climuz

Description: Express the predicate: The limit of complex number sequence F is A , or F converges to A . (Contributed by Glauco Siliprandi, 2-Jan-2022)

	Ref	Expression
Hypotheses	climuz.k	$⊢ \underline{Ⅎ} k F$
	climuz.m	$⊢ φ \to M \in ℤ$
	climuz.z	$⊢ Z = ℤ_{\geq M}$
	climuz.f	$⊢ φ \to F : Z ⟶ ℂ$
Assertion	climuz	$⊢ φ \to (F ⇝ A \leftrightarrow (A \in ℂ \land \forall x \in ℝ^{+} \exists j \in Z \forall k \in ℤ_{\geq j} \|F (k) - A\| < x))$

Proof

Step	Hyp	Ref	Expression
1		climuz.k	$⊢ \underline{Ⅎ} k F$
2		climuz.m	$⊢ φ \to M \in ℤ$
3		climuz.z	$⊢ Z = ℤ_{\geq M}$
4		climuz.f	$⊢ φ \to F : Z ⟶ ℂ$
5	2 3 4	climuzlem	$⊢ φ \to (F ⇝ A \leftrightarrow (A \in ℂ \land \forall y \in ℝ^{+} \exists i \in Z \forall l \in ℤ_{\geq i} \|F (l) - A\| < y))$
6		breq2	$⊢ y = x \to (\|F (l) - A\| < y \leftrightarrow \|F (l) - A\| < x)$
7	6	ralbidv	$⊢ y = x \to (\forall l \in ℤ_{\geq i} \|F (l) - A\| < y \leftrightarrow \forall l \in ℤ_{\geq i} \|F (l) - A\| < x)$
8	7	rexbidv	$⊢ y = x \to (\exists i \in Z \forall l \in ℤ_{\geq i} \|F (l) - A\| < y \leftrightarrow \exists i \in Z \forall l \in ℤ_{\geq i} \|F (l) - A\| < x)$
9		fveq2	$⊢ i = j \to ℤ_{\geq i} = ℤ_{\geq j}$
10	9	raleqdv	$⊢ i = j \to (\forall l \in ℤ_{\geq i} \|F (l) - A\| < x \leftrightarrow \forall l \in ℤ_{\geq j} \|F (l) - A\| < x)$
11		nfcv	$⊢ \underline{Ⅎ} k abs$
12		nfcv	$⊢ \underline{Ⅎ} k l$
13	1 12	nffv	$⊢ \underline{Ⅎ} k F (l)$
14		nfcv	$⊢ \underline{Ⅎ} k -$
15		nfcv	$⊢ \underline{Ⅎ} k A$
16	13 14 15	nfov	$⊢ \underline{Ⅎ} k (F (l) - A)$
17	11 16	nffv	$⊢ \underline{Ⅎ} k \|F (l) - A\|$
18		nfcv	$⊢ \underline{Ⅎ} k <$
19		nfcv	$⊢ \underline{Ⅎ} k x$
20	17 18 19	nfbr	$⊢ Ⅎ k \|F (l) - A\| < x$
21		nfv	$⊢ Ⅎ l \|F (k) - A\| < x$
22		fveq2	$⊢ l = k \to F (l) = F (k)$
23	22	fvoveq1d	$⊢ l = k \to \|F (l) - A\| = \|F (k) - A\|$
24	23	breq1d	$⊢ l = k \to (\|F (l) - A\| < x \leftrightarrow \|F (k) - A\| < x)$
25	20 21 24	cbvralw	$⊢ \forall l \in ℤ_{\geq j} \|F (l) - A\| < x \leftrightarrow \forall k \in ℤ_{\geq j} \|F (k) - A\| < x$
26	25	a1i	$⊢ i = j \to (\forall l \in ℤ_{\geq j} \|F (l) - A\| < x \leftrightarrow \forall k \in ℤ_{\geq j} \|F (k) - A\| < x)$
27	10 26	bitrd	$⊢ i = j \to (\forall l \in ℤ_{\geq i} \|F (l) - A\| < x \leftrightarrow \forall k \in ℤ_{\geq j} \|F (k) - A\| < x)$
28	27	cbvrexvw	$⊢ \exists i \in Z \forall l \in ℤ_{\geq i} \|F (l) - A\| < x \leftrightarrow \exists j \in Z \forall k \in ℤ_{\geq j} \|F (k) - A\| < x$
29	28	a1i	$⊢ y = x \to (\exists i \in Z \forall l \in ℤ_{\geq i} \|F (l) - A\| < x \leftrightarrow \exists j \in Z \forall k \in ℤ_{\geq j} \|F (k) - A\| < x)$
30	8 29	bitrd	$⊢ y = x \to (\exists i \in Z \forall l \in ℤ_{\geq i} \|F (l) - A\| < y \leftrightarrow \exists j \in Z \forall k \in ℤ_{\geq j} \|F (k) - A\| < x)$
31	30	cbvralvw	$⊢ \forall y \in ℝ^{+} \exists i \in Z \forall l \in ℤ_{\geq i} \|F (l) - A\| < y \leftrightarrow \forall x \in ℝ^{+} \exists j \in Z \forall k \in ℤ_{\geq j} \|F (k) - A\| < x$
32	31	anbi2i	$⊢ (A \in ℂ \land \forall y \in ℝ^{+} \exists i \in Z \forall l \in ℤ_{\geq i} \|F (l) - A\| < y) \leftrightarrow (A \in ℂ \land \forall x \in ℝ^{+} \exists j \in Z \forall k \in ℤ_{\geq j} \|F (k) - A\| < x)$
33	32	a1i	$⊢ φ \to ((A \in ℂ \land \forall y \in ℝ^{+} \exists i \in Z \forall l \in ℤ_{\geq i} \|F (l) - A\| < y) \leftrightarrow (A \in ℂ \land \forall x \in ℝ^{+} \exists j \in Z \forall k \in ℤ_{\geq j} \|F (k) - A\| < x))$
34	5 33	bitrd	$⊢ φ \to (F ⇝ A \leftrightarrow (A \in ℂ \land \forall x \in ℝ^{+} \exists j \in Z \forall k \in ℤ_{\geq j} \|F (k) - A\| < x))$

Metamath Proof Explorer

Theorem climuz

Proof