supcnvlimsupmpt

Description: If a function on a set of upper integers has a real superior limit, the supremum of the rightmost parts of the function, converges to that superior limit. (Contributed by Glauco Siliprandi, 23-Oct-2021)

	Ref	Expression
Hypotheses	supcnvlimsupmpt.j	$⊢ Ⅎ j φ$
	supcnvlimsupmpt.m	$⊢ φ \to M \in ℤ$
	supcnvlimsupmpt.z	$⊢ Z = ℤ_{\geq M}$
	supcnvlimsupmpt.b	$⊢ (φ \land j \in Z) \to B \in ℝ$
	supcnvlimsupmpt.r	$⊢ φ \to lim sup ((j \in Z ⟼ B)) \in ℝ$
Assertion	supcnvlimsupmpt	$⊢ φ \to (k \in Z ⟼ sup (ran (j \in ℤ_{\geq k} ⟼ B) ℝ^{*} <)) ⇝ lim sup ((j \in Z ⟼ B))$

Proof

Step	Hyp	Ref	Expression
1		supcnvlimsupmpt.j	$⊢ Ⅎ j φ$
2		supcnvlimsupmpt.m	$⊢ φ \to M \in ℤ$
3		supcnvlimsupmpt.z	$⊢ Z = ℤ_{\geq M}$
4		supcnvlimsupmpt.b	$⊢ (φ \land j \in Z) \to B \in ℝ$
5		supcnvlimsupmpt.r	$⊢ φ \to lim sup ((j \in Z ⟼ B)) \in ℝ$
6		fveq2	$⊢ k = n \to ℤ_{\geq k} = ℤ_{\geq n}$
7	6	mpteq1d	$⊢ k = n \to (j \in ℤ_{\geq k} ⟼ B) = (j \in ℤ_{\geq n} ⟼ B)$
8	7	rneqd	$⊢ k = n \to ran (j \in ℤ_{\geq k} ⟼ B) = ran (j \in ℤ_{\geq n} ⟼ B)$
9	8	supeq1d	$⊢ k = n \to sup (ran (j \in ℤ_{\geq k} ⟼ B) ℝ^{} <) = sup (ran (j \in ℤ_{\geq n} ⟼ B) ℝ^{} <)$
10	9	cbvmptv	$⊢ (k \in Z ⟼ sup (ran (j \in ℤ_{\geq k} ⟼ B) ℝ^{} <)) = (n \in Z ⟼ sup (ran (j \in ℤ_{\geq n} ⟼ B) ℝ^{} <))$
11	3	uzssd3	$⊢ n \in Z \to ℤ_{\geq n} \subseteq Z$
12	11	adantl	$⊢ (φ \land n \in Z) \to ℤ_{\geq n} \subseteq Z$
13	12	resmptd	$⊢ (φ \land n \in Z) \to {(j \in Z ⟼ B) ↾}_{ℤ_{\geq n}} = (j \in ℤ_{\geq n} ⟼ B)$
14	13	eqcomd	$⊢ (φ \land n \in Z) \to (j \in ℤ_{\geq n} ⟼ B) = {(j \in Z ⟼ B) ↾}_{ℤ_{\geq n}}$
15	14	rneqd	$⊢ (φ \land n \in Z) \to ran (j \in ℤ_{\geq n} ⟼ B) = ran ({(j \in Z ⟼ B) ↾}_{ℤ_{\geq n}})$
16	15	supeq1d	$⊢ (φ \land n \in Z) \to sup (ran (j \in ℤ_{\geq n} ⟼ B) ℝ^{} <) = sup (ran ({(j \in Z ⟼ B) ↾}_{ℤ_{\geq n}}) ℝ^{} <)$
17	16	mpteq2dva	$⊢ φ \to (n \in Z ⟼ sup (ran (j \in ℤ_{\geq n} ⟼ B) ℝ^{} <)) = (n \in Z ⟼ sup (ran ({(j \in Z ⟼ B) ↾}_{ℤ_{\geq n}}) ℝ^{} <))$
18	10 17	eqtrid	$⊢ φ \to (k \in Z ⟼ sup (ran (j \in ℤ_{\geq k} ⟼ B) ℝ^{} <)) = (n \in Z ⟼ sup (ran ({(j \in Z ⟼ B) ↾}_{ℤ_{\geq n}}) ℝ^{} <))$
19	1 4	fmptd2f	$⊢ φ \to (j \in Z ⟼ B) : Z ⟶ ℝ$
20	2 3 19 5	supcnvlimsup	$⊢ φ \to (n \in Z ⟼ sup (ran ({(j \in Z ⟼ B) ↾}_{ℤ_{\geq n}}) ℝ^{*} <)) ⇝ lim sup ((j \in Z ⟼ B))$
21	18 20	eqbrtrd	$⊢ φ \to (k \in Z ⟼ sup (ran (j \in ℤ_{\geq k} ⟼ B) ℝ^{*} <)) ⇝ lim sup ((j \in Z ⟼ B))$

Metamath Proof Explorer

Theorem supcnvlimsupmpt

Proof