ntrneifv2 - Mathbox for Richard Penner

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Theorem ntrneifv2 40783

Description: If (pseudo-)interior and (pseudo-)neighborhood functions are related by the operator, 𝐹, then the function value of converse of 𝐹 is the interior function. (Contributed by RP, 29-May-2021.)

**Hypotheses**
Ref	Expression
ntrnei.o	⊢ 𝑂 = (𝑖 ∈ V, 𝑗 ∈ V ↦ (𝑘 ∈ (𝒫 𝑗 ↑_m 𝑖) ↦ (𝑙 ∈ 𝑗 ↦ {𝑚 ∈ 𝑖 ∣ 𝑙 ∈ (𝑘‘𝑚)})))
ntrnei.f	⊢ 𝐹 = (𝒫 𝐵𝑂𝐵)
ntrnei.r	⊢ (𝜑 → 𝐼𝐹𝑁)

**Assertion**
Ref	Expression
ntrneifv2	⊢ (𝜑 → (^◡𝐹‘𝑁) = 𝐼)

Distinct variable groups: 𝐵,𝑖,𝑗,𝑘,𝑙,𝑚 𝜑,𝑖,𝑗,𝑘,𝑙 Allowed substitution hints: 𝜑(𝑚) 𝐹(𝑖,𝑗,𝑘,𝑚,𝑙) 𝐼(𝑖,𝑗,𝑘,𝑚,𝑙) 𝑁(𝑖,𝑗,𝑘,𝑚,𝑙) 𝑂(𝑖,𝑗,𝑘,𝑚,𝑙)

**Proof of Theorem ntrneifv2**
Step	Hyp	Ref	Expression
1		ntrnei.r	. 2 ⊢ (𝜑 → 𝐼𝐹𝑁)
2		ntrnei.o	. . . . . 6 ⊢ 𝑂 = (𝑖 ∈ V, 𝑗 ∈ V ↦ (𝑘 ∈ (𝒫 𝑗 ↑_m 𝑖) ↦ (𝑙 ∈ 𝑗 ↦ {𝑚 ∈ 𝑖 ∣ 𝑙 ∈ (𝑘‘𝑚)})))
3		ntrnei.f	. . . . . 6 ⊢ 𝐹 = (𝒫 𝐵𝑂𝐵)
4	2, 3, 1	ntrneif1o 40778	. . . . 5 ⊢ (𝜑 → 𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–1-1-onto→(𝒫 𝒫 𝐵 ↑_m 𝐵))
5	2, 3, 1	ntrneinex 40780	. . . . 5 ⊢ (𝜑 → 𝑁 ∈ (𝒫 𝒫 𝐵 ↑_m 𝐵))
6		dff1o3 6596	. . . . . . . 8 ⊢ (𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–1-1-onto→(𝒫 𝒫 𝐵 ↑_m 𝐵) ↔ (𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–onto→(𝒫 𝒫 𝐵 ↑_m 𝐵) ∧ Fun ^◡𝐹))
7	6	simprbi 500	. . . . . . 7 ⊢ (𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–1-1-onto→(𝒫 𝒫 𝐵 ↑_m 𝐵) → Fun ^◡𝐹)
8	7	adantr 484	. . . . . 6 ⊢ ((𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–1-1-onto→(𝒫 𝒫 𝐵 ↑_m 𝐵) ∧ 𝑁 ∈ (𝒫 𝒫 𝐵 ↑_m 𝐵)) → Fun ^◡𝐹)
9		df-rn 5530	. . . . . . . . 9 ⊢ ran 𝐹 = dom ^◡𝐹
10		f1ofo 6597	. . . . . . . . . 10 ⊢ (𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–1-1-onto→(𝒫 𝒫 𝐵 ↑_m 𝐵) → 𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–onto→(𝒫 𝒫 𝐵 ↑_m 𝐵))
11		forn 6568	. . . . . . . . . 10 ⊢ (𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–onto→(𝒫 𝒫 𝐵 ↑_m 𝐵) → ran 𝐹 = (𝒫 𝒫 𝐵 ↑_m 𝐵))
12	10, 11	syl 17	. . . . . . . . 9 ⊢ (𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–1-1-onto→(𝒫 𝒫 𝐵 ↑_m 𝐵) → ran 𝐹 = (𝒫 𝒫 𝐵 ↑_m 𝐵))
13	9, 12	syl5eqr 2847	. . . . . . . 8 ⊢ (𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–1-1-onto→(𝒫 𝒫 𝐵 ↑_m 𝐵) → dom ^◡𝐹 = (𝒫 𝒫 𝐵 ↑_m 𝐵))
14	13	eleq2d 2875	. . . . . . 7 ⊢ (𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–1-1-onto→(𝒫 𝒫 𝐵 ↑_m 𝐵) → (𝑁 ∈ dom ^◡𝐹 ↔ 𝑁 ∈ (𝒫 𝒫 𝐵 ↑_m 𝐵)))
15	14	biimpar 481	. . . . . 6 ⊢ ((𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–1-1-onto→(𝒫 𝒫 𝐵 ↑_m 𝐵) ∧ 𝑁 ∈ (𝒫 𝒫 𝐵 ↑_m 𝐵)) → 𝑁 ∈ dom ^◡𝐹)
16	8, 15	jca 515	. . . . 5 ⊢ ((𝐹:(𝒫 𝐵 ↑_m 𝒫 𝐵)–1-1-onto→(𝒫 𝒫 𝐵 ↑_m 𝐵) ∧ 𝑁 ∈ (𝒫 𝒫 𝐵 ↑_m 𝐵)) → (Fun ^◡𝐹 ∧ 𝑁 ∈ dom ^◡𝐹))
17	4, 5, 16	syl2anc 587	. . . 4 ⊢ (𝜑 → (Fun ^◡𝐹 ∧ 𝑁 ∈ dom ^◡𝐹))
18		funbrfvb 6695	. . . 4 ⊢ ((Fun ^◡𝐹 ∧ 𝑁 ∈ dom ^◡𝐹) → ((^◡𝐹‘𝑁) = 𝐼 ↔ 𝑁^◡𝐹𝐼))
19	17, 18	syl 17	. . 3 ⊢ (𝜑 → ((^◡𝐹‘𝑁) = 𝐼 ↔ 𝑁^◡𝐹𝐼))
20	2, 3, 1	ntrneiiex 40779	. . . 4 ⊢ (𝜑 → 𝐼 ∈ (𝒫 𝐵 ↑_m 𝒫 𝐵))
21		brcnvg 5714	. . . 4 ⊢ ((𝑁 ∈ (𝒫 𝒫 𝐵 ↑_m 𝐵) ∧ 𝐼 ∈ (𝒫 𝐵 ↑_m 𝒫 𝐵)) → (𝑁^◡𝐹𝐼 ↔ 𝐼𝐹𝑁))
22	5, 20, 21	syl2anc 587	. . 3 ⊢ (𝜑 → (𝑁^◡𝐹𝐼 ↔ 𝐼𝐹𝑁))
23	19, 22	bitrd 282	. 2 ⊢ (𝜑 → ((^◡𝐹‘𝑁) = 𝐼 ↔ 𝐼𝐹𝑁))
24	1, 23	mpbird 260	1 ⊢ (𝜑 → (^◡𝐹‘𝑁) = 𝐼)

