clmneg

Description: Negation in the scalar ring of a subcomplex module. (Contributed by Mario Carneiro, 16-Oct-2015)

Step	Hyp	Ref	Expression
1		clm0.f	$⊢ F = Scalar (W)$
2		clmsub.k	$⊢ K = {Base}_{F}$
3	1 2	clmsca	$⊢ W \in CMod \to F = ℂ_{fld} ↾_{𝑠} K$
4	3	fveq2d	$⊢ W \in CMod \to {inv}_{g} (F) = {inv}_{g} (ℂ_{fld} ↾_{𝑠} K)$
5	4	adantr	$⊢ (W \in CMod \land A \in K) \to {inv}_{g} (F) = {inv}_{g} (ℂ_{fld} ↾_{𝑠} K)$
6	5	fveq1d	$⊢ (W \in CMod \land A \in K) \to {inv}_{g} (F) (A) = {inv}_{g} (ℂ_{fld} ↾_{𝑠} K) (A)$
7	1 2	clmsubrg	$⊢ W \in CMod \to K \in SubRing (ℂ_{fld})$
8		subrgsubg	$⊢ K \in SubRing (ℂ_{fld}) \to K \in SubGrp (ℂ_{fld})$
9	7 8	syl	$⊢ W \in CMod \to K \in SubGrp (ℂ_{fld})$
10		eqid	$⊢ ℂ_{fld} ↾_{𝑠} K = ℂ_{fld} ↾_{𝑠} K$
11		eqid	$⊢ {inv}_{g} (ℂ_{fld}) = {inv}_{g} (ℂ_{fld})$
12		eqid	$⊢ {inv}_{g} (ℂ_{fld} ↾_{𝑠} K) = {inv}_{g} (ℂ_{fld} ↾_{𝑠} K)$
13	10 11 12	subginv	$⊢ (K \in SubGrp (ℂ_{fld}) \land A \in K) \to {inv}_{g} (ℂ_{fld}) (A) = {inv}_{g} (ℂ_{fld} ↾_{𝑠} K) (A)$
14	9 13	sylan	$⊢ (W \in CMod \land A \in K) \to {inv}_{g} (ℂ_{fld}) (A) = {inv}_{g} (ℂ_{fld} ↾_{𝑠} K) (A)$
15	1 2	clmsscn	$⊢ W \in CMod \to K \subseteq ℂ$
16	15	sselda	$⊢ (W \in CMod \land A \in K) \to A \in ℂ$
17		cnfldneg	$⊢ A \in ℂ \to {inv}_{g} (ℂ_{fld}) (A) = - A$
18	16 17	syl	$⊢ (W \in CMod \land A \in K) \to {inv}_{g} (ℂ_{fld}) (A) = - A$
19	6 14 18	3eqtr2rd	$⊢ (W \in CMod \land A \in K) \to - A = {inv}_{g} (F) (A)$

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