cplgredgex

Description: Any two (distinct) vertices in a complete graph are connected to each other by at least one edge. (Contributed by BTernaryTau, 2-Oct-2023)

	Ref	Expression
Hypotheses	cplgredgex.1	$⊢ V = Vtx (G)$
	cplgredgex.2	$⊢ E = Edg (G)$
Assertion	cplgredgex	$⊢ G \in ComplGraph \to ((A \in V \land B \in (V ∖ \{A\})) \to \exists e \in E \{A, B\} \subseteq e)$

Proof

Step	Hyp	Ref	Expression
1		cplgredgex.1	$⊢ V = Vtx (G)$
2		cplgredgex.2	$⊢ E = Edg (G)$
3		simp2	$⊢ (G \in ComplGraph \land A \in V \land B \in (V ∖ \{A\})) \to A \in V$
4		simp3	$⊢ (G \in ComplGraph \land A \in V \land B \in (V ∖ \{A\})) \to B \in (V ∖ \{A\})$
5		eleq1	$⊢ a = A \to (a \in V \leftrightarrow A \in V)$
6		sneq	$⊢ a = A \to \{a\} = \{A\}$
7	6	difeq2d	$⊢ a = A \to V ∖ \{a\} = V ∖ \{A\}$
8	7	eleq2d	$⊢ a = A \to (b \in (V ∖ \{a\}) \leftrightarrow b \in (V ∖ \{A\}))$
9	5 8	anbi12d	$⊢ a = A \to ((a \in V \land b \in (V ∖ \{a\})) \leftrightarrow (A \in V \land b \in (V ∖ \{A\})))$
10		preq1	$⊢ a = A \to \{a, b\} = \{A, b\}$
11	10	sseq1d	$⊢ a = A \to (\{a, b\} \subseteq e \leftrightarrow \{A, b\} \subseteq e)$
12	11	rexbidv	$⊢ a = A \to (\exists e \in E \{a, b\} \subseteq e \leftrightarrow \exists e \in E \{A, b\} \subseteq e)$
13	9 12	imbi12d	$⊢ a = A \to (((a \in V \land b \in (V ∖ \{a\})) \to \exists e \in E \{a, b\} \subseteq e) \leftrightarrow ((A \in V \land b \in (V ∖ \{A\})) \to \exists e \in E \{A, b\} \subseteq e))$
14		eleq1	$⊢ b = B \to (b \in (V ∖ \{A\}) \leftrightarrow B \in (V ∖ \{A\}))$
15	14	anbi2d	$⊢ b = B \to ((A \in V \land b \in (V ∖ \{A\})) \leftrightarrow (A \in V \land B \in (V ∖ \{A\})))$
16		preq2	$⊢ b = B \to \{A, b\} = \{A, B\}$
17	16	sseq1d	$⊢ b = B \to (\{A, b\} \subseteq e \leftrightarrow \{A, B\} \subseteq e)$
18	17	rexbidv	$⊢ b = B \to (\exists e \in E \{A, b\} \subseteq e \leftrightarrow \exists e \in E \{A, B\} \subseteq e)$
19	15 18	imbi12d	$⊢ b = B \to (((A \in V \land b \in (V ∖ \{A\})) \to \exists e \in E \{A, b\} \subseteq e) \leftrightarrow ((A \in V \land B \in (V ∖ \{A\})) \to \exists e \in E \{A, B\} \subseteq e))$
20	13 19	sylan9bb	$⊢ (a = A \land b = B) \to (((a \in V \land b \in (V ∖ \{a\})) \to \exists e \in E \{a, b\} \subseteq e) \leftrightarrow ((A \in V \land B \in (V ∖ \{A\})) \to \exists e \in E \{A, B\} \subseteq e))$
21	1 2	iscplgredg	$⊢ G \in ComplGraph \to (G \in ComplGraph \leftrightarrow \forall a \in V \forall b \in (V ∖ \{a\}) \exists e \in E \{a, b\} \subseteq e)$
22	21	ibi	$⊢ G \in ComplGraph \to \forall a \in V \forall b \in (V ∖ \{a\}) \exists e \in E \{a, b\} \subseteq e$
23		rsp2	$⊢ \forall a \in V \forall b \in (V ∖ \{a\}) \exists e \in E \{a, b\} \subseteq e \to ((a \in V \land b \in (V ∖ \{a\})) \to \exists e \in E \{a, b\} \subseteq e)$
24	22 23	syl	$⊢ G \in ComplGraph \to ((a \in V \land b \in (V ∖ \{a\})) \to \exists e \in E \{a, b\} \subseteq e)$
25	24	3ad2ant1	$⊢ (G \in ComplGraph \land A \in V \land B \in (V ∖ \{A\})) \to ((a \in V \land b \in (V ∖ \{a\})) \to \exists e \in E \{a, b\} \subseteq e)$
26	3 4 20 25	vtocl2d	$⊢ (G \in ComplGraph \land A \in V \land B \in (V ∖ \{A\})) \to ((A \in V \land B \in (V ∖ \{A\})) \to \exists e \in E \{A, B\} \subseteq e)$
27	3 4 26	mp2and	$⊢ (G \in ComplGraph \land A \in V \land B \in (V ∖ \{A\})) \to \exists e \in E \{A, B\} \subseteq e$
28	27	3expib	$⊢ G \in ComplGraph \to ((A \in V \land B \in (V ∖ \{A\})) \to \exists e \in E \{A, B\} \subseteq e)$

Metamath Proof Explorer

Theorem cplgredgex

Proof