wlk2v2elem2

Description: Lemma 2 for wlk2v2e : The values of I after F are edges between two vertices enumerated by P . (Contributed by Alexander van der Vekens, 22-Oct-2017) (Revised by AV, 9-Jan-2021)

	Ref	Expression
Hypotheses	wlk2v2e.i	$⊢ I = ⟨“ \{X, Y\} ”⟩$
	wlk2v2e.f	$⊢ F = ⟨“ 00 ”⟩$
	wlk2v2e.x	$⊢ X \in V$
	wlk2v2e.y	$⊢ Y \in V$
	wlk2v2e.p	$⊢ P = ⟨“ X Y X ”⟩$
Assertion	wlk2v2elem2	$⊢ \forall k \in (0 ..^\|F\|) I (F (k)) = \{P (k), P (k + 1)\}$

Proof

Step	Hyp	Ref	Expression
1		wlk2v2e.i	$⊢ I = ⟨“ \{X, Y\} ”⟩$
2		wlk2v2e.f	$⊢ F = ⟨“ 00 ”⟩$
3		wlk2v2e.x	$⊢ X \in V$
4		wlk2v2e.y	$⊢ Y \in V$
5		wlk2v2e.p	$⊢ P = ⟨“ X Y X ”⟩$
6	2	fveq1i	$⊢ F (0) = ⟨“ 00 ”⟩ (0)$
7		0z	$⊢ 0 \in ℤ$
8		s2fv0	$⊢ 0 \in ℤ \to ⟨“ 00 ”⟩ (0) = 0$
9	7 8	ax-mp	$⊢ ⟨“ 00 ”⟩ (0) = 0$
10	6 9	eqtri	$⊢ F (0) = 0$
11	10	fveq2i	$⊢ I (F (0)) = I (0)$
12	1	fveq1i	$⊢ I (0) = ⟨“ \{X, Y\} ”⟩ (0)$
13		prex	$⊢ \{X, Y\} \in V$
14		s1fv	$⊢ \{X, Y\} \in V \to ⟨“ \{X, Y\} ”⟩ (0) = \{X, Y\}$
15	13 14	ax-mp	$⊢ ⟨“ \{X, Y\} ”⟩ (0) = \{X, Y\}$
16	12 15	eqtri	$⊢ I (0) = \{X, Y\}$
17	5	fveq1i	$⊢ P (0) = ⟨“ X Y X ”⟩ (0)$
18		s3fv0	$⊢ X \in V \to ⟨“ X Y X ”⟩ (0) = X$
19	3 18	ax-mp	$⊢ ⟨“ X Y X ”⟩ (0) = X$
20	17 19	eqtri	$⊢ P (0) = X$
21	5	fveq1i	$⊢ P (1) = ⟨“ X Y X ”⟩ (1)$
22		s3fv1	$⊢ Y \in V \to ⟨“ X Y X ”⟩ (1) = Y$
23	4 22	ax-mp	$⊢ ⟨“ X Y X ”⟩ (1) = Y$
24	21 23	eqtri	$⊢ P (1) = Y$
25	20 24	preq12i	$⊢ \{P (0), P (1)\} = \{X, Y\}$
26	25	eqcomi	$⊢ \{X, Y\} = \{P (0), P (1)\}$
27	11 16 26	3eqtri	$⊢ I (F (0)) = \{P (0), P (1)\}$
28	2	fveq1i	$⊢ F (1) = ⟨“ 00 ”⟩ (1)$
29		s2fv1	$⊢ 0 \in ℤ \to ⟨“ 00 ”⟩ (1) = 0$
30	7 29	ax-mp	$⊢ ⟨“ 00 ”⟩ (1) = 0$
31	28 30	eqtri	$⊢ F (1) = 0$
32	31	fveq2i	$⊢ I (F (1)) = I (0)$
33		prcom	$⊢ \{X, Y\} = \{Y, X\}$
34	5	fveq1i	$⊢ P (2) = ⟨“ X Y X ”⟩ (2)$
35		s3fv2	$⊢ X \in V \to ⟨“ X Y X ”⟩ (2) = X$
36	3 35	ax-mp	$⊢ ⟨“ X Y X ”⟩ (2) = X$
37	34 36	eqtri	$⊢ P (2) = X$
38	24 37	preq12i	$⊢ \{P (1), P (2)\} = \{Y, X\}$
39	38	eqcomi	$⊢ \{Y, X\} = \{P (1), P (2)\}$
40	33 39	eqtri	$⊢ \{X, Y\} = \{P (1), P (2)\}$
41	32 16 40	3eqtri	$⊢ I (F (1)) = \{P (1), P (2)\}$
42		2wlklem	$⊢ \forall k \in \{0, 1\} I (F (k)) = \{P (k), P (k + 1)\} \leftrightarrow (I (F (0)) = \{P (0), P (1)\} \land I (F (1)) = \{P (1), P (2)\})$
43	27 41 42	mpbir2an	$⊢ \forall k \in \{0, 1\} I (F (k)) = \{P (k), P (k + 1)\}$
44	5 2	2wlkdlem2	$⊢ (0 ..^\|F\|) = \{0, 1\}$
45	44	raleqi	$⊢ \forall k \in (0 ..^\|F\|) I (F (k)) = \{P (k), P (k + 1)\} \leftrightarrow \forall k \in \{0, 1\} I (F (k)) = \{P (k), P (k + 1)\}$
46	43 45	mpbir	$⊢ \forall k \in (0 ..^\|F\|) I (F (k)) = \{P (k), P (k + 1)\}$

Metamath Proof Explorer

Theorem wlk2v2elem2

Proof