uvtxupgrres

Description: A universal vertex is universal in a restricted pseudograph. (Contributed by Alexander van der Vekens, 2-Jan-2018) (Revised by AV, 8-Nov-2020)

	Ref	Expression
Hypotheses	nbupgruvtxres.v	$⊢ V = Vtx (G)$
	nbupgruvtxres.e	$⊢ E = Edg (G)$
	nbupgruvtxres.f	$⊢ F = \{e \in E \| N \notin e\}$
	nbupgruvtxres.s	$⊢ S = ⟨V ∖ \{N\}, {I ↾}_{F}⟩$
Assertion	uvtxupgrres	$⊢ ((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \to (K \in UnivVtx (G) \to K \in UnivVtx (S))$

Proof

Step	Hyp	Ref	Expression
1		nbupgruvtxres.v	$⊢ V = Vtx (G)$
2		nbupgruvtxres.e	$⊢ E = Edg (G)$
3		nbupgruvtxres.f	$⊢ F = \{e \in E \| N \notin e\}$
4		nbupgruvtxres.s	$⊢ S = ⟨V ∖ \{N\}, {I ↾}_{F}⟩$
5	1	uvtxnbgr	$⊢ K \in UnivVtx (G) \to G NeighbVtx K = V ∖ \{K\}$
6	1 2 3 4	nbupgruvtxres	$⊢ ((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \to (G NeighbVtx K = V ∖ \{K\} \to S NeighbVtx K = V ∖ \{N, K\})$
7	6	imp	$⊢ (((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \land G NeighbVtx K = V ∖ \{K\}) \to S NeighbVtx K = V ∖ \{N, K\}$
8		difpr	$⊢ V ∖ \{N, K\} = (V ∖ \{N\}) ∖ \{K\}$
9	1 2 3 4	upgrres1lem2	$⊢ Vtx (S) = V ∖ \{N\}$
10	9	difeq1i	$⊢ Vtx (S) ∖ \{K\} = (V ∖ \{N\}) ∖ \{K\}$
11	10	a1i	$⊢ ((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \to Vtx (S) ∖ \{K\} = (V ∖ \{N\}) ∖ \{K\}$
12	8 11	eqtr4id	$⊢ ((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \to V ∖ \{N, K\} = Vtx (S) ∖ \{K\}$
13	12	adantr	$⊢ (((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \land G NeighbVtx K = V ∖ \{K\}) \to V ∖ \{N, K\} = Vtx (S) ∖ \{K\}$
14	7 13	eqtrd	$⊢ (((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \land G NeighbVtx K = V ∖ \{K\}) \to S NeighbVtx K = Vtx (S) ∖ \{K\}$
15		simpr	$⊢ ((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \to K \in (V ∖ \{N\})$
16	15 9	eleqtrrdi	$⊢ ((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \to K \in Vtx (S)$
17	16	adantr	$⊢ (((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \land G NeighbVtx K = V ∖ \{K\}) \to K \in Vtx (S)$
18		eqid	$⊢ Vtx (S) = Vtx (S)$
19	18	uvtxnbgrb	$⊢ K \in Vtx (S) \to (K \in UnivVtx (S) \leftrightarrow S NeighbVtx K = Vtx (S) ∖ \{K\})$
20	17 19	syl	$⊢ (((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \land G NeighbVtx K = V ∖ \{K\}) \to (K \in UnivVtx (S) \leftrightarrow S NeighbVtx K = Vtx (S) ∖ \{K\})$
21	14 20	mpbird	$⊢ (((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \land G NeighbVtx K = V ∖ \{K\}) \to K \in UnivVtx (S)$
22	21	ex	$⊢ ((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \to (G NeighbVtx K = V ∖ \{K\} \to K \in UnivVtx (S))$
23	5 22	syl5	$⊢ ((G \in UPGraph \land N \in V) \land K \in (V ∖ \{N\})) \to (K \in UnivVtx (G) \to K \in UnivVtx (S))$

Metamath Proof Explorer

Theorem uvtxupgrres

Proof