply A) double_divide B
% Current number of equations to process: 1838
% Current number of ordered equations: 1
% Current number of rules: 1065
% New rule produced :
% [1088]
% (inverse(A) multiply A) double_divide B <->
% inverse(B) multiply (inverse(C) double_divide C)
% Current number of equations to process: 1838
% Current number of ordered equations: 0
% Current number of rules: 1066
% New rule produced :
% [1089]
% (inverse(C) double_divide C) multiply B <->
% (inverse(A) multiply A) double_divide inverse(B)
% Current number of equations to process: 1837
% Current number of ordered equations: 1
% Current number of rules: 1067
% New rule produced :
% [1090]
% (inverse(A) multiply A) double_divide inverse(B) <->
% (inverse(C) double_divide C) multiply B
% Current number of equations to process: 1837
% Current number of ordered equations: 0
% Current number of rules: 1068
% New rule produced :
% [1091]
% inverse(C) multiply B <->
% ((inverse(A) double_divide A) double_divide B) double_divide C
% Current number of equations to process: 1835
% Current number of ordered equations: 1
% Current number of rules: 1069
% New rule produced :
% [1092]
% ((inverse(A) double_divide A) double_divide B) double_divide C <->
% inverse(C) multiply B
% Current number of equations to process: 1835
% Current number of ordered equations: 0
% Current number of rules: 1070
% New rule produced :
% [1093]
% inverse(A) multiply (inverse(B) double_divide B) <->
% (inverse(C) double_divide C) double_divide A
% Current number of equations to process: 1834
% Current number of ordered equations: 1
% Current number of rules: 1071
% New rule produced :
% [1094]
% (inverse(C) double_divide C) double_divide A <->
% inverse(A) multiply (inverse(B) double_divide B)
% Current number of equations to process: 1834
% Current number of ordered equations: 0
% Current number of rules: 1072
% New rule produced :
% [1095]
% inverse(C) <->
% ((A multiply B) double_divide (A double_divide B)) double_divide C
% Current number of equations to process: 1833
% Current number of ordered equations: 1
% Current number of rules: 1073
% New rule produced :
% [1096]
% ((A multiply B) double_divide (A double_divide B)) double_divide C <->
% inverse(C)
% Current number of equations to process: 1833
% Current number of ordered equations: 0
% Current number of rules: 1074
% New rule produced :
% [1097]
% inverse(B) <->
% inverse(inverse(inverse(inverse(A))) double_divide A) double_divide B
% Current number of equations to process: 1832
% Current number of ordered equations: 1
% Current number of rules: 1075
% New rule produced :
% [1098]
% inverse(inverse(inverse(inverse(A))) double_divide A) double_divide B <->
% inverse(B)
% Current number of equations to process: 1832
% Current number of ordered equations: 0
% Current number of rules: 1076
% New rule produced :
% [1099]
% inverse(C) <->
% (((A double_divide B) multiply B) double_divide A) double_divide C
% Current number of equations to process: 1830
% Current number of ordered equations: 1
% Current number of rules: 1077
% New rule produced :
% [1100]
% (((A double_divide B) multiply B) double_divide A) double_divide C <->
% inverse(C)
% Current number of equations to process: 1830
% Current number of ordered equations: 0
% Current number of rules: 1078
% New rule produced :
% [1101]
% inverse((A multiply B) double_divide (A double_divide B)) <->
% inverse(C) double_divide C
% Current number of equations to process: 1829
% Current number of ordered equations: 1
% Current number of rules: 1079
% New rule produced :
% [1102]
% inverse(C) double_divide C <->
% inverse((A multiply B) double_divide (A double_divide B))
% Current number of equations to process: 1829
% Current number of ordered equations: 0
% Current number of rules: 1080
% New rule produced :
% [1103]
% inverse(inverse(inverse(inverse(inverse(A))) double_divide A)) <->
% inverse(B) double_divide B
% Current number of equations to process: 1828
% Current number of ordered equations: 1
% Current number of rules: 1081
% New rule produced :
% [1104]
% inverse(B) double_divide B <->
% inverse(inverse(inverse(inverse(inverse(A))) double_divide A))
% Current number of equations to process: 1828
% Current number of ordered equations: 0
% Current number of rules: 1082
% New rule produced :
% [1105]
% inverse(((A double_divide B) multiply B) double_divide A) <->
% inverse(C) double_divide C
% Current number of equations to process: 1825
% Current number of ordered equations: 3
% Current number of rules: 1083
% New rule produced :
% [1106]
% inverse(C) double_divide C <->
% inverse(((A double_divide B) multiply B) double_divide A)
% Current number of equations to process: 1825
% Current number of ordered equations: 2
% Current number of rules: 1084
% New rule produced :
% [1107]
% inverse(C) double_divide C <->
% ((inverse(A) double_divide A) double_divide B) multiply B
% Current number of equations to process: 1825
% Current number of ordered equations: 1
% Current number of rules: 1085
% New rule produced :
% [1108]
% ((inverse(A) double_divide A) double_divide B) multiply B <->
% inverse(C) double_divide C
% Current number of equations to process: 1825
% Current number of ordered equations: 0
% Current number of rules: 1086
% New rule produced :
% [1109]
% inverse((A double_divide B) double_divide B) <->
% inverse(A double_divide C) double_divide inverse(C)
% Current number of equations to process: 1821
% Current number of ordered equations: 1
% Current number of rules: 1087
% New rule produced :
% [1110]
% inverse(A double_divide C) double_divide inverse(C) <->
% inverse((A double_divide B) double_divide B)
% Current number of equations to process: 1821
% Current number of ordered equations: 0
% Current number of rules: 1088
% New rule produced :
% [1111]
% inverse((A double_divide B) double_divide B) <->
% inverse(inverse(C) double_divide A) double_divide C
% Current number of equations to process: 1820
% Current number of ordered equations: 1
% Current number of rules: 1089
% New rule produced :
% [1112]
% inverse(inverse(C) double_divide A) double_divide C <->
% inverse((A double_divide B) double_divide B)
% Current number of equations to process: 1820
% Current number of ordered equations: 0
% Current number of rules: 1090
% New rule produced :
% [1113]
% (inverse(B) double_divide C) double_divide C <->
% inverse(inverse(A) double_divide B) double_divide A
% Current number of equations to process: 1819
% Current number of ordered equations: 1
% Current number of rules: 1091
% New rule produced :
% [1114]
% inverse(inverse(A) double_divide B) double_divide A <->
% (inverse(B) double_divide C) double_divide C
% Current number of equations to process: 1819
% Current number of ordered equations: 0
% Current number of rules: 1092
% New rule produced :
% [1115]
