Metamath Proof Explorer

Theorem subgnm

Description: The norm in a subgroup. (Contributed by Mario Carneiro, 4-Oct-2015)

Ref Expression
Hypotheses subgngp.h H = G 𝑠 A
subgnm.n N = norm G
subgnm.m M = norm H
Assertion subgnm A SubGrp G M = N A

Proof

Step Hyp Ref Expression
1 subgngp.h H = G 𝑠 A
2 subgnm.n N = norm G
3 subgnm.m M = norm H
4 eqid Base G = Base G
5 4 subgss A SubGrp G A Base G
6 5 resmptd A SubGrp G x Base G x dist G 0 G A = x A x dist G 0 G
7 1 subgbas A SubGrp G A = Base H
8 eqid dist G = dist G
9 1 8 ressds A SubGrp G dist G = dist H
10 eqidd A SubGrp G x = x
11 eqid 0 G = 0 G
12 1 11 subg0 A SubGrp G 0 G = 0 H
13 9 10 12 oveq123d A SubGrp G x dist G 0 G = x dist H 0 H
14 7 13 mpteq12dv A SubGrp G x A x dist G 0 G = x Base H x dist H 0 H
15 6 14 eqtr2d A SubGrp G x Base H x dist H 0 H = x Base G x dist G 0 G A
16 eqid Base H = Base H
17 eqid 0 H = 0 H
18 eqid dist H = dist H
19 3 16 17 18 nmfval M = x Base H x dist H 0 H
20 2 4 11 8 nmfval N = x Base G x dist G 0 G
21 20 reseq1i N A = x Base G x dist G 0 G A
22 15 19 21 3eqtr4g A SubGrp G M = N A