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Theorem sralem 21266
Description: Lemma for srabase 21267 and similar theorems. (Contributed by Mario Carneiro, 4-Oct-2015.) (Revised by Thierry Arnoux, 16-Jun-2019.) (Revised by AV, 29-Oct-2024.)
Hypotheses
Ref Expression
srapart.a (𝜑𝐴 = ((subringAlg ‘𝑊)‘𝑆))
srapart.s (𝜑𝑆 ⊆ (Base‘𝑊))
sralem.1 𝐸 = Slot (𝐸‘ndx)
sralem.2 (Scalar‘ndx) ≠ (𝐸‘ndx)
sralem.3 ( ·𝑠 ‘ndx) ≠ (𝐸‘ndx)
sralem.4 (·𝑖‘ndx) ≠ (𝐸‘ndx)
Assertion
Ref Expression
sralem (𝜑 → (𝐸𝑊) = (𝐸𝐴))

Proof of Theorem sralem
StepHypRef Expression
1 sralem.1 . . . . 5 𝐸 = Slot (𝐸‘ndx)
2 sralem.2 . . . . . 6 (Scalar‘ndx) ≠ (𝐸‘ndx)
32necomi 3014 . . . . 5 (𝐸‘ndx) ≠ (Scalar‘ndx)
41, 3setsnid 17258 . . . 4 (𝐸𝑊) = (𝐸‘(𝑊 sSet ⟨(Scalar‘ndx), (𝑊s 𝑆)⟩))
5 sralem.3 . . . . . 6 ( ·𝑠 ‘ndx) ≠ (𝐸‘ndx)
65necomi 3014 . . . . 5 (𝐸‘ndx) ≠ ( ·𝑠 ‘ndx)
71, 6setsnid 17258 . . . 4 (𝐸‘(𝑊 sSet ⟨(Scalar‘ndx), (𝑊s 𝑆)⟩)) = (𝐸‘((𝑊 sSet ⟨(Scalar‘ndx), (𝑊s 𝑆)⟩) sSet ⟨( ·𝑠 ‘ndx), (.r𝑊)⟩))
8 sralem.4 . . . . . 6 (·𝑖‘ndx) ≠ (𝐸‘ndx)
98necomi 3014 . . . . 5 (𝐸‘ndx) ≠ (·𝑖‘ndx)
101, 9setsnid 17258 . . . 4 (𝐸‘((𝑊 sSet ⟨(Scalar‘ndx), (𝑊s 𝑆)⟩) sSet ⟨( ·𝑠 ‘ndx), (.r𝑊)⟩)) = (𝐸‘(((𝑊 sSet ⟨(Scalar‘ndx), (𝑊s 𝑆)⟩) sSet ⟨( ·𝑠 ‘ndx), (.r𝑊)⟩) sSet ⟨(·𝑖‘ndx), (.r𝑊)⟩))
114, 7, 103eqtri 2792 . . 3 (𝐸𝑊) = (𝐸‘(((𝑊 sSet ⟨(Scalar‘ndx), (𝑊s 𝑆)⟩) sSet ⟨( ·𝑠 ‘ndx), (.r𝑊)⟩) sSet ⟨(·𝑖‘ndx), (.r𝑊)⟩))
12 srapart.a . . . . . 6 (𝜑𝐴 = ((subringAlg ‘𝑊)‘𝑆))
1312adantl 486 . . . . 5 ((𝑊 ∈ V ∧ 𝜑) → 𝐴 = ((subringAlg ‘𝑊)‘𝑆))
14 srapart.s . . . . . 6 (𝜑𝑆 ⊆ (Base‘𝑊))
15 sraval 21265 . . . . . 6 ((𝑊 ∈ V ∧ 𝑆 ⊆ (Base‘𝑊)) → ((subringAlg ‘𝑊)‘𝑆) = (((𝑊 sSet ⟨(Scalar‘ndx), (𝑊s 𝑆)⟩) sSet ⟨( ·𝑠 ‘ndx), (.r𝑊)⟩) sSet ⟨(·𝑖‘ndx), (.r𝑊)⟩))
1614, 15sylan2 604 . . . . 5 ((𝑊 ∈ V ∧ 𝜑) → ((subringAlg ‘𝑊)‘𝑆) = (((𝑊 sSet ⟨(Scalar‘ndx), (𝑊s 𝑆)⟩) sSet ⟨( ·𝑠 ‘ndx), (.r𝑊)⟩) sSet ⟨(·𝑖‘ndx), (.r𝑊)⟩))
