nsgmgclem

	Ref	Expression
Hypotheses	nsgmgclem.b	$⊢ B = {Base}_{G}$
	nsgmgclem.q	$⊢ Q = G /_{𝑠} (G ~_{QG} N)$
	nsgmgclem.p	$⊢ \underset{˙}{\oplus} = LSSum (G)$
	nsgmgclem.n	$⊢ φ \to N \in NrmSGrp (G)$
	nsgmgclem.f	$⊢ φ \to F \in SubGrp (Q)$
Assertion	nsgmgclem	$⊢ φ \to \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \in SubGrp (G)$

Proof

Step	Hyp	Ref	Expression
1		nsgmgclem.b	$⊢ B = {Base}_{G}$
2		nsgmgclem.q	$⊢ Q = G /_{𝑠} (G ~_{QG} N)$
3		nsgmgclem.p	$⊢ \underset{˙}{\oplus} = LSSum (G)$
4		nsgmgclem.n	$⊢ φ \to N \in NrmSGrp (G)$
5		nsgmgclem.f	$⊢ φ \to F \in SubGrp (Q)$
6		eqidd	$⊢ φ \to G ↾_{𝑠} \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} = G ↾_{𝑠} \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}$
7		eqidd	$⊢ φ \to 0_{G} = 0_{G}$
8		eqidd	$⊢ φ \to +_{G} = +_{G}$
9		ssrab2	$⊢ \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \subseteq B$
10	9	a1i	$⊢ φ \to \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \subseteq B$
11	10 1	sseqtrdi	$⊢ φ \to \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \subseteq {Base}_{G}$
12		sneq	$⊢ a = 0_{G} \to \{a\} = \{0_{G}\}$
13	12	oveq1d	$⊢ a = 0_{G} \to \{a\} \underset{˙}{\oplus} N = \{0_{G}\} \underset{˙}{\oplus} N$
14	13	eleq1d	$⊢ a = 0_{G} \to (\{a\} \underset{˙}{\oplus} N \in F \leftrightarrow \{0_{G}\} \underset{˙}{\oplus} N \in F)$
15		nsgsubg	$⊢ N \in NrmSGrp (G) \to N \in SubGrp (G)$
16	4 15	syl	$⊢ φ \to N \in SubGrp (G)$
17		subgrcl	$⊢ N \in SubGrp (G) \to G \in Grp$
18	16 17	syl	$⊢ φ \to G \in Grp$
19		eqid	$⊢ 0_{G} = 0_{G}$
20	1 19	grpidcl	$⊢ G \in Grp \to 0_{G} \in B$
21	18 20	syl	$⊢ φ \to 0_{G} \in B$
22	19 3	lsm02	$⊢ N \in SubGrp (G) \to \{0_{G}\} \underset{˙}{\oplus} N = N$
23	16 22	syl	$⊢ φ \to \{0_{G}\} \underset{˙}{\oplus} N = N$
24	2	nsgqus0	$⊢ (N \in NrmSGrp (G) \land F \in SubGrp (Q)) \to N \in F$
25	4 5 24	syl2anc	$⊢ φ \to N \in F$
26	23 25	eqeltrd	$⊢ φ \to \{0_{G}\} \underset{˙}{\oplus} N \in F$
27	14 21 26	elrabd	$⊢ φ \to 0_{G} \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}$
28		sneq	$⊢ a = x +_{G} y \to \{a\} = \{x +_{G} y\}$
29	28	oveq1d	$⊢ a = x +_{G} y \to \{a\} \underset{˙}{\oplus} N = \{x +_{G} y\} \underset{˙}{\oplus} N$
30	29	eleq1d	$⊢ a = x +_{G} y \to (\{a\} \underset{˙}{\oplus} N \in F \leftrightarrow \{x +_{G} y\} \underset{˙}{\oplus} N \in F)$
31	18	ad2antrr	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to G \in Grp$
32		elrabi	$⊢ x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \to x \in B$
33	32	ad2antlr	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to x \in B$
34		elrabi	$⊢ y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \to y \in B$
35	34	adantl	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to y \in B$
36		eqid	$⊢ +_{G} = +_{G}$
37	1 36	grpcl	$⊢ (G \in Grp \land x \in B \land y \in B) \to x +_{G} y \in B$
38	31 33 35 37	syl3anc	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to x +_{G} y \in B$
39	16	ad2antrr	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to N \in SubGrp (G)$