% inverse(A double_divide B) double_divide inverse(B) <->
% (inverse(A) double_divide C) double_divide C
% Current number of equations to process: 1817
% Current number of ordered equations: 2
% Current number of rules: 1093
% New rule produced :
% [1116]
% (inverse(B) double_divide C) double_divide C <->
% inverse(A double_divide B) double_divide inverse(A)
% Current number of equations to process: 1817
% Current number of ordered equations: 0
% Current number of rules: 1094
% New rule produced :
% [1117]
% (A double_divide C) double_divide C <-> inverse(A multiply B) double_divide B
% Current number of equations to process: 1880
% Current number of ordered equations: 2
% Current number of rules: 1095
% New rule produced :
% [1118]
% inverse(A multiply B) double_divide B <-> (A double_divide C) double_divide C
% Current number of equations to process: 1880
% Current number of ordered equations: 0
% Current number of rules: 1096
% New rule produced :
% [1119]
% inverse(A double_divide C) <->
% ((A double_divide B) double_divide B) multiply C
% Current number of equations to process: 1891
% Current number of ordered equations: 1
% Current number of rules: 1097
% New rule produced :
% [1120]
% ((A double_divide B) double_divide B) multiply C <->
% inverse(A double_divide C)
% Current number of equations to process: 1891
% Current number of ordered equations: 0
% Current number of rules: 1098
% New rule produced :
% [1121]
% (inverse(B) double_divide C) double_divide C <->
% (inverse(A) multiply B) double_divide A
% Current number of equations to process: 1890
% Current number of ordered equations: 1
% Current number of rules: 1099
% New rule produced :
% [1122]
% (inverse(A) multiply B) double_divide A <->
% (inverse(B) double_divide C) double_divide C
% Current number of equations to process: 1890
% Current number of ordered equations: 0
% Current number of rules: 1100
% New rule produced :
% [1123]
% (A multiply B) double_divide inverse(B) <->
% (inverse(A) double_divide C) double_divide C
% Current number of equations to process: 1888
% Current number of ordered equations: 2
% Current number of rules: 1101
% New rule produced :
% [1124]
% (inverse(B) double_divide C) double_divide C <->
% (A multiply B) double_divide inverse(A)
% Current number of equations to process: 1888
% Current number of ordered equations: 0
% Current number of rules: 1102
% New rule produced :
% [1125]
% (A double_divide C) double_divide C <->
% (inverse(A) multiply B) double_divide inverse(B)
% Current number of equations to process: 1900
% Current number of ordered equations: 3
% Current number of rules: 1103
% New rule produced :
% [1126]
% (B double_divide C) double_divide C <->
% inverse(inverse(A) double_divide B) multiply A
% Current number of equations to process: 1900
% Current number of ordered equations: 2
% Current number of rules: 1104
% New rule produced :
% [1127]
% inverse(inverse(A) double_divide B) multiply A <->
% (B double_divide C) double_divide C
% Current number of equations to process: 1900
% Current number of ordered equations: 1
% Current number of rules: 1105
% New rule produced :
% [1128]
% (inverse(A) multiply B) double_divide inverse(B) <->
% (A double_divide C) double_divide C
% Current number of equations to process: 1900
% Current number of ordered equations: 0
% Current number of rules: 1106
% New rule produced :
% [1129]
% inverse(inverse(A double_divide C)) <->
% ((A double_divide B) double_divide B) double_divide C
% Current number of equations to process: 1897
% Current number of ordered equations: 5
% Current number of rules: 1107
% New rule produced :
% [1130]
% (B double_divide C) double_divide C <->
% inverse(inverse(A)) double_divide (A double_divide B)
% Current number of equations to process: 1897
% Current number of ordered equations: 4
% Current number of rules: 1108
% New rule produced :
% [1131]
% inverse(inverse(A)) double_divide B <->
% ((A double_divide B) double_divide C) double_divide C
% Current number of equations to process: 1897
% Current number of ordered equations: 3
% Current number of rules: 1109
% New rule produced :
% [1132]
% inverse(inverse(A)) double_divide (A double_divide B) <->
% (B double_divide C) double_divide C
% Current number of equations to process: 1897
% Current number of ordered equations: 2
% Current number of rules: 1110
% New rule produced :
% [1133]
% ((A double_divide B) double_divide C) double_divide C <->
% inverse(inverse(A)) double_divide B
% Current number of equations to process: 1897
% Current number of ordered equations: 1
% Current number of rules: 1111
% New rule produced :
% [1134]
% ((A double_divide B) double_divide B) double_divide C <->
% inverse(inverse(A double_divide C))
% Current number of equations to process: 1897
% Current number of ordered equations: 0
% Current number of rules: 1112
% New rule produced :
% [1135]
% inverse(C) <->
% ((A double_divide B) double_divide B) multiply (A double_divide C)
% Current number of equations to process: 1904
% Current number of ordered equations: 1
% Current number of rules: 1113
% New rule produced :
% [1136]
% ((A double_divide B) double_divide B) multiply (A double_divide C) <->
% inverse(C)
% Current number of equations to process: 1904
% Current number of ordered equations: 0
% Current number of rules: 1114
% New rule produced :
% [1137]
% inverse(inverse(A) double_divide A) double_divide B <->
% (inverse(B) double_divide C) double_divide C
% Current number of equations to process: 1903
% Current number of ordered equations: 1
% Current number of rules: 1115
% New rule produced :
% [1138]
% (inverse(B) double_divide C) double_divide C <->
% inverse(inverse(A) double_divide A) double_divide B
% Current number of equations to process: 1903
% Current number of ordered equations: 0
% Current number of rules: 1116
% New rule produced :
% [1139]
% inverse((inverse(B) double_divide C) double_divide C) <->
% (inverse(A) double_divide A) multiply B
% Current number of equations to process: 2019
% Current number of ordered equations: 1
% Current number of rules: 1117
% New rule produced :
% [1140]
% (inverse(A) double_divide A) multiply B <->
% inverse((inverse(B) double_divide C) double_divide C)
% Current number of equations to process: 2019
% Current number of ordered equations: 0
% Current number of rules: 1118
% New rule produced :
% [1141] B <-> inverse(inverse(A) double_divide inverse(B)) double_divide A
% Current number of equations to process: 2088
% Current number of ordered equations: 1
% Current number of rules: 1119
% New rule produced :
% [1142] inverse(inverse(A) double_divide inverse(B)) double_divide A <-> B
% Current number of equations to process: 2088
% Current number of ordered equations: 0
% Current number of rules: 1120
% New rule produced :
% [1143]
% (A double_divide B) double_divide C <->
% inverse(B) double_divide (inverse(C) double_divide A)
