resrhm

Description: Restriction of a ring homomorphism to a subring is a homomorphism. (Contributed by Mario Carneiro, 12-Mar-2015)

		Ref	Expression
	Hypothesis	resrhm.u	$⊢ U = S ↾_{𝑠} X$
	Assertion	resrhm	$⊢ (F \in (S RingHom T) \land X \in SubRing (S)) \to {F ↾}_{X} \in (U RingHom T)$

Proof

Step	Hyp	Ref	Expression
1		resrhm.u	$⊢ U = S ↾_{𝑠} X$
2		rhmrcl2	$⊢ F \in (S RingHom T) \to T \in Ring$
3	1	subrgring	$⊢ X \in SubRing (S) \to U \in Ring$
4	2 3	anim12ci	$⊢ (F \in (S RingHom T) \land X \in SubRing (S)) \to (U \in Ring \land T \in Ring)$
5		rhmghm	$⊢ F \in (S RingHom T) \to F \in (S GrpHom T)$
6		subrgsubg	$⊢ X \in SubRing (S) \to X \in SubGrp (S)$
7	1	resghm	$⊢ (F \in (S GrpHom T) \land X \in SubGrp (S)) \to {F ↾}_{X} \in (U GrpHom T)$
8	5 6 7	syl2an	$⊢ (F \in (S RingHom T) \land X \in SubRing (S)) \to {F ↾}_{X} \in (U GrpHom T)$
9		eqid	$⊢ {mulGrp}_{S} = {mulGrp}_{S}$
10		eqid	$⊢ {mulGrp}_{T} = {mulGrp}_{T}$
11	9 10	rhmmhm	$⊢ F \in (S RingHom T) \to F \in ({mulGrp}_{S} MndHom {mulGrp}_{T})$
12	9	subrgsubm	$⊢ X \in SubRing (S) \to X \in SubMnd ({mulGrp}_{S})$
13		eqid	$⊢ {mulGrp}_{S} ↾_{𝑠} X = {mulGrp}_{S} ↾_{𝑠} X$
14	13	resmhm	$⊢ (F \in ({mulGrp}_{S} MndHom {mulGrp}_{T}) \land X \in SubMnd ({mulGrp}_{S})) \to {F ↾}_{X} \in (({mulGrp}_{S} ↾_{𝑠} X) MndHom {mulGrp}_{T})$
15	11 12 14	syl2an	$⊢ (F \in (S RingHom T) \land X \in SubRing (S)) \to {F ↾}_{X} \in (({mulGrp}_{S} ↾_{𝑠} X) MndHom {mulGrp}_{T})$
16		rhmrcl1	$⊢ F \in (S RingHom T) \to S \in Ring$
17	1 9	mgpress	$⊢ (S \in Ring \land X \in SubRing (S)) \to {mulGrp}_{S} ↾_{𝑠} X = {mulGrp}_{U}$
18	16 17	sylan	$⊢ (F \in (S RingHom T) \land X \in SubRing (S)) \to {mulGrp}_{S} ↾_{𝑠} X = {mulGrp}_{U}$
19	18	oveq1d	$⊢ (F \in (S RingHom T) \land X \in SubRing (S)) \to ({mulGrp}_{S} ↾_{𝑠} X) MndHom {mulGrp}_{T} = {mulGrp}_{U} MndHom {mulGrp}_{T}$
20	15 19	eleqtrd	$⊢ (F \in (S RingHom T) \land X \in SubRing (S)) \to {F ↾}_{X} \in ({mulGrp}_{U} MndHom {mulGrp}_{T})$
21	8 20	jca	$⊢ (F \in (S RingHom T) \land X \in SubRing (S)) \to ({F ↾}_{X} \in (U GrpHom T) \land {F ↾}_{X} \in ({mulGrp}_{U} MndHom {mulGrp}_{T}))$
22		eqid	$⊢ {mulGrp}_{U} = {mulGrp}_{U}$
23	22 10	isrhm	$⊢ {F ↾}_{X} \in (U RingHom T) \leftrightarrow ((U \in Ring \land T \in Ring) \land ({F ↾}_{X} \in (U GrpHom T) \land {F ↾}_{X} \in ({mulGrp}_{U} MndHom {mulGrp}_{T})))$
24	4 21 23	sylanbrc	$⊢ (F \in (S RingHom T) \land X \in SubRing (S)) \to {F ↾}_{X} \in (U RingHom T)$

Metamath Proof Explorer

Theorem resrhm

Proof