maducoeval2

Description: An entry of the adjunct (cofactor) matrix. (Contributed by SO, 17-Jul-2018)

	Ref	Expression
Hypotheses	madufval.a	\|- A = ( N Mat R )
	madufval.d	\|- D = ( N maDet R )
	madufval.j	\|- J = ( N maAdju R )
	madufval.b	\|- B = ( Base ` A )
	madufval.o	\|- .1. = ( 1r ` R )
	madufval.z	\|- .0. = ( 0g ` R )
Assertion	maducoeval2	\|- ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) -> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) ) ) )

Proof

Step	Hyp	Ref	Expression
1		madufval.a	\|- A = ( N Mat R )
2		madufval.d	\|- D = ( N maDet R )
3		madufval.j	\|- J = ( N maAdju R )
4		madufval.b	\|- B = ( Base ` A )
5		madufval.o	\|- .1. = ( 1r ` R )
6		madufval.z	\|- .0. = ( 0g ` R )
7		eleq2	\|- ( m = (/) -> ( k e. m <-> k e. (/) ) )
8	7	ifbid	\|- ( m = (/) -> if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) = if ( k e. (/) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
9	8	ifeq2d	\|- ( m = (/) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. (/) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
10	9	mpoeq3dv	\|- ( m = (/) -> ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. (/) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) )
11	10	fveq2d	\|- ( m = (/) -> ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. (/) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) )
12	11	eqeq2d	\|- ( m = (/) -> ( ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) <-> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. (/) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) ) )
13		eleq2	\|- ( m = n -> ( k e. m <-> k e. n ) )
14	13	ifbid	\|- ( m = n -> if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) = if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
15	14	ifeq2d	\|- ( m = n -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
16	15	mpoeq3dv	\|- ( m = n -> ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) )
17	16	fveq2d	\|- ( m = n -> ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) )
18	17	eqeq2d	\|- ( m = n -> ( ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) <-> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) ) )
19		eleq2	\|- ( m = ( n u. { r } ) -> ( k e. m <-> k e. ( n u. { r } ) ) )
20	19	ifbid	\|- ( m = ( n u. { r } ) -> if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) = if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
21	20	ifeq2d	\|- ( m = ( n u. { r } ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
22	21	mpoeq3dv	\|- ( m = ( n u. { r } ) -> ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) )
23	22	fveq2d	\|- ( m = ( n u. { r } ) -> ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) )
24	23	eqeq2d	\|- ( m = ( n u. { r } ) -> ( ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) <-> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) ) )
25		eleq2	\|- ( m = ( N \ { H } ) -> ( k e. m <-> k e. ( N \ { H } ) ) )
26	25	ifbid	\|- ( m = ( N \ { H } ) -> if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) = if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
27	26	ifeq2d	\|- ( m = ( N \ { H } ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
28	27	mpoeq3dv	\|- ( m = ( N \ { H } ) -> ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) )
29	28	fveq2d	\|- ( m = ( N \ { H } ) -> ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) )
30	29	eqeq2d	\|- ( m = ( N \ { H } ) -> ( ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. m , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) <-> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) ) )
31	1 2 3 4 5 6	maducoeval	\|- ( ( M e. B /\ I e. N /\ H e. N ) -> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , ( k M l ) ) ) ) )
32	31	3adant1l	\|- ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) -> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , ( k M l ) ) ) ) )
33		noel	\|- -. k e. (/)
34		iffalse	\|- ( -. k e. (/) -> if ( k e. (/) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) = ( k M l ) )
35	33 34	mp1i	\|- ( ( k e. N /\ l e. N ) -> if ( k e. (/) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) = ( k M l ) )
36	35	ifeq2d	\|- ( ( k e. N /\ l e. N ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. (/) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , ( k M l ) ) )
37	36	mpoeq3ia	\|- ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. (/) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , ( k M l ) ) )
38	37	fveq2i	\|- ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. (/) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , ( k M l ) ) ) )