% Current number of equations to process: 2106
% Current number of ordered equations: 1
% Current number of rules: 1121
% New rule produced :
% [1144]
% inverse(B) double_divide (inverse(C) double_divide A) <->
% (A double_divide B) double_divide C
% Current number of equations to process: 2106
% Current number of ordered equations: 0
% Current number of rules: 1122
% New rule produced :
% [1145]
% (inverse(A) double_divide A) multiply B <->
% (inverse(inverse(B)) double_divide C) double_divide C
% Current number of equations to process: 2110
% Current number of ordered equations: 1
% Current number of rules: 1123
% New rule produced :
% [1146]
% (inverse(inverse(B)) double_divide C) double_divide C <->
% (inverse(A) double_divide A) multiply B
% Current number of equations to process: 2110
% Current number of ordered equations: 0
% Current number of rules: 1124
% New rule produced :
% [1147] B <-> inverse((inverse(A) multiply B) double_divide A)
% Current number of equations to process: 2165
% Current number of ordered equations: 1
% Current number of rules: 1125
% New rule produced :
% [1148] inverse((inverse(A) multiply B) double_divide A) <-> B
% Current number of equations to process: 2165
% Current number of ordered equations: 0
% Current number of rules: 1126
% New rule produced :
% [1149] A <-> inverse((A multiply B) double_divide inverse(B))
% Current number of equations to process: 2163
% Current number of ordered equations: 2
% Current number of rules: 1127
% New rule produced :
% [1150] inverse((A multiply B) double_divide inverse(A)) <-> B
% Current number of equations to process: 2163
% Current number of ordered equations: 0
% Current number of rules: 1128
% New rule produced :
% [1151] A <-> inverse(inverse(inverse(A) multiply B) double_divide B)
% Current number of equations to process: 2168
% Current number of ordered equations: 1
% Current number of rules: 1129
% New rule produced :
% [1152] inverse(inverse(inverse(A) multiply B) double_divide B) <-> A
% Current number of equations to process: 2168
% Current number of ordered equations: 0
% Current number of rules: 1130
% New rule produced :
% [1153]
% (eq)((inverse(A) double_divide B) double_divide B,inverse(A)) -> (true)
% Current number of equations to process: 2189
% Current number of ordered equations: 0
% Current number of rules: 1131
% New rule produced :
% [1154]
% A <-> inverse((inverse(inverse(A)) multiply B) double_divide inverse(B))
% Current number of equations to process: 2187
% Current number of ordered equations: 3
% Current number of rules: 1132
% New rule produced :
% [1155] A <-> inverse(inverse(inverse(A) double_divide inverse(B)) multiply B)
% Current number of equations to process: 2187
% Current number of ordered equations: 2
% Current number of rules: 1133
% New rule produced :
% [1156]
% inverse((inverse(inverse(A)) multiply B) double_divide inverse(B)) <-> A
% Current number of equations to process: 2187
% Current number of ordered equations: 1
% Current number of rules: 1134
% New rule produced :
% [1157] inverse(inverse(inverse(A) double_divide inverse(B)) multiply B) <-> A
% Current number of equations to process: 2187
% Current number of ordered equations: 0
% Current number of rules: 1135
% New rule produced :
% [1158]
% A <-> inverse(inverse(inverse(inverse(A)) double_divide B)) double_divide B
% Current number of equations to process: 2186
% Current number of ordered equations: 1
% Current number of rules: 1136
% New rule produced :
% [1159]
% inverse(inverse(inverse(inverse(A)) double_divide B)) double_divide B <-> A
% Current number of equations to process: 2186
% Current number of ordered equations: 0
% Current number of rules: 1137
% New rule produced :
% [1160] B <-> (inverse(A) multiply inverse(B)) double_divide A
% Current number of equations to process: 2257
% Current number of ordered equations: 1
% Current number of rules: 1138
% New rule produced :
% [1161] (inverse(A) multiply inverse(B)) double_divide A <-> B
% Current number of equations to process: 2257
% Current number of ordered equations: 0
% Current number of rules: 1139
% New rule produced :
% [1162] inverse(B) <-> (inverse(inverse(A)) double_divide B) multiply A
% Current number of equations to process: 2256
% Current number of ordered equations: 1
% Current number of rules: 1140
% New rule produced :
% [1163] (inverse(inverse(A)) double_divide B) multiply A <-> inverse(B)
% Current number of equations to process: 2256
% Current number of ordered equations: 0
% Current number of rules: 1141
% New rule produced :
% [1164] A <-> inverse(inverse(inverse(A)) multiply B) double_divide B
% Current number of equations to process: 2259
% Current number of ordered equations: 1
% Current number of rules: 1142
% New rule produced :
% [1165] inverse(inverse(inverse(A)) multiply B) double_divide B <-> A
% Current number of equations to process: 2259
% Current number of ordered equations: 0
% Current number of rules: 1143
% New rule produced :
% [1166]
% inverse(inverse(inverse(inverse(A)) double_divide B)) <-> A double_divide B
% Current number of equations to process: 2258
% Current number of ordered equations: 1
% Current number of rules: 1144
% New rule produced :
% [1167]
% A double_divide B <-> inverse(inverse(inverse(inverse(A)) double_divide B))
% Current number of equations to process: 2258
% Current number of ordered equations: 0
% Current number of rules: 1145
% New rule produced :
% [1168] A <-> inverse(inverse(inverse(A)) double_divide inverse(B)) multiply B
% Current number of equations to process: 2270
% Current number of ordered equations: 3
% Current number of rules: 1146
% New rule produced :
% [1169]
% A <-> (inverse(inverse(inverse(A))) multiply B) double_divide inverse(B)
% Current number of equations to process: 2270
% Current number of ordered equations: 2
% Current number of rules: 1147
% New rule produced :
% [1170] inverse(inverse(inverse(A)) double_divide inverse(B)) multiply B <-> A
% Current number of equations to process: 2270
% Current number of ordered equations: 1
% Current number of rules: 1148
% New rule produced :
% [1171]
% (inverse(inverse(inverse(A))) multiply B) double_divide inverse(B) <-> A
% Current number of equations to process: 2270
% Current number of ordered equations: 0
% Current number of rules: 1149
% New rule produced :
% [1172]
% (B double_divide C) double_divide C <->
% (inverse(inverse(A)) double_divide B) double_divide A
% Current number of equations to process: 2269
% Current number of ordered equations: 1
% Current number of rules: 1150
% New rule produced :
% [1173]
% (inverse(inverse(A)) double_divide B) double_divide A <->
% (B double_divide C) double_divide C
% Current number of equations to process: 2269
% Current number of ordered equations: 0
% Current number of rules: 1151
% New rule produced :
