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Theorem mnringnmulrd 44795
Description: Components of a monoid ring other than its ring product match its underlying free module. (Contributed by Rohan Ridenour, 14-May-2024.) (Revised by AV, 1-Nov-2024.)
Hypotheses
Ref Expression
mnringnmulrd.1 𝐹 = (𝑅 MndRing 𝑀)
mnringnmulrd.2 𝐸 = Slot (𝐸‘ndx)
mnringnmulrd.4 (𝐸‘ndx) ≠ (.r‘ndx)
mnringnmulrd.5 𝐴 = (Base‘𝑀)
mnringnmulrd.6 𝑉 = (𝑅 freeLMod 𝐴)
mnringnmulrd.7 (𝜑𝑅𝑈)
mnringnmulrd.8 (𝜑𝑀𝑊)
Assertion
Ref Expression
mnringnmulrd (𝜑 → (𝐸𝑉) = (𝐸𝐹))

Proof of Theorem mnringnmulrd
Dummy variables 𝑎 𝑏 𝑖 𝑥 𝑦 are mutually distinct and distinct from all other variables.
StepHypRef Expression
1 mnringnmulrd.2 . . 3 𝐸 = Slot (𝐸‘ndx)
2 mnringnmulrd.4 . . 3 (𝐸‘ndx) ≠ (.r‘ndx)
31, 2setsnid 17246 . 2 (𝐸𝑉) = (𝐸‘(𝑉 sSet ⟨(.r‘ndx), (𝑥 ∈ (Base‘𝑉), 𝑦 ∈ (Base‘𝑉) ↦ (𝑉 Σg (𝑎𝐴, 𝑏𝐴 ↦ (𝑖𝐴 ↦ if(𝑖 = (𝑎(+g𝑀)𝑏), ((𝑥𝑎)(.r𝑅)(𝑦𝑏)), (0g𝑅))))))⟩))
4 mnringnmulrd.1 . . . 4 𝐹 = (𝑅 MndRing 𝑀)
5 eqid 2764 . . . 4 (.r𝑅) = (.r𝑅)
6 eqid 2764 . . . 4 (0g𝑅) = (0g𝑅)
7 mnringnmulrd.5 . . . 4 𝐴 = (Base‘𝑀)
8 eqid 2764 . . . 4 (+g𝑀) = (+g𝑀)
9 mnringnmulrd.6 . . . 4 𝑉 = (𝑅 freeLMod 𝐴)
10 eqid 2764 . . . 4 (Base‘𝑉) = (Base‘𝑉)
11 mnringnmulrd.7 . . . 4 (𝜑𝑅𝑈)
12 mnringnmulrd.8 . . . 4 (𝜑𝑀𝑊)
134, 5, 6, 7, 8, 9, 10, 11, 12mnringvald 44794 . . 3 (𝜑𝐹 = (𝑉 sSet ⟨(.r‘ndx), (𝑥 ∈ (Base‘𝑉), 𝑦 ∈ (Base‘𝑉) ↦ (𝑉 Σg (𝑎𝐴, 𝑏𝐴 ↦ (𝑖𝐴 ↦ if(𝑖 = (𝑎(+g𝑀)𝑏), ((𝑥𝑎)(.r𝑅)(𝑦𝑏)), (0g𝑅))))))⟩))
1413fveq2d 6873 . 2 (𝜑 → (𝐸𝐹) = (𝐸‘(𝑉 sSet ⟨(.r‘ndx), (𝑥 ∈ (Base‘𝑉), 𝑦 ∈ (Base‘𝑉) ↦ (𝑉 Σg (𝑎𝐴, 𝑏𝐴 ↦ (𝑖𝐴 ↦ if(𝑖 = (𝑎(+g𝑀)𝑏), ((𝑥𝑎)(.r𝑅)(𝑦𝑏)), (0g𝑅))))))⟩)))
153, 14eqtr4id 2818 1 (𝜑 → (𝐸𝑉) = (𝐸𝐹))
Colors of variables: wff setvar class
Syntax hints:  wi 4   = wceq 1562  wcel 2144  wne 2959  ifcif 4482  cop 4590  cmpt 5183  cfv 6523  (class class class)co 7398  cmpo 7400   sSet csts 17201  Slot cslot 17219  ndxcnx 17231  Basecbs 17247  +gcplusg 17288  .rcmulr 17289  0gc0g 17470   Σg cgsu 17471   freeLMod cfrlm 21800   MndRing cmnring 44792
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1817  ax-4 1831  ax-5 1932  ax-6 1989  ax-7 2030  ax-8 2146  ax-9 2154  ax-10 2177  ax-11 2193  ax-12 2214  ax-ext 2736  ax-sep 5248  ax-nul 5258  ax-pr 5392  ax-un 7720
This theorem depends on definitions:  df-bi 209  df-an 400  df-or 859  df-3an 1101  df-tru 1565  df-fal 1575  df-ex 1802  df-nf 1806  df-sb 2093  df-mo 2568  df-eu 2598  df-clab 2743  df-cleq 2756  df-clel 2839  df-nfc 2913  df-ne 2960  df-ral 3079  df-rex 3089  df-rab 3417  df-v 3458  df-sbc 3747  df-csb 3855  df-dif 3909  df-un 3911  df-in 3913  df-ss 3923  df-nul 4288  df-if 4483  df-sn 4585  df-pr 4587  df-op 4591  df-uni 4868  df-br 5103  df-opab 5165  df-mpt 5184  df-id 5544  df-xp 5655  df-rel 5656  df-cnv 5657  df-co 5658  df-dm 5659  df-res 5661  df-iota 6479  df-fun 6525  df-fv 6531  df-ov 7401  df-oprab 7402  df-mpo 7403  df-sets 17202  df-slot 17220  df-mnring 44793
This theorem is referenced by:  mnringbased  44796  mnringaddgd  44801  mnringscad  44805  mnringvscad  44806
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