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Theorem cnmpt1vsca 24308
Description: Continuity of scalar multiplication; analogue of cnmpt12f 23780 which cannot be used directly because ·𝑠 is not a function. (Contributed by Mario Carneiro, 5-Oct-2015.)
Hypotheses
Ref Expression
tlmtrg.f 𝐹 = (Scalar‘𝑊)
cnmpt1vsca.t · = ( ·𝑠𝑊)
cnmpt1vsca.j 𝐽 = (TopOpen‘𝑊)
cnmpt1vsca.k 𝐾 = (TopOpen‘𝐹)
cnmpt1vsca.w (𝜑𝑊 ∈ TopMod)
cnmpt1vsca.l (𝜑𝐿 ∈ (TopOn‘𝑋))
cnmpt1vsca.a (𝜑 → (𝑥𝑋𝐴) ∈ (𝐿 Cn 𝐾))
cnmpt1vsca.b (𝜑 → (𝑥𝑋𝐵) ∈ (𝐿 Cn 𝐽))
Assertion
Ref Expression
cnmpt1vsca (𝜑 → (𝑥𝑋 ↦ (𝐴 · 𝐵)) ∈ (𝐿 Cn 𝐽))
Distinct variable groups:   𝑥,𝐹   𝑥,𝐽   𝑥,𝐾   𝑥,𝐿   𝜑,𝑥   𝑥,𝑊   𝑥,𝑋
Allowed substitution hints:   𝐴(𝑥)   𝐵(𝑥)   · (𝑥)

Proof of Theorem cnmpt1vsca
StepHypRef Expression
1 cnmpt1vsca.l . . . . . 6 (𝜑𝐿 ∈ (TopOn‘𝑋))
2 cnmpt1vsca.w . . . . . . . 8 (𝜑𝑊 ∈ TopMod)
3 tlmtrg.f . . . . . . . . 9 𝐹 = (Scalar‘𝑊)
43tlmscatps 24305 . . . . . . . 8 (𝑊 ∈ TopMod → 𝐹 ∈ TopSp)
52, 4syl 18 . . . . . . 7 (𝜑𝐹 ∈ TopSp)
6 eqid 2765 . . . . . . . 8 (Base‘𝐹) = (Base‘𝐹)
7 cnmpt1vsca.k . . . . . . . 8 𝐾 = (TopOpen‘𝐹)
86, 7istps 23048 . . . . . . 7 (𝐹 ∈ TopSp ↔ 𝐾 ∈ (TopOn‘(Base‘𝐹)))
95, 8sylib 221 . . . . . 6 (𝜑𝐾 ∈ (TopOn‘(Base‘𝐹)))
10 cnmpt1vsca.a . . . . . 6 (𝜑 → (𝑥𝑋𝐴) ∈ (𝐿 Cn 𝐾))
11 cnf2 23363 . . . . . 6 ((𝐿 ∈ (TopOn‘𝑋) ∧ 𝐾 ∈ (TopOn‘(Base‘𝐹)) ∧ (𝑥𝑋𝐴) ∈ (𝐿 Cn 𝐾)) → (𝑥𝑋𝐴):𝑋⟶(Base‘𝐹))
121, 9, 10, 11syl3anc 1394 . . . . 5 (𝜑 → (𝑥𝑋𝐴):𝑋⟶(Base‘𝐹))
1312fvmptelcdm 7098 . . . 4 ((𝜑𝑥𝑋) → 𝐴 ∈ (Base‘𝐹))
14 tlmtps 24302 . . . . . . . 8 (𝑊 ∈ TopMod → 𝑊 ∈ TopSp)
152, 14syl 18 . . . . . . 7 (𝜑𝑊 ∈ TopSp)
16 eqid 2765 . . . . . . . 8 (Base‘𝑊) = (Base‘𝑊)
17 cnmpt1vsca.j . . . . . . . 8 𝐽 = (TopOpen‘𝑊)
1816, 17istps 23048 . . . . . . 7 (𝑊 ∈ TopSp ↔ 𝐽 ∈ (TopOn‘(Base‘𝑊)))
1915, 18sylib 221 . . . . . 6 (𝜑𝐽 ∈ (TopOn‘(Base‘𝑊)))
20 cnmpt1vsca.b . . . . . 6 (𝜑 → (𝑥𝑋𝐵) ∈ (𝐿 Cn 𝐽))
21 cnf2 23363 . . . . . 6 ((𝐿 ∈ (TopOn‘𝑋) ∧ 𝐽 ∈ (TopOn‘(Base‘𝑊)) ∧ (𝑥𝑋𝐵) ∈ (𝐿 Cn 𝐽)) → (𝑥𝑋𝐵):𝑋⟶(Base‘𝑊))
221, 19, 20, 21syl3anc 1394 . . . . 5 (𝜑 → (𝑥𝑋𝐵):𝑋⟶(Base‘𝑊))
2322fvmptelcdm 7098 . . . 4 ((𝜑𝑥𝑋) → 𝐵 ∈ (Base‘𝑊))
24 eqid 2765 . . . . 5 ( ·sf𝑊) = ( ·sf𝑊)