% [1174]
% B <-> inverse((inverse(inverse(A)) double_divide inverse(B)) double_divide A)
% Current number of equations to process: 2268
% Current number of ordered equations: 1
% Current number of rules: 1152
% New rule produced :
% [1175]
% inverse((inverse(inverse(A)) double_divide inverse(B)) double_divide A) <-> B
% Current number of equations to process: 2268
% Current number of ordered equations: 0
% Current number of rules: 1153
% New rule produced :
% [1176]
% A <-> (inverse(inverse(A)) double_divide inverse(inverse(B))) double_divide B
% Current number of equations to process: 2267
% Current number of ordered equations: 1
% Current number of rules: 1154
% New rule produced :
% [1177]
% (inverse(inverse(A)) double_divide inverse(inverse(B))) double_divide B <-> A
% Current number of equations to process: 2267
% Current number of ordered equations: 0
% Current number of rules: 1155
% New rule produced :
% [1178]
% inverse(inverse(inverse(inverse(A double_divide B)))) <->
% inverse(A) multiply inverse(B)
% Current number of equations to process: 2266
% Current number of ordered equations: 1
% Current number of rules: 1156
% New rule produced :
% [1179]
% inverse(A) multiply inverse(B) <->
% inverse(inverse(inverse(inverse(A double_divide B))))
% Current number of equations to process: 2266
% Current number of ordered equations: 0
% Current number of rules: 1157
% New rule produced :
% [1180] (eq)(inverse(A double_divide B),A multiply B) -> (true)
% Current number of equations to process: 2305
% Current number of ordered equations: 0
% Current number of rules: 1158
% New rule produced :
% [1181]
% inverse(inverse(inverse(A multiply B))) <-> inverse(A) multiply inverse(B)
% Current number of equations to process: 2304
% Current number of ordered equations: 1
% Current number of rules: 1159
% New rule produced :
% [1182]
% inverse(A) multiply inverse(B) <-> inverse(inverse(inverse(A multiply B)))
% Current number of equations to process: 2304
% Current number of ordered equations: 0
% Current number of rules: 1160
% New rule produced :
% [1183]
% inverse(inverse(inverse(inverse(A) multiply B))) <-> inverse(B) multiply A
% Current number of equations to process: 2303
% Current number of ordered equations: 1
% Current number of rules: 1161
% New rule produced :
% [1184]
% inverse(B) multiply A <-> inverse(inverse(inverse(inverse(A) multiply B)))
% Current number of equations to process: 2303
% Current number of ordered equations: 0
% Current number of rules: 1162
% New rule produced :
% [1185]
% (A multiply B) double_divide inverse(C) <->
% inverse(inverse(A double_divide B)) multiply C
% Current number of equations to process: 2304
% Current number of ordered equations: 1
% Current number of rules: 1163
% New rule produced :
% [1186]
% inverse(inverse(A double_divide B)) multiply C <->
% (A multiply B) double_divide inverse(C)
% Current number of equations to process: 2304
% Current number of ordered equations: 0
% Current number of rules: 1164
% New rule produced :
% [1187]
% inverse(inverse(inverse(inverse(inverse(A) double_divide A)))) <->
% inverse(B) multiply B
% Current number of equations to process: 2303
% Current number of ordered equations: 1
% Current number of rules: 1165
% New rule produced :
% [1188]
% inverse(B) multiply B <->
% inverse(inverse(inverse(inverse(inverse(A) double_divide A))))
% Current number of equations to process: 2303
% Current number of ordered equations: 0
% Current number of rules: 1166
% New rule produced :
% [1189]
% inverse(inverse(inverse(A double_divide B))) <->
% ((A multiply B) double_divide C) double_divide C
% Current number of equations to process: 2302
% Current number of ordered equations: 1
% Current number of rules: 1167
% New rule produced :
% [1190]
% ((A multiply B) double_divide C) double_divide C <->
% inverse(inverse(inverse(A double_divide B)))
% Current number of equations to process: 2302
% Current number of ordered equations: 0
% Current number of rules: 1168
% New rule produced :
% [1191]
% inverse(inverse((B double_divide C) double_divide C)) <->
% (inverse(A) double_divide A) multiply B
% Current number of equations to process: 2657
% Current number of ordered equations: 1
% Current number of rules: 1169
% New rule produced :
% [1192]
% (inverse(A) double_divide A) multiply B <->
% inverse(inverse((B double_divide C) double_divide C))
% Current number of equations to process: 2657
% Current number of ordered equations: 0
% Current number of rules: 1170
% New rule produced :
% [1193]
% inverse(inverse(inverse(inverse(A)))) <->
% inverse(inverse(A double_divide B)) double_divide B
% Current number of equations to process: 2780
% Current number of ordered equations: 1
% Current number of rules: 1171
% New rule produced :
% [1194]
% inverse(inverse(A double_divide B)) double_divide B <->
% inverse(inverse(inverse(inverse(A))))
% Current number of equations to process: 2780
% Current number of ordered equations: 0
% Current number of rules: 1172
% New rule produced :
% [1195]
% B <-> inverse(inverse(inverse(inverse(A double_divide B)) double_divide A))
% Current number of equations to process: 2779
% Current number of ordered equations: 1
% Current number of rules: 1173
% New rule produced :
% [1196]
% inverse(inverse(inverse(inverse(A double_divide B)) double_divide A)) <-> B
% Current number of equations to process: 2779
% Current number of ordered equations: 0
% Current number of rules: 1174
% New rule produced :
% [1197]
% (eq)((A double_divide B) double_divide A,inverse(inverse(B))) -> (true)
% Current number of equations to process: 2778
% Current number of ordered equations: 0
% Current number of rules: 1175
% New rule produced :
% [1198]
% (inverse(A) double_divide A) multiply B <->
% inverse(inverse(B double_divide C)) double_divide C
% Current number of equations to process: 2780
% Current number of ordered equations: 1
% Current number of rules: 1176
% New rule produced :
% [1199]
% inverse(inverse(B double_divide C)) double_divide C <->
% (inverse(A) double_divide A) multiply B
% Current number of equations to process: 2780
% Current number of ordered equations: 0
% Current number of rules: 1177
% New rule produced :
% [1200]
% inverse(C) double_divide C <->
% inverse((A double_divide B) double_divide A) double_divide B
% Current number of equations to process: 2779
% Current number of ordered equations: 1
% Current number of rules: 1178
% New rule produced :
% [1201]
% inverse((A double_divide B) double_divide A) double_divide B <->
% inverse(C) double_divide C
% Current number of equations to process: 2779
% Current number of ordered equations: 0
% Current number of rules: 1179
% New rule produced :
% [1202] (eq)((A double_divide B) double_divide A,B) -> (true)
% Rule
% [1153]
% (eq)((inverse(A) double_divide B) double_divide B,inverse(A)) -> (true)
% collapsed.