40	1 3 39 38	quslsm	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to [(x +_{G} y)] (G ~_{QG} N) = \{x +_{G} y\} \underset{˙}{\oplus} N$
41	4	ad2antrr	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to N \in NrmSGrp (G)$
42		eqid	$⊢ +_{Q} = +_{Q}$
43	2 1 36 42	qusadd	$⊢ (N \in NrmSGrp (G) \land x \in B \land y \in B) \to [x] (G ~_{QG} N) +_{Q} [y] (G ~_{QG} N) = [(x +_{G} y)] (G ~_{QG} N)$
44	41 33 35 43	syl3anc	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to [x] (G ~_{QG} N) +_{Q} [y] (G ~_{QG} N) = [(x +_{G} y)] (G ~_{QG} N)$
45	5	ad2antrr	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to F \in SubGrp (Q)$
46	1 3 39 33	quslsm	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to [x] (G ~_{QG} N) = \{x\} \underset{˙}{\oplus} N$
47		sneq	$⊢ a = x \to \{a\} = \{x\}$
48	47	oveq1d	$⊢ a = x \to \{a\} \underset{˙}{\oplus} N = \{x\} \underset{˙}{\oplus} N$
49	48	eleq1d	$⊢ a = x \to (\{a\} \underset{˙}{\oplus} N \in F \leftrightarrow \{x\} \underset{˙}{\oplus} N \in F)$
50	49	elrab	$⊢ x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \leftrightarrow (x \in B \land \{x\} \underset{˙}{\oplus} N \in F)$
51	50	simprbi	$⊢ x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \to \{x\} \underset{˙}{\oplus} N \in F$
52	51	ad2antlr	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to \{x\} \underset{˙}{\oplus} N \in F$
53	46 52	eqeltrd	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to [x] (G ~_{QG} N) \in F$
54	1 3 39 35	quslsm	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to [y] (G ~_{QG} N) = \{y\} \underset{˙}{\oplus} N$
55		sneq	$⊢ a = y \to \{a\} = \{y\}$
56	55	oveq1d	$⊢ a = y \to \{a\} \underset{˙}{\oplus} N = \{y\} \underset{˙}{\oplus} N$
57	56	eleq1d	$⊢ a = y \to (\{a\} \underset{˙}{\oplus} N \in F \leftrightarrow \{y\} \underset{˙}{\oplus} N \in F)$
58	57	elrab	$⊢ y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \leftrightarrow (y \in B \land \{y\} \underset{˙}{\oplus} N \in F)$
59	58	simprbi	$⊢ y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \to \{y\} \underset{˙}{\oplus} N \in F$
60	59	adantl	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to \{y\} \underset{˙}{\oplus} N \in F$
61	54 60	eqeltrd	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to [y] (G ~_{QG} N) \in F$
62	42	subgcl	$⊢ (F \in SubGrp (Q) \land [x] (G ~_{QG} N) \in F \land [y] (G ~_{QG} N) \in F) \to [x] (G ~_{QG} N) +_{Q} [y] (G ~_{QG} N) \in F$
63	45 53 61 62	syl3anc	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to [x] (G ~_{QG} N) +_{Q} [y] (G ~_{QG} N) \in F$
64	44 63	eqeltrrd	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to [(x +_{G} y)] (G ~_{QG} N) \in F$
65	40 64	eqeltrrd	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to \{x +_{G} y\} \underset{˙}{\oplus} N \in F$
66	30 38 65	elrabd	$⊢ ((φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to x +_{G} y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}$
67	66	3impa	$⊢ (φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \land y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to x +_{G} y \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}$