39	32 38	eqtr4di	\|- ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) -> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. (/) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) )
40		eqid	\|- ( Base ` R ) = ( Base ` R )
41		eqid	\|- ( +g ` R ) = ( +g ` R )
42		eqid	\|- ( .r ` R ) = ( .r ` R )
43		simpl1l	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> R e. CRing )
44		simp1r	\|- ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) -> M e. B )
45	1 4	matrcl	\|- ( M e. B -> ( N e. Fin /\ R e. _V ) )
46	45	simpld	\|- ( M e. B -> N e. Fin )
47	44 46	syl	\|- ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) -> N e. Fin )
48	47	adantr	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> N e. Fin )
49		simp1l	\|- ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) -> R e. CRing )
50	49	ad2antrr	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> R e. CRing )
51		crngring	\|- ( R e. CRing -> R e. Ring )
52	50 51	syl	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> R e. Ring )
53	40 6	ring0cl	\|- ( R e. Ring -> .0. e. ( Base ` R ) )
54	52 53	syl	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> .0. e. ( Base ` R ) )
55		simpl1r	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> M e. B )
56	1 40 4	matbas2i	\|- ( M e. B -> M e. ( ( Base ` R ) ^m ( N X. N ) ) )
57		elmapi	\|- ( M e. ( ( Base ` R ) ^m ( N X. N ) ) -> M : ( N X. N ) --> ( Base ` R ) )
58	55 56 57	3syl	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> M : ( N X. N ) --> ( Base ` R ) )
59	58	adantr	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> M : ( N X. N ) --> ( Base ` R ) )
60		eldifi	\|- ( r e. ( ( N \ { H } ) \ n ) -> r e. ( N \ { H } ) )
61	60	ad2antll	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> r e. ( N \ { H } ) )
62	61	eldifad	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> r e. N )
63	62	adantr	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> r e. N )
64		simpr	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> l e. N )
65	59 63 64	fovrnd	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> ( r M l ) e. ( Base ` R ) )
66	54 65	ifcld	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> if ( l = I , .0. , ( r M l ) ) e. ( Base ` R ) )
67	40 5	ringidcl	\|- ( R e. Ring -> .1. e. ( Base ` R ) )
68	52 67	syl	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> .1. e. ( Base ` R ) )
69	68 54	ifcld	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> if ( l = I , .1. , .0. ) e. ( Base ` R ) )
70	54	3adant2	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) -> .0. e. ( Base ` R ) )
71	58	fovrnda	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ ( k e. N /\ l e. N ) ) -> ( k M l ) e. ( Base ` R ) )
72	71	3impb	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) -> ( k M l ) e. ( Base ` R ) )
73	70 72	ifcld	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) -> if ( l = I , .0. , ( k M l ) ) e. ( Base ` R ) )
74	73 72	ifcld	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) -> if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) e. ( Base ` R ) )
75		simpl2	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> I e. N )
76	58 62 75	fovrnd	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> ( r M I ) e. ( Base ` R ) )
77		simpl3	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> H e. N )
78		eldifsni	\|- ( r e. ( N \ { H } ) -> r =/= H )
79	61 78	syl	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> r =/= H )
80	2 40 41 42 43 48 66 69 74 76 62 77 79	mdetero	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> ( D ` ( k e. N , l e. N \|-> if ( k = r , ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) ) = ( D ` ( k e. N , l e. N \|-> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) ) )
81		ifnot	\|- if ( -. l = I , ( r M l ) , .0. ) = if ( l = I , .0. , ( r M l ) )
82	81	eqcomi	\|- if ( l = I , .0. , ( r M l ) ) = if ( -. l = I , ( r M l ) , .0. )
83	82	a1i	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> if ( l = I , .0. , ( r M l ) ) = if ( -. l = I , ( r M l ) , .0. ) )
84		ovif2	\|- ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) = if ( l = I , ( ( r M I ) ( .r ` R ) .1. ) , ( ( r M I ) ( .r ` R ) .0. ) )
85	76	adantr	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> ( r M I ) e. ( Base ` R ) )
86	40 42 5	ringridm	\|- ( ( R e. Ring /\ ( r M I ) e. ( Base ` R ) ) -> ( ( r M I ) ( .r ` R ) .1. ) = ( r M I ) )
87	52 85 86	syl2anc	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> ( ( r M I ) ( .r ` R ) .1. ) = ( r M I ) )
88	87	adantr	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) /\ l = I ) -> ( ( r M I ) ( .r ` R ) .1. ) = ( r M I ) )
89		oveq2	\|- ( l = I -> ( r M l ) = ( r M I ) )