% Current number of equations to process: 2842
% Current number of ordered equations: 0
% Current number of rules: 1179
% New rule produced :
% [1203] A <-> inverse(inverse(inverse(A multiply B) double_divide B))
% Current number of equations to process: 2847
% Current number of ordered equations: 2
% Current number of rules: 1180
% New rule produced :
% [1204] inverse(inverse(inverse(A multiply B) double_divide A)) <-> B
% Current number of equations to process: 2847
% Current number of ordered equations: 0
% Current number of rules: 1181
% New rule produced :
% [1205]
% (eq)(inverse((A double_divide B) double_divide A),inverse(B)) -> (true)
% Current number of equations to process: 2874
% Current number of ordered equations: 0
% Current number of rules: 1182
% New rule produced :
% [1206]
% A <-> inverse(inverse((inverse(A) multiply B) double_divide inverse(B)))
% Current number of equations to process: 2872
% Current number of ordered equations: 3
% Current number of rules: 1183
% New rule produced :
% [1207] B <-> inverse(inverse(inverse(inverse(A) double_divide B) multiply A))
% Current number of equations to process: 2872
% Current number of ordered equations: 2
% Current number of rules: 1184
% New rule produced :
% [1208] inverse(inverse(inverse(inverse(A) double_divide B) multiply A)) <-> B
% Current number of equations to process: 2872
% Current number of ordered equations: 1
% Current number of rules: 1185
% New rule produced :
% [1209]
% inverse(inverse((inverse(A) multiply B) double_divide inverse(B))) <-> A
% Current number of equations to process: 2872
% Current number of ordered equations: 0
% Current number of rules: 1186
% New rule produced :
% [1210]
% B <-> inverse(inverse(inverse(inverse(A)) double_divide (A double_divide B)))
% Current number of equations to process: 2871
% Current number of ordered equations: 1
% Current number of rules: 1187
% New rule produced :
% [1211]
% inverse(inverse(inverse(inverse(A)) double_divide (A double_divide B))) <-> B
% Current number of equations to process: 2871
% Current number of ordered equations: 0
% Current number of rules: 1188
% New rule produced :
% [1212]
% B <-> inverse(inverse((inverse(inverse(A)) double_divide B) double_divide A))
% Current number of equations to process: 2870
% Current number of ordered equations: 1
% Current number of rules: 1189
% New rule produced :
% [1213]
% inverse(inverse((inverse(inverse(A)) double_divide B) double_divide A)) <-> B
% Current number of equations to process: 2870
% Current number of ordered equations: 0
% Current number of rules: 1190
% New rule produced :
% [1214]
% inverse(A) double_divide B <->
% inverse((B double_divide C) double_divide C) multiply A
% Current number of equations to process: 2879
% Current number of ordered equations: 1
% Current number of rules: 1191
% New rule produced :
% [1215]
% inverse((B double_divide C) double_divide C) multiply A <->
% inverse(A) double_divide B
% Current number of equations to process: 2879
% Current number of ordered equations: 0
% Current number of rules: 1192
% New rule produced :
% [1216]
% inverse(A) <->
% inverse(inverse(inverse(inverse(B) double_divide A))) double_divide B
% Current number of equations to process: 2877
% Current number of ordered equations: 3
% Current number of rules: 1193
% New rule produced :
% [1217]
% inverse(inverse(inverse(inverse(B) double_divide A))) double_divide B <->
% inverse(A)
% Current number of equations to process: 2877
% Current number of ordered equations: 2
% Current number of rules: 1194
% New rule produced :
% [1218]
% inverse(B) <->
% inverse(inverse(inverse(A double_divide B))) double_divide inverse(A)
% Current number of equations to process: 2875
% Current number of ordered equations: 2
% Current number of rules: 1195
% New rule produced :
% [1219]
% inverse(inverse(inverse(A double_divide B))) double_divide inverse(B) <->
% inverse(A)
% Current number of equations to process: 2875
% Current number of ordered equations: 0
% Current number of rules: 1196
% New rule produced :
% [1220]
% inverse(inverse(A double_divide C) double_divide B) <->
% inverse(A) double_divide (B double_divide C)
% Current number of equations to process: 2874
% Current number of ordered equations: 1
% Current number of rules: 1197
% New rule produced :
% [1221]
% inverse(A) double_divide (B double_divide C) <->
% inverse(inverse(A double_divide C) double_divide B)
% Current number of equations to process: 2874
% Current number of ordered equations: 0
% Current number of rules: 1198
% New rule produced :
% [1222]
% inverse(inverse(A double_divide B) double_divide C) <->
% inverse(A) double_divide (B double_divide C)
% Current number of equations to process: 2873
% Current number of ordered equations: 1
% Current number of rules: 1199
% New rule produced :
% [1223]
% inverse(A) double_divide (B double_divide C) <->
% inverse(inverse(A double_divide B) double_divide C)
% Current number of equations to process: 2873
% Current number of ordered equations: 0
% Current number of rules: 1200
% New rule produced :
% [1224] B <-> inverse(A double_divide B) multiply inverse(A)
% Rule
% [713] inverse(A) <-> inverse(inverse(A) double_divide B) multiply inverse(B)
% collapsed.
% Current number of equations to process: 2938
% Current number of ordered equations: 1
% Current number of rules: 1200
% New rule produced :
% [1225] inverse(A double_divide B) multiply inverse(A) <-> B
% Rule
% [714] inverse(inverse(A) double_divide B) multiply inverse(B) <-> inverse(A)
% collapsed.
% Current number of equations to process: 2938
% Current number of ordered equations: 0
% Current number of rules: 1200
% New rule produced :
% [1226] A <-> inverse(inverse(inverse(A multiply B))) double_divide B
% Current number of equations to process: 2937
% Current number of ordered equations: 4
% Current number of rules: 1201
% New rule produced :
% [1227] B <-> inverse(inverse(inverse(A double_divide B)) multiply A)
% Current number of equations to process: 2937
% Current number of ordered equations: 3
% Current number of rules: 1202
% New rule produced :
% [1228] inverse(inverse(inverse(A double_divide B)) multiply A) <-> B
% Current number of equations to process: 2937
% Current number of ordered equations: 2
% Current number of rules: 1203
% New rule produced :
% [1229] inverse(inverse(inverse(A multiply B))) double_divide B <-> A
% Current number of equations to process: 2937
% Current number of ordered equations: 0
% Current number of rules: 1204
% New rule produced :
% [1230]
% A double_divide B <-> inverse(inverse(A)) double_divide inverse(inverse(B))
% Current number of equations to process: 2936
% Current number of ordered equations: 1
% Current number of rules: 1205
% New rule produced :
% [1231]
% inverse(inverse(A)) double_divide inverse(inverse(B)) <-> A double_divide B
% Current number of equations to process: 2936
% Current number of ordered equations: 0
% Current number of rules: 1206
% New rule produced :
% [1232] inverse(B) <-> inverse(inverse(inverse(A) multiply B)) double_divide A
% Current number of equations to process: 2938
