ply1assa

Description: The ring of univariate polynomials is an associative algebra. (Contributed by Mario Carneiro, 9-Feb-2015)

		Ref	Expression
	Hypothesis	ply1val.1	$⊢ P = {Poly}_{1} (R)$
	Assertion	ply1assa	$⊢ R \in CRing \to P \in AssAlg$

Proof

Step	Hyp	Ref	Expression
1		ply1val.1	$⊢ P = {Poly}_{1} (R)$
2		crngring	$⊢ R \in CRing \to R \in Ring$
3		eqid	$⊢ {PwSer}_{1} (R) = {PwSer}_{1} (R)$
4		eqid	$⊢ {Base}_{P} = {Base}_{P}$
5	1 3 4	ply1subrg	$⊢ R \in Ring \to {Base}_{P} \in SubRing ({PwSer}_{1} (R))$
6	2 5	syl	$⊢ R \in CRing \to {Base}_{P} \in SubRing ({PwSer}_{1} (R))$
7	1 3 4	ply1lss	$⊢ R \in Ring \to {Base}_{P} \in LSubSp ({PwSer}_{1} (R))$
8	2 7	syl	$⊢ R \in CRing \to {Base}_{P} \in LSubSp ({PwSer}_{1} (R))$
9	3	psr1assa	$⊢ R \in CRing \to {PwSer}_{1} (R) \in AssAlg$
10		eqid	$⊢ 1_{{PwSer}_{1} (R)} = 1_{{PwSer}_{1} (R)}$
11	10	subrg1cl	$⊢ {Base}_{P} \in SubRing ({PwSer}_{1} (R)) \to 1_{{PwSer}_{1} (R)} \in {Base}_{P}$
12	6 11	syl	$⊢ R \in CRing \to 1_{{PwSer}_{1} (R)} \in {Base}_{P}$
13		eqid	$⊢ {Base}_{{PwSer}_{1} (R)} = {Base}_{{PwSer}_{1} (R)}$
14	13	subrgss	$⊢ {Base}_{P} \in SubRing ({PwSer}_{1} (R)) \to {Base}_{P} \subseteq {Base}_{{PwSer}_{1} (R)}$
15	6 14	syl	$⊢ R \in CRing \to {Base}_{P} \subseteq {Base}_{{PwSer}_{1} (R)}$
16	1 3	ply1val	$⊢ P = {PwSer}_{1} (R) ↾_{𝑠} {Base}_{(1_{𝑜} mPoly R)}$
17	1 3 4	ply1bas	$⊢ {Base}_{P} = {Base}_{(1_{𝑜} mPoly R)}$
18	17	oveq2i	$⊢ {PwSer}_{1} (R) ↾_{𝑠} {Base}_{P} = {PwSer}_{1} (R) ↾_{𝑠} {Base}_{(1_{𝑜} mPoly R)}$
19	16 18	eqtr4i	$⊢ P = {PwSer}_{1} (R) ↾_{𝑠} {Base}_{P}$
20		eqid	$⊢ LSubSp ({PwSer}_{1} (R)) = LSubSp ({PwSer}_{1} (R))$
21	19 20 13 10	issubassa	$⊢ ({PwSer}_{1} (R) \in AssAlg \land 1_{{PwSer}_{1} (R)} \in {Base}_{P} \land {Base}_{P} \subseteq {Base}_{{PwSer}_{1} (R)}) \to (P \in AssAlg \leftrightarrow ({Base}_{P} \in SubRing ({PwSer}_{1} (R)) \land {Base}_{P} \in LSubSp ({PwSer}_{1} (R))))$
22	9 12 15 21	syl3anc	$⊢ R \in CRing \to (P \in AssAlg \leftrightarrow ({Base}_{P} \in SubRing ({PwSer}_{1} (R)) \land {Base}_{P} \in LSubSp ({PwSer}_{1} (R))))$
23	6 8 22	mpbir2and	$⊢ R \in CRing \to P \in AssAlg$

Metamath Proof Explorer

Theorem ply1assa

Proof