90	89	adantl	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) /\ l = I ) -> ( r M l ) = ( r M I ) )
91	88 90	eqtr4d	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) /\ l = I ) -> ( ( r M I ) ( .r ` R ) .1. ) = ( r M l ) )
92	91	ifeq1da	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> if ( l = I , ( ( r M I ) ( .r ` R ) .1. ) , ( ( r M I ) ( .r ` R ) .0. ) ) = if ( l = I , ( r M l ) , ( ( r M I ) ( .r ` R ) .0. ) ) )
93	40 42 6	ringrz	\|- ( ( R e. Ring /\ ( r M I ) e. ( Base ` R ) ) -> ( ( r M I ) ( .r ` R ) .0. ) = .0. )
94	52 85 93	syl2anc	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> ( ( r M I ) ( .r ` R ) .0. ) = .0. )
95	94	ifeq2d	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> if ( l = I , ( r M l ) , ( ( r M I ) ( .r ` R ) .0. ) ) = if ( l = I , ( r M l ) , .0. ) )
96	92 95	eqtrd	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> if ( l = I , ( ( r M I ) ( .r ` R ) .1. ) , ( ( r M I ) ( .r ` R ) .0. ) ) = if ( l = I , ( r M l ) , .0. ) )
97	84 96	syl5eq	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) = if ( l = I , ( r M l ) , .0. ) )
98	83 97	oveq12d	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) = ( if ( -. l = I , ( r M l ) , .0. ) ( +g ` R ) if ( l = I , ( r M l ) , .0. ) ) )
99		ringmnd	\|- ( R e. Ring -> R e. Mnd )
100	52 99	syl	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> R e. Mnd )
101		id	\|- ( -. l = I -> -. l = I )
102		imnan	\|- ( ( -. l = I -> -. l = I ) <-> -. ( -. l = I /\ l = I ) )
103	101 102	mpbi	\|- -. ( -. l = I /\ l = I )
104	103	a1i	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> -. ( -. l = I /\ l = I ) )
105	40 6 41	mndifsplit	\|- ( ( R e. Mnd /\ ( r M l ) e. ( Base ` R ) /\ -. ( -. l = I /\ l = I ) ) -> if ( ( -. l = I \/ l = I ) , ( r M l ) , .0. ) = ( if ( -. l = I , ( r M l ) , .0. ) ( +g ` R ) if ( l = I , ( r M l ) , .0. ) ) )
106	100 65 104 105	syl3anc	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> if ( ( -. l = I \/ l = I ) , ( r M l ) , .0. ) = ( if ( -. l = I , ( r M l ) , .0. ) ( +g ` R ) if ( l = I , ( r M l ) , .0. ) ) )
107		pm2.1	\|- ( -. l = I \/ l = I )
108		iftrue	\|- ( ( -. l = I \/ l = I ) -> if ( ( -. l = I \/ l = I ) , ( r M l ) , .0. ) = ( r M l ) )
109	107 108	mp1i	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> if ( ( -. l = I \/ l = I ) , ( r M l ) , .0. ) = ( r M l ) )
110	98 106 109	3eqtr2d	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ l e. N ) -> ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) = ( r M l ) )
111	110	3adant2	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) -> ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) = ( r M l ) )
112		oveq1	\|- ( k = r -> ( k M l ) = ( r M l ) )
113	112	eqeq2d	\|- ( k = r -> ( ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) = ( k M l ) <-> ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) = ( r M l ) ) )
114	111 113	syl5ibrcom	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) -> ( k = r -> ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) = ( k M l ) ) )
115	114	imp	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) /\ k = r ) -> ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) = ( k M l ) )
116		iftrue	\|- ( k = r -> if ( k = r , ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) )
117	116	adantl	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) /\ k = r ) -> if ( k = r , ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) )
118	79	neneqd	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> -. r = H )
119	118	3ad2ant1	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) -> -. r = H )
120		eqeq1	\|- ( k = r -> ( k = H <-> r = H ) )
121	120	notbid	\|- ( k = r -> ( -. k = H <-> -. r = H ) )
122	119 121	syl5ibrcom	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) -> ( k = r -> -. k = H ) )
123	122	imp	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) /\ k = r ) -> -. k = H )
124	123	iffalsed	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) /\ k = r ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
125		eldifn	\|- ( r e. ( ( N \ { H } ) \ n ) -> -. r e. n )
126	125	ad2antll	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> -. r e. n )
127	126	3ad2ant1	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) -> -. r e. n )
128		eleq1w	\|- ( k = r -> ( k e. n <-> r e. n ) )
129	128	notbid	\|- ( k = r -> ( -. k e. n <-> -. r e. n ) )
130	127 129	syl5ibrcom	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) -> ( k = r -> -. k e. n ) )
131	130	imp	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) /\ k = r ) -> -. k e. n )
132	131	iffalsed	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) /\ k = r ) -> if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) = ( k M l ) )
