dochffval

Description: Subspace orthocomplement for DVecH vector space. (Contributed by NM, 14-Mar-2014)

	Ref	Expression
Hypotheses	dochval.b	$⊢ B = {Base}_{K}$
	dochval.g	$⊢ G = glb (K)$
	dochval.o	$⊢ \underset{˙}{⊥} = oc (K)$
	dochval.h	$⊢ H = LHyp (K)$
Assertion	dochffval	$⊢ K \in V \to ocH (K) = (w \in H ⟼ (x \in 𝒫 {Base}_{DVecH (K) (w)} ⟼ DIsoH (K) (w) (\underset{˙}{⊥} (G (\{y \in B \| x \subseteq DIsoH (K) (w) (y)\})))))$

Proof

Step	Hyp	Ref	Expression
1		dochval.b	$⊢ B = {Base}_{K}$
2		dochval.g	$⊢ G = glb (K)$
3		dochval.o	$⊢ \underset{˙}{⊥} = oc (K)$
4		dochval.h	$⊢ H = LHyp (K)$
5		elex	$⊢ K \in V \to K \in V$
6		fveq2	$⊢ k = K \to LHyp (k) = LHyp (K)$
7	6 4	eqtr4di	$⊢ k = K \to LHyp (k) = H$
8		fveq2	$⊢ k = K \to DVecH (k) = DVecH (K)$
9	8	fveq1d	$⊢ k = K \to DVecH (k) (w) = DVecH (K) (w)$
10	9	fveq2d	$⊢ k = K \to {Base}_{DVecH (k) (w)} = {Base}_{DVecH (K) (w)}$
11	10	pweqd	$⊢ k = K \to 𝒫 {Base}_{DVecH (k) (w)} = 𝒫 {Base}_{DVecH (K) (w)}$
12		fveq2	$⊢ k = K \to DIsoH (k) = DIsoH (K)$
13	12	fveq1d	$⊢ k = K \to DIsoH (k) (w) = DIsoH (K) (w)$
14		fveq2	$⊢ k = K \to oc (k) = oc (K)$
15	14 3	eqtr4di	$⊢ k = K \to oc (k) = \underset{˙}{⊥}$
16		fveq2	$⊢ k = K \to glb (k) = glb (K)$
17	16 2	eqtr4di	$⊢ k = K \to glb (k) = G$
18		fveq2	$⊢ k = K \to {Base}_{k} = {Base}_{K}$
19	18 1	eqtr4di	$⊢ k = K \to {Base}_{k} = B$
20	13	fveq1d	$⊢ k = K \to DIsoH (k) (w) (y) = DIsoH (K) (w) (y)$
21	20	sseq2d	$⊢ k = K \to (x \subseteq DIsoH (k) (w) (y) \leftrightarrow x \subseteq DIsoH (K) (w) (y))$
22	19 21	rabeqbidv	$⊢ k = K \to \{y \in {Base}_{k} \| x \subseteq DIsoH (k) (w) (y)\} = \{y \in B \| x \subseteq DIsoH (K) (w) (y)\}$
23	17 22	fveq12d	$⊢ k = K \to glb (k) (\{y \in {Base}_{k} \| x \subseteq DIsoH (k) (w) (y)\}) = G (\{y \in B \| x \subseteq DIsoH (K) (w) (y)\})$
24	15 23	fveq12d	$⊢ k = K \to oc (k) (glb (k) (\{y \in {Base}_{k} \| x \subseteq DIsoH (k) (w) (y)\})) = \underset{˙}{⊥} (G (\{y \in B \| x \subseteq DIsoH (K) (w) (y)\}))$
25	13 24	fveq12d	$⊢ k = K \to DIsoH (k) (w) (oc (k) (glb (k) (\{y \in {Base}_{k} \| x \subseteq DIsoH (k) (w) (y)\}))) = DIsoH (K) (w) (\underset{˙}{⊥} (G (\{y \in B \| x \subseteq DIsoH (K) (w) (y)\})))$
26	11 25	mpteq12dv	$⊢ k = K \to (x \in 𝒫 {Base}_{DVecH (k) (w)} ⟼ DIsoH (k) (w) (oc (k) (glb (k) (\{y \in {Base}_{k} \| x \subseteq DIsoH (k) (w) (y)\})))) = (x \in 𝒫 {Base}_{DVecH (K) (w)} ⟼ DIsoH (K) (w) (\underset{˙}{⊥} (G (\{y \in B \| x \subseteq DIsoH (K) (w) (y)\}))))$
27	7 26	mpteq12dv	$⊢ k = K \to (w \in LHyp (k) ⟼ (x \in 𝒫 {Base}_{DVecH (k) (w)} ⟼ DIsoH (k) (w) (oc (k) (glb (k) (\{y \in {Base}_{k} \| x \subseteq DIsoH (k) (w) (y)\}))))) = (w \in H ⟼ (x \in 𝒫 {Base}_{DVecH (K) (w)} ⟼ DIsoH (K) (w) (\underset{˙}{⊥} (G (\{y \in B \| x \subseteq DIsoH (K) (w) (y)\})))))$
28		df-doch	$⊢ ocH = (k \in V ⟼ (w \in LHyp (k) ⟼ (x \in 𝒫 {Base}_{DVecH (k) (w)} ⟼ DIsoH (k) (w) (oc (k) (glb (k) (\{y \in {Base}_{k} \| x \subseteq DIsoH (k) (w) (y)\}))))))$
29	27 28 4	mptfvmpt	$⊢ K \in V \to ocH (K) = (w \in H ⟼ (x \in 𝒫 {Base}_{DVecH (K) (w)} ⟼ DIsoH (K) (w) (\underset{˙}{⊥} (G (\{y \in B \| x \subseteq DIsoH (K) (w) (y)\})))))$
30	5 29	syl	$⊢ K \in V \to ocH (K) = (w \in H ⟼ (x \in 𝒫 {Base}_{DVecH (K) (w)} ⟼ DIsoH (K) (w) (\underset{˙}{⊥} (G (\{y \in B \| x \subseteq DIsoH (K) (w) (y)\})))))$

Metamath Proof Explorer

Theorem dochffval

Proof