lmhmlin

Description: A homomorphism of left modules is K -linear. (Contributed by Stefan O'Rear, 1-Jan-2015)

	Ref	Expression
Hypotheses	lmhmlin.k	$⊢ K = Scalar (S)$
	lmhmlin.b	$⊢ B = {Base}_{K}$
	lmhmlin.e	$⊢ E = {Base}_{S}$
	lmhmlin.m	$⊢ \underset{˙}{\cdot} = \cdot_{S}$
	lmhmlin.n	$⊢ \underset{˙}{\times} = \cdot_{T}$
Assertion	lmhmlin	$⊢ (F \in (S LMHom T) \land X \in B \land Y \in E) \to F (X \underset{˙}{\cdot} Y) = X \underset{˙}{\times} F (Y)$

Proof

Step	Hyp	Ref	Expression
1		lmhmlin.k	$⊢ K = Scalar (S)$
2		lmhmlin.b	$⊢ B = {Base}_{K}$
3		lmhmlin.e	$⊢ E = {Base}_{S}$
4		lmhmlin.m	$⊢ \underset{˙}{\cdot} = \cdot_{S}$
5		lmhmlin.n	$⊢ \underset{˙}{\times} = \cdot_{T}$
6		eqid	$⊢ Scalar (T) = Scalar (T)$
7	1 6 2 3 4 5	islmhm	$⊢ F \in (S LMHom T) \leftrightarrow ((S \in LMod \land T \in LMod) \land (F \in (S GrpHom T) \land Scalar (T) = K \land \forall a \in B \forall b \in E F (a \underset{˙}{\cdot} b) = a \underset{˙}{\times} F (b)))$
8	7	simprbi	$⊢ F \in (S LMHom T) \to (F \in (S GrpHom T) \land Scalar (T) = K \land \forall a \in B \forall b \in E F (a \underset{˙}{\cdot} b) = a \underset{˙}{\times} F (b))$
9	8	simp3d	$⊢ F \in (S LMHom T) \to \forall a \in B \forall b \in E F (a \underset{˙}{\cdot} b) = a \underset{˙}{\times} F (b)$
10		fvoveq1	$⊢ a = X \to F (a \underset{˙}{\cdot} b) = F (X \underset{˙}{\cdot} b)$
11		oveq1	$⊢ a = X \to a \underset{˙}{\times} F (b) = X \underset{˙}{\times} F (b)$
12	10 11	eqeq12d	$⊢ a = X \to (F (a \underset{˙}{\cdot} b) = a \underset{˙}{\times} F (b) \leftrightarrow F (X \underset{˙}{\cdot} b) = X \underset{˙}{\times} F (b))$
13		oveq2	$⊢ b = Y \to X \underset{˙}{\cdot} b = X \underset{˙}{\cdot} Y$
14	13	fveq2d	$⊢ b = Y \to F (X \underset{˙}{\cdot} b) = F (X \underset{˙}{\cdot} Y)$
15		fveq2	$⊢ b = Y \to F (b) = F (Y)$
16	15	oveq2d	$⊢ b = Y \to X \underset{˙}{\times} F (b) = X \underset{˙}{\times} F (Y)$
17	14 16	eqeq12d	$⊢ b = Y \to (F (X \underset{˙}{\cdot} b) = X \underset{˙}{\times} F (b) \leftrightarrow F (X \underset{˙}{\cdot} Y) = X \underset{˙}{\times} F (Y))$
18	12 17	rspc2v	$⊢ (X \in B \land Y \in E) \to (\forall a \in B \forall b \in E F (a \underset{˙}{\cdot} b) = a \underset{˙}{\times} F (b) \to F (X \underset{˙}{\cdot} Y) = X \underset{˙}{\times} F (Y))$
19	9 18	syl5com	$⊢ F \in (S LMHom T) \to ((X \in B \land Y \in E) \to F (X \underset{˙}{\cdot} Y) = X \underset{˙}{\times} F (Y))$
20	19	3impib	$⊢ (F \in (S LMHom T) \land X \in B \land Y \in E) \to F (X \underset{˙}{\cdot} Y) = X \underset{˙}{\times} F (Y)$

Metamath Proof Explorer

Theorem lmhmlin

Proof