133	124 132	eqtrd	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) /\ k = r ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = ( k M l ) )
134	115 117 133	3eqtr4d	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) /\ k = r ) -> if ( k = r , ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
135		iffalse	\|- ( -. k = r -> if ( k = r , ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
136	135	adantl	\|- ( ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) /\ -. k = r ) -> if ( k = r , ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
137	134 136	pm2.61dan	\|- ( ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) /\ k e. N /\ l e. N ) -> if ( k = r , ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
138	137	mpoeq3dva	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> ( k e. N , l e. N \|-> if ( k = r , ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) = ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) )
139	138	fveq2d	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> ( D ` ( k e. N , l e. N \|-> if ( k = r , ( if ( l = I , .0. , ( r M l ) ) ( +g ` R ) ( ( r M I ) ( .r ` R ) if ( l = I , .1. , .0. ) ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) )
140		neeq2	\|- ( k = H -> ( r =/= k <-> r =/= H ) )
141	140	biimparc	\|- ( ( r =/= H /\ k = H ) -> r =/= k )
142	141	necomd	\|- ( ( r =/= H /\ k = H ) -> k =/= r )
143	142	neneqd	\|- ( ( r =/= H /\ k = H ) -> -. k = r )
144	143	iffalsed	\|- ( ( r =/= H /\ k = H ) -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( l = I , .1. , .0. ) ) = if ( l = I , .1. , .0. ) )
145		iftrue	\|- ( k = H -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( l = I , .1. , .0. ) )
146	145	adantl	\|- ( ( r =/= H /\ k = H ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( l = I , .1. , .0. ) )
147	146	ifeq2d	\|- ( ( r =/= H /\ k = H ) -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( l = I , .1. , .0. ) ) )
148		iftrue	\|- ( k = H -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( l = I , .1. , .0. ) )
149	148	adantl	\|- ( ( r =/= H /\ k = H ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( l = I , .1. , .0. ) )
150	144 147 149	3eqtr4d	\|- ( ( r =/= H /\ k = H ) -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
151	112	ifeq2d	\|- ( k = r -> if ( l = I , .0. , ( k M l ) ) = if ( l = I , .0. , ( r M l ) ) )
152		vsnid	\|- r e. { r }
153		elun2	\|- ( r e. { r } -> r e. ( n u. { r } ) )
154	152 153	ax-mp	\|- r e. ( n u. { r } )
155		eleq1w	\|- ( k = r -> ( k e. ( n u. { r } ) <-> r e. ( n u. { r } ) ) )
156	154 155	mpbiri	\|- ( k = r -> k e. ( n u. { r } ) )
157	156	iftrued	\|- ( k = r -> if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) = if ( l = I , .0. , ( k M l ) ) )
158		iftrue	\|- ( k = r -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( l = I , .0. , ( r M l ) ) )
159	151 157 158	3eqtr4rd	\|- ( k = r -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
160	159	adantl	\|- ( ( ( r =/= H /\ -. k = H ) /\ k = r ) -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
161		iffalse	\|- ( -. k = r -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
162		orc	\|- ( k e. n -> ( k e. n \/ k = r ) )
163		orel2	\|- ( -. k = r -> ( ( k e. n \/ k = r ) -> k e. n ) )
164	162 163	impbid2	\|- ( -. k = r -> ( k e. n <-> ( k e. n \/ k = r ) ) )
165		elun	\|- ( k e. ( n u. { r } ) <-> ( k e. n \/ k e. { r } ) )
166		velsn	\|- ( k e. { r } <-> k = r )
167	166	orbi2i	\|- ( ( k e. n \/ k e. { r } ) <-> ( k e. n \/ k = r ) )
168	165 167	bitr2i	\|- ( ( k e. n \/ k = r ) <-> k e. ( n u. { r } ) )
169	164 168	bitrdi	\|- ( -. k = r -> ( k e. n <-> k e. ( n u. { r } ) ) )
170	169	ifbid	\|- ( -. k = r -> if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) = if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
171	161 170	eqtrd	\|- ( -. k = r -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
172	171	adantl	\|- ( ( ( r =/= H /\ -. k = H ) /\ -. k = r ) -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
173	160 172	pm2.61dan	\|- ( ( r =/= H /\ -. k = H ) -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
174		iffalse	\|- ( -. k = H -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
175	174	ifeq2d	\|- ( -. k = H -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
176	175	adantl	\|- ( ( r =/= H /\ -. k = H ) -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
177		iffalse	\|- ( -. k = H -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
178	177	adantl	\|- ( ( r =/= H /\ -. k = H ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
179	173 176 178	3eqtr4d	\|- ( ( r =/= H /\ -. k = H ) -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