1713, 16eqtrd 2800 . . . 4 ((𝑊 ∈ V ∧ 𝜑) → 𝐴 = (((𝑊 sSet ⟨(Scalar‘ndx), (𝑊s 𝑆)⟩) sSet ⟨( ·𝑠 ‘ndx), (.r𝑊)⟩) sSet ⟨(·𝑖‘ndx), (.r𝑊)⟩))
1817fveq2d 6875 . . 3 ((𝑊 ∈ V ∧ 𝜑) → (𝐸𝐴) = (𝐸‘(((𝑊 sSet ⟨(Scalar‘ndx), (𝑊s 𝑆)⟩) sSet ⟨( ·𝑠 ‘ndx), (.r𝑊)⟩) sSet ⟨(·𝑖‘ndx), (.r𝑊)⟩)))
1911, 18eqtr4id 2819 . 2 ((𝑊 ∈ V ∧ 𝜑) → (𝐸𝑊) = (𝐸𝐴))
201str0 17239 . . 3 ∅ = (𝐸‘∅)
21 fvprc 6863 . . . 4 𝑊 ∈ V → (𝐸𝑊) = ∅)
2221adantr 485 . . 3 ((¬ 𝑊 ∈ V ∧ 𝜑) → (𝐸𝑊) = ∅)
23 fv2prc 6913 . . . . 5 𝑊 ∈ V → ((subringAlg ‘𝑊)‘𝑆) = ∅)
2412, 23sylan9eqr 2822 . . . 4 ((¬ 𝑊 ∈ V ∧ 𝜑) → 𝐴 = ∅)
2524fveq2d 6875 . . 3 ((¬ 𝑊 ∈ V ∧ 𝜑) → (𝐸𝐴) = (𝐸‘∅))
2620, 22, 253eqtr4a 2826 . 2 ((¬ 𝑊 ∈ V ∧ 𝜑) → (𝐸𝑊) = (𝐸𝐴))
2719, 26pm2.61ian 823 1 (𝜑 → (𝐸𝑊) = (𝐸𝐴))
Colors of variables: wff setvar class
Syntax hints:  ¬ wn 3  wi 4  wa 400   = wceq 1563  wcel 2145  wne 2960  Vcvv 3457  wss 3907  c0 4288  cop 4591  cfv 6525  (class class class)co 7400   sSet csts 17213  Slot cslot 17231  ndxcnx 17243  Basecbs 17259  s cress 17280  .rcmulr 17301  Scalarcsca 17303   ·𝑠 cvsca 17304  ·𝑖cip 17305  subringAlg csra 21261
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-rep 5232  ax-sep 5251  ax-nul 5261  ax-pow 5327  ax-pr 5395  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-reu 3371  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 4869  df-iun 4954  df-br 5106  df-opab 5168  df-mpt 5187  df-id 5547  df-xp 5658  df-rel 5659  df-cnv 5660  df-co 5661  df-dm 5662  df-rn 5663  df-res 5664  df-ima 5665  df-iota 6481  df-fun 6527  df-fn 6528  df-f 6529  df-f1 6530  df-fo 6531  df-f1o 6532  df-fv 6533  df-ov 7403  df-oprab 7404  df-mpo 7405  df-sets 17214  df-slot 17232  df-sra 21263
This theorem is referenced by:  srabase  21267  sraaddg  21268  sramulr  21269  sratset  21273  srads  21275  cchhllem  29145
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