% Current number of ordered equations: 1
% Current number of rules: 1207
% New rule produced :
% [1233] inverse(inverse(inverse(A) multiply B)) double_divide A <-> inverse(B)
% Current number of equations to process: 2938
% Current number of ordered equations: 0
% Current number of rules: 1208
% New rule produced :
% [1234] inverse(B) <-> inverse(inverse(A multiply B)) double_divide inverse(A)
% Current number of equations to process: 2936
% Current number of ordered equations: 2
% Current number of rules: 1209
% New rule produced :
% [1235] inverse(inverse(A multiply B)) double_divide inverse(B) <-> inverse(A)
% Current number of equations to process: 2936
% Current number of ordered equations: 0
% Current number of rules: 1210
% New rule produced :
% [1236]
% inverse(inverse(inverse(A))) <->
% inverse(inverse(A double_divide B)) multiply B
% Current number of equations to process: 2935
% Current number of ordered equations: 1
% Current number of rules: 1211
% New rule produced :
% [1237]
% inverse(inverse(A double_divide B)) multiply B <->
% inverse(inverse(inverse(A)))
% Current number of equations to process: 2935
% Current number of ordered equations: 0
% Current number of rules: 1212
% New rule produced :
% [1238] A <-> inverse(inverse(inverse(A) multiply B)) double_divide inverse(B)
% Current number of equations to process: 2941
% Current number of ordered equations: 3
% Current number of rules: 1213
% New rule produced :
% [1239] B <-> inverse(inverse(inverse(inverse(A) double_divide B))) multiply A
% Current number of equations to process: 2941
% Current number of ordered equations: 2
% Current number of rules: 1214
% New rule produced :
% [1240] inverse(inverse(inverse(inverse(A) double_divide B))) multiply A <-> B
% Current number of equations to process: 2941
% Current number of ordered equations: 1
% Current number of rules: 1215
% New rule produced :
% [1241] inverse(inverse(inverse(A) multiply B)) double_divide inverse(B) <-> A
% Current number of equations to process: 2941
% Current number of ordered equations: 0
% Current number of rules: 1216
% New rule produced :
% [1242]
% B <-> inverse(inverse(inverse(inverse(A)))) double_divide (A double_divide B)
% Current number of equations to process: 2940
% Current number of ordered equations: 1
% Current number of rules: 1217
% New rule produced :
% [1243]
% inverse(inverse(inverse(inverse(A)))) double_divide (A double_divide B) <-> B
% Current number of equations to process: 2940
% Current number of ordered equations: 0
% Current number of rules: 1218
% New rule produced :
% [1244]
% A <-> inverse(inverse(A double_divide B)) double_divide inverse(inverse(B))
% Current number of equations to process: 2939
% Current number of ordered equations: 1
% Current number of rules: 1219
% New rule produced :
% [1245]
% inverse(inverse(A double_divide B)) double_divide inverse(inverse(B)) <-> A
% Current number of equations to process: 2939
% Current number of ordered equations: 0
% Current number of rules: 1220
% New rule produced :
% [1246]
% inverse(inverse(inverse(inverse(A))) double_divide inverse(B)) <->
% A double_divide B
% Current number of equations to process: 2938
% Current number of ordered equations: 1
% Current number of rules: 1221
% New rule produced :
% [1247]
% A double_divide B <->
% inverse(inverse(inverse(inverse(A))) double_divide inverse(B))
% Current number of equations to process: 2938
% Current number of ordered equations: 0
% Current number of rules: 1222
% New rule produced :
% [1248]
% inverse(B) <->
% inverse(inverse(inverse(inverse(A) double_divide A))) double_divide B
% Current number of equations to process: 2941
% Current number of ordered equations: 1
% Current number of rules: 1223
% New rule produced :
% [1249]
% inverse(inverse(inverse(inverse(A) double_divide A))) double_divide B <->
% inverse(B)
% Current number of equations to process: 2941
% Current number of ordered equations: 0
% Current number of rules: 1224
% New rule produced :
% [1250] inverse(inverse(inverse(A)) multiply B) <-> A double_divide B
% Current number of equations to process: 2982
% Current number of ordered equations: 1
% Current number of rules: 1225
% New rule produced :
% [1251] A double_divide B <-> inverse(inverse(inverse(A)) multiply B)
% Current number of equations to process: 2982
% Current number of ordered equations: 0
% Current number of rules: 1226
% New rule produced :
% [1252] inverse(inverse(inverse(A) multiply inverse(B))) <-> A double_divide B
% Current number of equations to process: 2984
% Current number of ordered equations: 1
% Current number of rules: 1227
% New rule produced :
% [1253] A double_divide B <-> inverse(inverse(inverse(A) multiply inverse(B)))
% Current number of equations to process: 2984
% Current number of ordered equations: 0
% Current number of rules: 1228
% New rule produced :
% [1254]
% inverse(inverse(inverse(A)) double_divide B) <->
% inverse(A) double_divide inverse(B)
% Current number of equations to process: 3055
% Current number of ordered equations: 1
% Current number of rules: 1229
% New rule produced :
% [1255]
% inverse(A) double_divide inverse(B) <->
% inverse(inverse(inverse(A)) double_divide B)
% Current number of equations to process: 3055
% Current number of ordered equations: 0
% Current number of rules: 1230
% New rule produced :
% [1256]
% inverse(inverse(A) double_divide inverse(B)) <->
% inverse(inverse(A)) double_divide B
% Current number of equations to process: 3054
% Current number of ordered equations: 1
% Current number of rules: 1231
% New rule produced :
% [1257]
% inverse(inverse(A)) double_divide B <->
% inverse(inverse(A) double_divide inverse(B))
% Current number of equations to process: 3054
% Current number of ordered equations: 0
% Current number of rules: 1232
% New rule produced :
% [1258]
% inverse(inverse(inverse(B)) double_divide inverse(A)) <->
% inverse(A) multiply B
% Current number of equations to process: 3064
% Current number of ordered equations: 1
% Current number of rules: 1233
% New rule produced :
% [1259]
% inverse(A) multiply B <->
% inverse(inverse(inverse(B)) double_divide inverse(A))
% Current number of equations to process: 3064
% Current number of ordered equations: 0
% Current number of rules: 1234
% New rule produced :
% [1260]
% inverse(inverse(inverse(A)) double_divide inverse(inverse(B))) <->
% A multiply B
% Current number of equations to process: 3078
% Current number of ordered equations: 1
% Current number of rules: 1235
% New rule produced :
% [1261]
% A multiply B <->
% inverse(inverse(inverse(A)) double_divide inverse(inverse(B)))
% Current number of equations to process: 3078
% Current number of ordered equations: 0
% Current number of rules: 1236
% New rule produced :
% [1262]
% inverse(inverse(B)) double_divide A <->
% inverse(inverse(inverse(inverse(A)))) double_divide B
% Current number of equations to process: 3077
% Current number of ordered equations: 1
% Current number of rules: 1237
% New rule produced :
% [1263]
% inverse(inverse(inverse(inverse(A)))) double_divide B <->
% inverse(inverse(B)) double_divide A