Colors of variables: wff setvar class

Syntax hints: → wi 4 ↔ wb 209 ∧ wa 399 = wceq 1538 ∈ wcel 2111 {crab 3110 Vcvv 3441 𝒫 cpw 4497 class class class wbr 5030 ↦ cmpt 5110 ^◡ccnv 5518 dom cdm 5519 ran crn 5520 Fun wfun 6318 –onto→wfo 6322 –1-1-onto→wf1o 6323 ‘cfv 6324 (class class class)co 7135 ∈ cmpo 7137 ↑_m cmap 8389

This theorem was proved from axioms: ax-mp 5 ax-1 6 ax-2 7 ax-3 8 ax-gen 1797 ax-4 1811 ax-5 1911 ax-6 1970 ax-7 2015 ax-8 2113 ax-9 2121 ax-10 2142 ax-11 2158 ax-12 2175 ax-ext 2770 ax-rep 5154 ax-sep 5167 ax-nul 5174 ax-pow 5231 ax-pr 5295 ax-un 7441

This theorem depends on definitions: df-bi 210 df-an 400 df-or 845 df-3an 1086 df-tru 1541 df-ex 1782 df-nf 1786 df-sb 2070 df-mo 2598 df-eu 2629 df-clab 2777 df-cleq 2791 df-clel 2870 df-nfc 2938 df-ne 2988 df-ral 3111 df-rex 3112 df-reu 3113 df-rab 3115 df-v 3443 df-sbc 3721 df-csb 3829 df-dif 3884 df-un 3886 df-in 3888 df-ss 3898 df-nul 4244 df-if 4426 df-pw 4499 df-sn 4526 df-pr 4528 df-op 4532 df-uni 4801 df-iun 4883 df-br 5031 df-opab 5093 df-mpt 5111 df-id 5425 df-xp 5525 df-rel 5526 df-cnv 5527 df-co 5528 df-dm 5529 df-rn 5530 df-res 5531 df-ima 5532 df-iota 6283 df-fun 6326 df-fn 6327 df-f 6328 df-f1 6329 df-fo 6330 df-f1o 6331 df-fv 6332 df-ov 7138 df-oprab 7139 df-mpo 7140 df-1st 7671 df-2nd 7672 df-map 8391

This theorem is referenced by: (None)

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