lspprel

Description: Member of the span of a pair of vectors. (Contributed by NM, 10-Apr-2015)

	Ref	Expression
Hypotheses	lsppr.v	$⊢ V = {Base}_{W}$
	lsppr.a	$⊢ \underset{˙}{+} = +_{W}$
	lsppr.f	$⊢ F = Scalar (W)$
	lsppr.k	$⊢ K = {Base}_{F}$
	lsppr.t	$⊢ \underset{˙}{\cdot} = \cdot_{W}$
	lsppr.n	$⊢ N = LSpan (W)$
	lsppr.w	$⊢ φ \to W \in LMod$
	lsppr.x	$⊢ φ \to X \in V$
	lsppr.y	$⊢ φ \to Y \in V$
Assertion	lspprel	$⊢ φ \to (Z \in N (\{X, Y\}) \leftrightarrow \exists k \in K \exists l \in K Z = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y))$

Proof

Step	Hyp	Ref	Expression
1		lsppr.v	$⊢ V = {Base}_{W}$
2		lsppr.a	$⊢ \underset{˙}{+} = +_{W}$
3		lsppr.f	$⊢ F = Scalar (W)$
4		lsppr.k	$⊢ K = {Base}_{F}$
5		lsppr.t	$⊢ \underset{˙}{\cdot} = \cdot_{W}$
6		lsppr.n	$⊢ N = LSpan (W)$
7		lsppr.w	$⊢ φ \to W \in LMod$
8		lsppr.x	$⊢ φ \to X \in V$
9		lsppr.y	$⊢ φ \to Y \in V$
10	1 2 3 4 5 6 7 8 9	lsppr	$⊢ φ \to N (\{X, Y\}) = \{v \| \exists k \in K \exists l \in K v = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y)\}$
11	10	eleq2d	$⊢ φ \to (Z \in N (\{X, Y\}) \leftrightarrow Z \in \{v \| \exists k \in K \exists l \in K v = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y)\})$
12		id	$⊢ Z = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y) \to Z = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y)$
13		ovex	$⊢ (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y) \in V$
14	12 13	eqeltrdi	$⊢ Z = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y) \to Z \in V$
15	14	rexlimivw	$⊢ \exists l \in K Z = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y) \to Z \in V$
16	15	rexlimivw	$⊢ \exists k \in K \exists l \in K Z = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y) \to Z \in V$
17		eqeq1	$⊢ v = Z \to (v = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y) \leftrightarrow Z = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y))$
18	17	2rexbidv	$⊢ v = Z \to (\exists k \in K \exists l \in K v = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y) \leftrightarrow \exists k \in K \exists l \in K Z = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y))$
19	16 18	elab3	$⊢ Z \in \{v \| \exists k \in K \exists l \in K v = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y)\} \leftrightarrow \exists k \in K \exists l \in K Z = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y)$
20	11 19	bitrdi	$⊢ φ \to (Z \in N (\{X, Y\}) \leftrightarrow \exists k \in K \exists l \in K Z = (k \underset{˙}{\cdot} X) \underset{˙}{+} (l \underset{˙}{\cdot} Y))$

Metamath Proof Explorer

Theorem lspprel

Proof