% Current number of equations to process: 3077
% Current number of ordered equations: 0
% Current number of rules: 1238
% New rule produced :
% [1264]
% A <-> inverse(inverse(inverse(inverse(B)) double_divide A)) double_divide B
% Current number of equations to process: 3076
% Current number of ordered equations: 1
% Current number of rules: 1239
% New rule produced :
% [1265]
% inverse(inverse(inverse(inverse(B)) double_divide A)) double_divide B <-> A
% Current number of equations to process: 3076
% Current number of ordered equations: 0
% Current number of rules: 1240
% New rule produced :
% [1266]
% inverse(inverse(C)) double_divide (A double_divide B) <->
% inverse(A multiply B) double_divide C
% Current number of equations to process: 3084
% Current number of ordered equations: 1
% Current number of rules: 1241
% New rule produced :
% [1267]
% inverse(A multiply B) double_divide C <->
% inverse(inverse(C)) double_divide (A double_divide B)
% Current number of equations to process: 3084
% Current number of ordered equations: 0
% Current number of rules: 1242
% New rule produced :
% [1268]
% inverse(inverse(inverse(inverse(A))) double_divide B) <->
% inverse(inverse(inverse(B))) double_divide A
% Current number of equations to process: 3083
% Current number of ordered equations: 1
% Current number of rules: 1243
% New rule produced :
% [1269]
% inverse(inverse(inverse(B))) double_divide A <->
% inverse(inverse(inverse(inverse(A))) double_divide B)
% Current number of equations to process: 3083
% Current number of ordered equations: 0
% Current number of rules: 1244
% New rule produced :
% [1270] inverse(A) multiply inverse(B) <-> inverse(inverse(A)) double_divide B
% Current number of equations to process: 3168
% Current number of ordered equations: 1
% Current number of rules: 1245
% New rule produced :
% [1271] inverse(inverse(A)) double_divide B <-> inverse(A) multiply inverse(B)
% Current number of equations to process: 3168
% Current number of ordered equations: 0
% Current number of rules: 1246
% New rule produced :
% [1272]
% inverse(inverse(inverse(B))) <->
% (inverse(inverse(A)) double_divide B) multiply A
% Current number of equations to process: 3177
% Current number of ordered equations: 1
% Current number of rules: 1247
% New rule produced :
% [1273]
% (inverse(inverse(A)) double_divide B) multiply A <->
% inverse(inverse(inverse(B)))
% Current number of equations to process: 3177
% Current number of ordered equations: 0
% Current number of rules: 1248
% New rule produced :
% [1274]
% inverse(inverse(inverse(B))) double_divide A <->
% inverse(inverse(inverse(A))) multiply B
% Current number of equations to process: 3176
% Current number of ordered equations: 1
% Current number of rules: 1249
% New rule produced :
% [1275]
% inverse(inverse(inverse(A))) multiply B <->
% inverse(inverse(inverse(B))) double_divide A
% Current number of equations to process: 3176
% Current number of ordered equations: 0
% Current number of rules: 1250
% New rule produced :
% [1276]
% inverse(inverse(inverse(inverse(B)))) <->
% (inverse(inverse(A)) double_divide B) double_divide A
% Current number of equations to process: 3182
% Current number of ordered equations: 1
% Current number of rules: 1251
% New rule produced :
% [1277]
% (inverse(inverse(A)) double_divide B) double_divide A <->
% inverse(inverse(inverse(inverse(B))))
% Current number of equations to process: 3182
% Current number of ordered equations: 0
% Current number of rules: 1252
% New rule produced :
% [1278]
% inverse(A double_divide B) double_divide C <->
% (A multiply B) double_divide inverse(inverse(C))
% Current number of equations to process: 3185
% Current number of ordered equations: 1
% Current number of rules: 1253
% New rule produced :
% [1279]
% (A multiply B) double_divide inverse(inverse(C)) <->
% inverse(A double_divide B) double_divide C
% Current number of equations to process: 3185
% Current number of ordered equations: 0
% Current number of rules: 1254
% New rule produced :
% [1280]
% inverse(B) <->
% inverse(inverse(A)) multiply (inverse(inverse(B)) double_divide A)
% Current number of equations to process: 3184
% Current number of ordered equations: 1
% Current number of rules: 1255
% New rule produced :
% [1281]
% inverse(inverse(A)) multiply (inverse(inverse(B)) double_divide A) <->
% inverse(B)
% Current number of equations to process: 3184
% Current number of ordered equations: 0
% Current number of rules: 1256
% New rule produced :
% [1282]
% inverse(inverse(inverse(A))) <->
% inverse(inverse(inverse(B) double_divide B)) double_divide A
% Current number of equations to process: 3183
% Current number of ordered equations: 1
% Current number of rules: 1257
% New rule produced :
% [1283]
% inverse(inverse(inverse(B) double_divide B)) double_divide A <->
% inverse(inverse(inverse(A)))
% Current number of equations to process: 3183
% Current number of ordered equations: 0
% Current number of rules: 1258
% New rule produced :
% [1284]
% inverse(inverse(inverse(inverse(A) double_divide B))) <->
% inverse(inverse(B)) multiply inverse(A)
% Current number of equations to process: 3182
% Current number of ordered equations: 1
% Current number of rules: 1259
% New rule produced :
% [1285]
% inverse(inverse(B)) multiply inverse(A) <->
% inverse(inverse(inverse(inverse(A) double_divide B)))
% Current number of equations to process: 3182
% Current number of ordered equations: 0
% Current number of rules: 1260
% New rule produced :
% [1286]
% inverse(inverse(inverse(A double_divide B))) <->
% inverse(inverse(A)) multiply inverse(inverse(B))
% Current number of equations to process: 3181
% Current number of ordered equations: 1
% Current number of rules: 1261
% New rule produced :
% [1287]
% inverse(inverse(A)) multiply inverse(inverse(B)) <->
% inverse(inverse(inverse(A double_divide B)))
% Current number of equations to process: 3181
% Current number of ordered equations: 0
% Current number of rules: 1262
% New rule produced :
% [1288]
% inverse(inverse(inverse(A) multiply B)) <->
% inverse(inverse(B)) multiply inverse(A)
% Current number of equations to process: 3241
% Current number of ordered equations: 1
% Current number of rules: 1263
% New rule produced :
% [1289]
% inverse(inverse(B)) multiply inverse(A) <->
% inverse(inverse(inverse(A) multiply B))
% Current number of equations to process: 3241
% Current number of ordered equations: 0
% Current number of rules: 1264
% New rule produced :
% [1290]
% inverse(A double_divide B) <->
% inverse(inverse(A)) multiply inverse(inverse(B))
% Current number of equations to process: 3240
% Current number of ordered equations: 1
% Current number of rules: 1265
% New rule produced :
% [1291]
% inverse(inverse(A)) multiply inverse(inverse(B)) <->
% inverse(A double_divide B)
% Current number of equations to process: 3240
% Current number of ordered equations: 0
% Current number of rules: 1266
% New rule produced :
% [1292] (eq)(A double_divide B,inverse(A) multiply inverse(B)) -> (true)
% Current number of equations to process: 3243
% Current number of ordered equations: 0