180	150 179	pm2.61dan	\|- ( r =/= H -> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) )
181	180	mpoeq3dv	\|- ( r =/= H -> ( k e. N , l e. N \|-> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) = ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) )
182	181	fveq2d	\|- ( r =/= H -> ( D ` ( k e. N , l e. N \|-> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) )
183	79 182	syl	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> ( D ` ( k e. N , l e. N \|-> if ( k = r , if ( l = I , .0. , ( r M l ) ) , if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) )
184	80 139 183	3eqtr3d	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) )
185	184	eqeq2d	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> ( ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) <-> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) ) )
186	185	biimpd	\|- ( ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) /\ ( n C_ ( N \ { H } ) /\ r e. ( ( N \ { H } ) \ n ) ) ) -> ( ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. n , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) -> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( n u. { r } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) ) )
187		difss	\|- ( N \ { H } ) C_ N
188		ssfi	\|- ( ( N e. Fin /\ ( N \ { H } ) C_ N ) -> ( N \ { H } ) e. Fin )
189	47 187 188	sylancl	\|- ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) -> ( N \ { H } ) e. Fin )
190	12 18 24 30 39 186 189	findcard2d	\|- ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) -> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) )
191		iba	\|- ( k = H -> ( l = I <-> ( l = I /\ k = H ) ) )
192	191	ifbid	\|- ( k = H -> if ( l = I , .1. , .0. ) = if ( ( l = I /\ k = H ) , .1. , .0. ) )
193		iftrue	\|- ( k = H -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( l = I , .1. , .0. ) )
194		iftrue	\|- ( ( k = H \/ l = I ) -> if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) = if ( ( l = I /\ k = H ) , .1. , .0. ) )
195	194	orcs	\|- ( k = H -> if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) = if ( ( l = I /\ k = H ) , .1. , .0. ) )
196	192 193 195	3eqtr4d	\|- ( k = H -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) )
197	196	adantl	\|- ( ( ( k e. N /\ l e. N ) /\ k = H ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) )
198		iffalse	\|- ( -. k = H -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
199	198	adantl	\|- ( ( ( k e. N /\ l e. N ) /\ -. k = H ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) )
200		neqne	\|- ( -. k = H -> k =/= H )
201	200	anim2i	\|- ( ( k e. N /\ -. k = H ) -> ( k e. N /\ k =/= H ) )
202	201	adantlr	\|- ( ( ( k e. N /\ l e. N ) /\ -. k = H ) -> ( k e. N /\ k =/= H ) )
203		eldifsn	\|- ( k e. ( N \ { H } ) <-> ( k e. N /\ k =/= H ) )
204	202 203	sylibr	\|- ( ( ( k e. N /\ l e. N ) /\ -. k = H ) -> k e. ( N \ { H } ) )
205	204	iftrued	\|- ( ( ( k e. N /\ l e. N ) /\ -. k = H ) -> if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) = if ( l = I , .0. , ( k M l ) ) )
206		biorf	\|- ( -. k = H -> ( l = I <-> ( k = H \/ l = I ) ) )
207		id	\|- ( -. k = H -> -. k = H )
208	207	intnand	\|- ( -. k = H -> -. ( l = I /\ k = H ) )
209	208	iffalsed	\|- ( -. k = H -> if ( ( l = I /\ k = H ) , .1. , .0. ) = .0. )
210	209	eqcomd	\|- ( -. k = H -> .0. = if ( ( l = I /\ k = H ) , .1. , .0. ) )
211	206 210	ifbieq1d	\|- ( -. k = H -> if ( l = I , .0. , ( k M l ) ) = if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) )
212	211	adantl	\|- ( ( ( k e. N /\ l e. N ) /\ -. k = H ) -> if ( l = I , .0. , ( k M l ) ) = if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) )
213	199 205 212	3eqtrd	\|- ( ( ( k e. N /\ l e. N ) /\ -. k = H ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) )
214	197 213	pm2.61dan	\|- ( ( k e. N /\ l e. N ) -> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) = if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) )
215	214	mpoeq3ia	\|- ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) = ( k e. N , l e. N \|-> if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) )
216	215	fveq2i	\|- ( D ` ( k e. N , l e. N \|-> if ( k = H , if ( l = I , .1. , .0. ) , if ( k e. ( N \ { H } ) , if ( l = I , .0. , ( k M l ) ) , ( k M l ) ) ) ) ) = ( D ` ( k e. N , l e. N \|-> if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) ) )
217	190 216	eqtrdi	\|- ( ( ( R e. CRing /\ M e. B ) /\ I e. N /\ H e. N ) -> ( I ( J ` M ) H ) = ( D ` ( k e. N , l e. N \|-> if ( ( k = H \/ l = I ) , if ( ( l = I /\ k = H ) , .1. , .0. ) , ( k M l ) ) ) ) )

Metamath Proof Explorer

Theorem maducoeval2

Proof