25 cnmpt1vsca.t . . . . 5 · = ( ·𝑠𝑊)
2616, 3, 6, 24, 25scafval 20968 . . . 4 ((𝐴 ∈ (Base‘𝐹) ∧ 𝐵 ∈ (Base‘𝑊)) → (𝐴( ·sf𝑊)𝐵) = (𝐴 · 𝐵))
2713, 23, 26syl2anc 595 . . 3 ((𝜑𝑥𝑋) → (𝐴( ·sf𝑊)𝐵) = (𝐴 · 𝐵))
2827mpteq2dva 5197 . 2 (𝜑 → (𝑥𝑋 ↦ (𝐴( ·sf𝑊)𝐵)) = (𝑥𝑋 ↦ (𝐴 · 𝐵)))
2924, 17, 3, 7vscacn 24300 . . . 4 (𝑊 ∈ TopMod → ( ·sf𝑊) ∈ ((𝐾 ×t 𝐽) Cn 𝐽))
302, 29syl 18 . . 3 (𝜑 → ( ·sf𝑊) ∈ ((𝐾 ×t 𝐽) Cn 𝐽))
311, 10, 20, 30cnmpt12f 23780 . 2 (𝜑 → (𝑥𝑋 ↦ (𝐴( ·sf𝑊)𝐵)) ∈ (𝐿 Cn 𝐽))
3228, 31eqeltrrd 2866 1 (𝜑 → (𝑥𝑋 ↦ (𝐴 · 𝐵)) ∈ (𝐿 Cn 𝐽))
Colors of variables: wff setvar class
Syntax hints:  wi 4  wa 400   = wceq 1563  wcel 2145  cmpt 5185  wf 6521  cfv 6525  (class class class)co 7400  Basecbs 17257  Scalarcsca 17301   ·𝑠 cvsca 17302  TopOpenctopn 17462   ·sf cscaf 20948  TopOnctopon 23024  TopSpctps 23046   Cn ccn 23338   ×t ctx 23674  TopModctlm 24272
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1818  ax-4 1832  ax-5 1933  ax-6 1990  ax-7 2031  ax-8 2147  ax-9 2155  ax-10 2178  ax-11 2194  ax-12 2215  ax-ext 2737  ax-sep 5250  ax-nul 5260  ax-pow 5326  ax-pr 5394  ax-un 7722
This theorem depends on definitions:  df-bi 210  df-an 401  df-or 861  df-3an 1103  df-tru 1566  df-fal 1576  df-ex 1803  df-nf 1807  df-sb 2094  df-mo 2569  df-eu 2599  df-clab 2744  df-cleq 2757  df-clel 2840  df-nfc 2914  df-ne 2961  df-ral 3080  df-rex 3090  df-rab 3418  df-v 3459  df-sbc 3748  df-csb 3856  df-dif 3910  df-un 3912  df-in 3914  df-ss 3924  df-nul 4289  df-if 4484  df-pw 4560  df-sn 4586  df-pr 4588  df-op 4592  df-uni 4868  df-iun 4953  df-br 5105  df-opab 5167  df-mpt 5186  df-id 5546  df-xp 5657  df-rel 5658  df-cnv 5659  df-co 5660  df-dm 5661  df-rn 5662  df-res 5663  df-ima 5664  df-iota 6481  df-fun 6527  df-fn 6528  df-f 6529  df-fv 6533  df-ov 7403  df-oprab 7404  df-mpo 7405  df-1st 7974  df-2nd 7975  df-map 8814  df-topgen 17484  df-scaf 20950  df-top 23008  df-topon 23025  df-topsp 23047  df-bases 23060  df-cn 23341  df-tx 23676  df-tmd 24186  df-tgp 24187  df-trg 24274  df-tlm 24276
This theorem is referenced by:  tlmtgp  24310
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