% Current number of rules: 1267
% New rule produced :
% [1293]
% inverse(A) multiply inverse(B) <->
% ((A double_divide B) double_divide C) double_divide C
% Current number of equations to process: 3242
% Current number of ordered equations: 1
% Current number of rules: 1268
% New rule produced :
% [1294]
% ((A double_divide B) double_divide C) double_divide C <->
% inverse(A) multiply inverse(B)
% Current number of equations to process: 3242
% Current number of ordered equations: 0
% Current number of rules: 1269
% New rule produced :
% [1295]
% inverse(inverse(inverse(inverse(A)))) <->
% inverse(A double_divide B) multiply inverse(B)
% Current number of equations to process: 3241
% Current number of ordered equations: 1
% Current number of rules: 1270
% New rule produced :
% [1296]
% inverse(A double_divide B) multiply inverse(B) <->
% inverse(inverse(inverse(inverse(A))))
% Current number of equations to process: 3241
% Current number of ordered equations: 0
% Current number of rules: 1271
% New rule produced :
% [1297]
% inverse(inverse(A multiply B)) <->
% inverse(inverse(A)) multiply inverse(inverse(B))
% Current number of equations to process: 3240
% Current number of ordered equations: 1
% Current number of rules: 1272
% New rule produced :
% [1298]
% inverse(inverse(A)) multiply inverse(inverse(B)) <->
% inverse(inverse(A multiply B))
% Current number of equations to process: 3240
% Current number of ordered equations: 0
% Current number of rules: 1273
% New rule produced :
% [1299]
% inverse(inverse(A double_divide B)) <->
% inverse(inverse(inverse(A))) multiply inverse(B)
% Current number of equations to process: 3239
% Current number of ordered equations: 1
% Current number of rules: 1274
% New rule produced :
% [1300]
% inverse(inverse(inverse(A))) multiply inverse(B) <->
% inverse(inverse(A double_divide B))
% Current number of equations to process: 3239
% Current number of ordered equations: 0
% Current number of rules: 1275
% New rule produced :
% [1301]
% inverse(inverse((A double_divide B) double_divide C)) <->
% (A multiply B) multiply inverse(C)
% Current number of equations to process: 3241
% Current number of ordered equations: 1
% Current number of rules: 1276
% New rule produced :
% [1302]
% (A multiply B) multiply inverse(C) <->
% inverse(inverse((A double_divide B) double_divide C))
% Current number of equations to process: 3241
% Current number of ordered equations: 0
% Current number of rules: 1277
% New rule produced :
% [1303] inverse(A multiply B) <-> inverse(inverse(A)) double_divide B
% Current number of equations to process: 3272
% Current number of ordered equations: 1
% Current number of rules: 1278
% New rule produced :
% [1304] inverse(inverse(A)) double_divide B <-> inverse(A multiply B)
% Current number of equations to process: 3272
% Current number of ordered equations: 0
% Current number of rules: 1279
% New rule produced :
% [1305]
% inverse(inverse(inverse(inverse(A double_divide B)))) <->
% inverse(inverse(B)) double_divide A
% Current number of equations to process: 3309
% Current number of ordered equations: 1
% Current number of rules: 1280
% New rule produced :
% [1306]
% inverse(inverse(B)) double_divide A <->
% inverse(inverse(inverse(inverse(A double_divide B))))
% Current number of equations to process: 3309
% Current number of ordered equations: 0
% Current number of rules: 1281
% New rule produced :
% [1307]
% inverse(inverse(inverse(inverse(inverse(B))) double_divide A)) <->
% inverse(A) multiply B
% Current number of equations to process: 3313
% Current number of ordered equations: 1
% Current number of rules: 1282
% New rule produced :
% [1308]
% inverse(A) multiply B <->
% inverse(inverse(inverse(inverse(inverse(B))) double_divide A))
% Current number of equations to process: 3313
% Current number of ordered equations: 0
% Current number of rules: 1283
% New rule produced :
% [1309]
% inverse(inverse((B multiply C) double_divide A)) <->
% inverse(A) multiply (B double_divide C)
% Current number of equations to process: 3312
% Current number of ordered equations: 1
% Current number of rules: 1284
% New rule produced :
% [1310]
% inverse(A) multiply (B double_divide C) <->
% inverse(inverse((B multiply C) double_divide A))
% Current number of equations to process: 3312
% Current number of ordered equations: 0
% Current number of rules: 1285
% New rule produced :
% [1311]
% inverse(inverse(inverse(inverse(A) double_divide B))) <->
% inverse(inverse(inverse(B))) double_divide A
% Current number of equations to process: 3311
% Current number of ordered equations: 1
% Current number of rules: 1286
% New rule produced :
% [1312]
% inverse(inverse(inverse(B))) double_divide A <->
% inverse(inverse(inverse(inverse(A) double_divide B)))
% Current number of equations to process: 3311
% Current number of ordered equations: 0
% Current number of rules: 1287
% New rule produced :
% [1313]
% inverse(inverse(inverse(A double_divide B))) <->
% inverse(inverse(inverse(B))) double_divide inverse(A)
% Current number of equations to process: 3309
% Current number of ordered equations: 3
% Current number of rules: 1288
% New rule produced :
% [1314]
% inverse(inverse(inverse(A double_divide B))) <->
% inverse(inverse(inverse(A))) double_divide inverse(B)
% Current number of equations to process: 3309
% Current number of ordered equations: 2
% Current number of rules: 1289
% New rule produced :
% [1315]
% inverse(inverse(inverse(B))) double_divide inverse(A) <->
% inverse(inverse(inverse(A double_divide B)))
% Current number of equations to process: 3309
% Current number of ordered equations: 1
% Current number of rules: 1290
% New rule produced :
% [1316]
% inverse(inverse(inverse(A))) double_divide inverse(B) <->
% inverse(inverse(inverse(A double_divide B)))
% Current number of equations to process: 3309
% Current number of ordered equations: 0
% Current number of rules: 1291
% New rule produced :
% [1317]
% inverse(inverse(inverse(A multiply B))) <->
% inverse(inverse(B)) double_divide A
% Current number of equations to process: 3392
% Current number of ordered equations: 3
% Current number of rules: 1292
% New rule produced :
% [1318]
% inverse(inverse(inverse(A multiply B))) <->
% inverse(inverse(A)) double_divide B
% Current number of equations to process: 3392
% Current number of ordered equations: 2
% Current number of rules: 1293
% New rule produced :
% [1319]
% inverse(inverse(B)) double_divide A <->
% inverse(inverse(inverse(A multiply B)))
% Current number of equations to process: 3392
% Current number of ordered equations: 1
% Current number of rules: 1294
% New rule produced :
% [1320]
% inverse(inverse(A)) double_divide B <->
% inverse(inverse(inverse(A multiply B)))
% Current number of equations to process: 3392
% Current number of ordered equations: 0
% Current number of rules: 1295
% New rule produced :
% [1321]
% inverse(inverse(A) multiply A) <->
% inverse(inverse(inverse(B))) double_dCputime limit exceeded (core dumped)
% 
% EOF
%------------------------------------------------------------------------------