xrge0tmdALT

Description: Alternate proof of xrge0tmd . (Contributed by Thierry Arnoux, 26-Mar-2017) (Proof modification is discouraged.) (New usage is discouraged.)

		Ref	Expression
	Assertion	xrge0tmdALT	$⊢ ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞] \in TopMnd$

Proof

Step	Hyp	Ref	Expression
1		xrge0cmn	$⊢ ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞] \in CMnd$
2		cmnmnd	$⊢ ℝ_{𝑠}^{} ↾_{𝑠} [0, +∞] \in CMnd \to ℝ_{𝑠}^{} ↾_{𝑠} [0, +∞] \in Mnd$
3	1 2	ax-mp	$⊢ ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞] \in Mnd$
4		xrge0tps	$⊢ ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞] \in TopSp$
5		eqeq1	$⊢ y = x \to (y = 0 \leftrightarrow x = 0)$
6		fveq2	$⊢ y = x \to \log y = \log x$
7	6	negeqd	$⊢ y = x \to - \log y = - \log x$
8	5 7	ifbieq2d	$⊢ y = x \to if (y = 0, +∞, - \log y) = if (x = 0, +∞, - \log x)$
9	8	cbvmptv	$⊢ (y \in [0, 1] ⟼ if (y = 0, +∞, - \log y)) = (x \in [0, 1] ⟼ if (x = 0, +∞, - \log x))$
10		eqid	$⊢ ordTop (\leq) ↾_{𝑡} [0, +∞] = ordTop (\leq) ↾_{𝑡} [0, +∞]$
11		eqid	$⊢ {+_{𝑒} ↾}_{([0, +∞] \times [0, +∞])} = {+_{𝑒} ↾}_{([0, +∞] \times [0, +∞])}$
12	9 10 11	xrge0pluscn	$⊢ {+_{𝑒} ↾}_{([0, +∞] \times [0, +∞])} \in (((ordTop (\leq) ↾_{𝑡} [0, +∞]) \times_{t} (ordTop (\leq) ↾_{𝑡} [0, +∞])) Cn (ordTop (\leq) ↾_{𝑡} [0, +∞]))$
13		xrsbas	$⊢ ℝ^{} = {Base}_{ℝ_{𝑠}^{}}$
14		eqid	$⊢ ℝ_{𝑠}^{} ↾_{𝑠} [0, +∞] = ℝ_{𝑠}^{} ↾_{𝑠} [0, +∞]$
15		xrsadd	$⊢ +_{𝑒} = +_{ℝ_{𝑠}^{*}}$
16		xaddf	$⊢ +_{𝑒} : ℝ^{} \times ℝ^{} ⟶ ℝ^{*}$
17		ffn	$⊢ +_{𝑒} : ℝ^{} \times ℝ^{} ⟶ ℝ^{} \to +_{𝑒} Fn (ℝ^{} \times ℝ^{*})$
18	16 17	ax-mp	$⊢ +_{𝑒} Fn (ℝ^{} \times ℝ^{})$
19		iccssxr	$⊢ [0, +∞] \subseteq ℝ^{*}$
20	13 14 15 18 19	ressplusf	$⊢ +_{𝑓} (ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞]) = {+_{𝑒} ↾}_{([0, +∞] \times [0, +∞])}$
21	20	eqcomi	$⊢ {+_{𝑒} ↾}_{([0, +∞] \times [0, +∞])} = +_{𝑓} (ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞])$
22		xrge0base	$⊢ [0, +∞] = {Base}_{(ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞])}$
23		ovex	$⊢ [0, +∞] \in V$
24		xrstset	$⊢ ordTop (\leq) = TopSet (ℝ_{𝑠}^{*})$
25	14 24	resstset	$⊢ [0, +∞] \in V \to ordTop (\leq) = TopSet (ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞])$
26	23 25	ax-mp	$⊢ ordTop (\leq) = TopSet (ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞])$
27	22 26	topnval	$⊢ ordTop (\leq) ↾_{𝑡} [0, +∞] = TopOpen (ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞])$
28	21 27	istmd	$⊢ ℝ_{𝑠}^{} ↾_{𝑠} [0, +∞] \in TopMnd \leftrightarrow (ℝ_{𝑠}^{} ↾_{𝑠} [0, +∞] \in Mnd \land ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞] \in TopSp \land {+_{𝑒} ↾}_{([0, +∞] \times [0, +∞])} \in (((ordTop (\leq) ↾_{𝑡} [0, +∞]) \times_{t} (ordTop (\leq) ↾_{𝑡} [0, +∞])) Cn (ordTop (\leq) ↾_{𝑡} [0, +∞])))$
29	3 4 12 28	mpbir3an	$⊢ ℝ_{𝑠}^{*} ↾_{𝑠} [0, +∞] \in TopMnd$

Metamath Proof Explorer

Theorem xrge0tmdALT

Proof