68		sneq	$⊢ a = {inv}_{g} (G) (x) \to \{a\} = \{{inv}_{g} (G) (x)\}$
69	68	oveq1d	$⊢ a = {inv}_{g} (G) (x) \to \{a\} \underset{˙}{\oplus} N = \{{inv}_{g} (G) (x)\} \underset{˙}{\oplus} N$
70	69	eleq1d	$⊢ a = {inv}_{g} (G) (x) \to (\{a\} \underset{˙}{\oplus} N \in F \leftrightarrow \{{inv}_{g} (G) (x)\} \underset{˙}{\oplus} N \in F)$
71		eqid	$⊢ {inv}_{g} (G) = {inv}_{g} (G)$
72	1 71	grpinvcl	$⊢ (G \in Grp \land x \in B) \to {inv}_{g} (G) (x) \in B$
73	18 72	sylan	$⊢ (φ \land x \in B) \to {inv}_{g} (G) (x) \in B$
74	73	adantr	$⊢ ((φ \land x \in B) \land \{x\} \underset{˙}{\oplus} N \in F) \to {inv}_{g} (G) (x) \in B$
75		eqid	$⊢ {inv}_{g} (Q) = {inv}_{g} (Q)$
76	2 1 71 75	qusinv	$⊢ (N \in NrmSGrp (G) \land x \in B) \to {inv}_{g} (Q) ([x] (G ~_{QG} N)) = [{inv}_{g} (G) (x)] (G ~_{QG} N)$
77	4 76	sylan	$⊢ (φ \land x \in B) \to {inv}_{g} (Q) ([x] (G ~_{QG} N)) = [{inv}_{g} (G) (x)] (G ~_{QG} N)$
78	16	adantr	$⊢ (φ \land x \in B) \to N \in SubGrp (G)$
79		simpr	$⊢ (φ \land x \in B) \to x \in B$
80	1 3 78 79	quslsm	$⊢ (φ \land x \in B) \to [x] (G ~_{QG} N) = \{x\} \underset{˙}{\oplus} N$
81	80	fveq2d	$⊢ (φ \land x \in B) \to {inv}_{g} (Q) ([x] (G ~_{QG} N)) = {inv}_{g} (Q) (\{x\} \underset{˙}{\oplus} N)$
82	1 3 78 73	quslsm	$⊢ (φ \land x \in B) \to [{inv}_{g} (G) (x)] (G ~_{QG} N) = \{{inv}_{g} (G) (x)\} \underset{˙}{\oplus} N$
83	77 81 82	3eqtr3d	$⊢ (φ \land x \in B) \to {inv}_{g} (Q) (\{x\} \underset{˙}{\oplus} N) = \{{inv}_{g} (G) (x)\} \underset{˙}{\oplus} N$
84	83	adantr	$⊢ ((φ \land x \in B) \land \{x\} \underset{˙}{\oplus} N \in F) \to {inv}_{g} (Q) (\{x\} \underset{˙}{\oplus} N) = \{{inv}_{g} (G) (x)\} \underset{˙}{\oplus} N$
85	5	ad2antrr	$⊢ ((φ \land x \in B) \land \{x\} \underset{˙}{\oplus} N \in F) \to F \in SubGrp (Q)$
86		simpr	$⊢ ((φ \land x \in B) \land \{x\} \underset{˙}{\oplus} N \in F) \to \{x\} \underset{˙}{\oplus} N \in F$
87	75	subginvcl	$⊢ (F \in SubGrp (Q) \land \{x\} \underset{˙}{\oplus} N \in F) \to {inv}_{g} (Q) (\{x\} \underset{˙}{\oplus} N) \in F$
88	85 86 87	syl2anc	$⊢ ((φ \land x \in B) \land \{x\} \underset{˙}{\oplus} N \in F) \to {inv}_{g} (Q) (\{x\} \underset{˙}{\oplus} N) \in F$
89	84 88	eqeltrrd	$⊢ ((φ \land x \in B) \land \{x\} \underset{˙}{\oplus} N \in F) \to \{{inv}_{g} (G) (x)\} \underset{˙}{\oplus} N \in F$
90	70 74 89	elrabd	$⊢ ((φ \land x \in B) \land \{x\} \underset{˙}{\oplus} N \in F) \to {inv}_{g} (G) (x) \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}$
91	90	anasss	$⊢ (φ \land (x \in B \land \{x\} \underset{˙}{\oplus} N \in F)) \to {inv}_{g} (G) (x) \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}$
92	50 91	sylan2b	$⊢ (φ \land x \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}) \to {inv}_{g} (G) (x) \in \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\}$
93	6 7 8 11 27 67 92 18	issubgrpd2	$⊢ φ \to \{a \in B \| \{a\} \underset{˙}{\oplus} N \in F\} \in SubGrp (G)$

Metamath Proof Explorer

Theorem nsgmgclem

Proof