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Theorem maducoeval 22561
Description: An entry of the adjunct (cofactor) matrix. (Contributed by SO, 11-Jul-2018.)
Hypotheses
Ref Expression
madufval.a 𝐴 = (𝑁 Mat 𝑅)
madufval.d 𝐷 = (𝑁 maDet 𝑅)
madufval.j 𝐽 = (𝑁 maAdju 𝑅)
madufval.b 𝐵 = (Base‘𝐴)
madufval.o 1 = (1r𝑅)
madufval.z 0 = (0g𝑅)
Assertion
Ref Expression
maducoeval ((𝑀𝐵𝐼𝑁𝐻𝑁) → (𝐼(𝐽𝑀)𝐻) = (𝐷‘(𝑘𝑁, 𝑙𝑁 ↦ if(𝑘 = 𝐻, if(𝑙 = 𝐼, 1 , 0 ), (𝑘𝑀𝑙)))))
Distinct variable groups:   𝑘,𝑁,𝑙   𝑅,𝑘,𝑙   𝑘,𝑀,𝑙   𝑘,𝐼,𝑙   𝑘,𝐻,𝑙
Allowed substitution hints:   𝐴(𝑘,𝑙)   𝐵(𝑘,𝑙)   𝐷(𝑘,𝑙)   1 (𝑘,𝑙)   𝐽(𝑘,𝑙)   0 (𝑘,𝑙)
Proof of Theorem maducoeval
Dummy variables 𝑖 𝑗 are mutually distinct and distinct from all other variables.
StepHypRef Expression
1 madufval.a . . . 4 𝐴 = (𝑁 Mat 𝑅)
2 madufval.d . . . 4 𝐷 = (𝑁 maDet 𝑅)
3 madufval.j . . . 4 𝐽 = (𝑁 maAdju 𝑅)
4 madufval.b . . . 4 𝐵 = (Base‘𝐴)
5 madufval.o . . . 4 1 = (1r𝑅)
6 madufval.z . . . 4 0 = (0g𝑅)
71, 2, 3, 4, 5, 6maduval 22560 . . 3 (𝑀𝐵 → (𝐽𝑀) = (𝑖𝑁, 𝑗𝑁 ↦ (𝐷‘(𝑘𝑁, 𝑙𝑁 ↦ if(𝑘 = 𝑗, if(𝑙 = 𝑖, 1 , 0 ), (𝑘𝑀𝑙))))))
873ad2ant1 1130 . 2 ((𝑀𝐵𝐼𝑁𝐻𝑁) → (𝐽𝑀) = (𝑖𝑁, 𝑗𝑁 ↦ (𝐷‘(𝑘𝑁, 𝑙𝑁 ↦ if(𝑘 = 𝑗, if(𝑙 = 𝑖, 1 , 0 ), (𝑘𝑀𝑙))))))
9 simp1r 1195 . . . . . . 7 (((𝑖 = 𝐼𝑗 = 𝐻) ∧ 𝑘𝑁𝑙𝑁) → 𝑗 = 𝐻)
109eqeq2d 2739 . . . . . 6 (((𝑖 = 𝐼𝑗 = 𝐻) ∧ 𝑘𝑁𝑙𝑁) → (𝑘 = 𝑗𝑘 = 𝐻))
11 simp1l 1194 . . . . . . . 8 (((𝑖 = 𝐼𝑗 = 𝐻) ∧ 𝑘𝑁𝑙𝑁) → 𝑖 = 𝐼)
1211eqeq2d 2739 . . . . . . 7 (((𝑖 = 𝐼𝑗 = 𝐻) ∧ 𝑘𝑁𝑙𝑁) → (𝑙 = 𝑖𝑙 = 𝐼))
1312ifbid 4555 . . . . . 6 (((𝑖 = 𝐼𝑗 = 𝐻) ∧ 𝑘𝑁𝑙𝑁) → if(𝑙 = 𝑖, 1 , 0 ) = if(𝑙 = 𝐼, 1 , 0 ))
1410, 13ifbieq1d 4556 . . . . 5 (((𝑖 = 𝐼𝑗 = 𝐻) ∧ 𝑘𝑁𝑙𝑁) → if(𝑘 = 𝑗, if(𝑙 = 𝑖, 1 , 0 ), (𝑘𝑀𝑙)) = if(𝑘 = 𝐻, if(𝑙 = 𝐼, 1 , 0 ), (𝑘𝑀𝑙)))
1514mpoeq3dva 7503 . . . 4 ((𝑖 = 𝐼𝑗 = 𝐻) → (𝑘𝑁, 𝑙𝑁 ↦ if(𝑘 = 𝑗, if(𝑙 = 𝑖, 1 , 0 ), (𝑘𝑀𝑙))) = (𝑘𝑁, 𝑙𝑁 ↦ if(𝑘 = 𝐻, if(𝑙 = 𝐼, 1 , 0 ), (𝑘𝑀𝑙))))
1615fveq2d 6906 . . 3 ((𝑖 = 𝐼𝑗 = 𝐻) → (𝐷‘(𝑘𝑁, 𝑙𝑁 ↦ if(𝑘 = 𝑗, if(𝑙 = 𝑖, 1 , 0 ), (𝑘𝑀𝑙)))) = (𝐷‘(𝑘𝑁, 𝑙𝑁 ↦ if(𝑘 = 𝐻, if(𝑙 = 𝐼, 1 , 0 ), (𝑘𝑀𝑙)))))
1716adantl 480 . 2 (((𝑀𝐵𝐼𝑁𝐻𝑁) ∧ (𝑖 = 𝐼𝑗 = 𝐻)) → (𝐷‘(𝑘𝑁, 𝑙𝑁 ↦ if(𝑘 = 𝑗, if(𝑙 = 𝑖, 1 , 0 ), (𝑘𝑀𝑙)))) = (𝐷‘(𝑘𝑁, 𝑙𝑁 ↦ if(𝑘 = 𝐻, if(𝑙 = 𝐼, 1 , 0 ), (𝑘𝑀𝑙)))))
18 simp2 1134 . 2 ((𝑀𝐵𝐼𝑁𝐻𝑁) → 𝐼𝑁)
19 simp3 1135 . 2 ((𝑀𝐵𝐼𝑁𝐻𝑁) → 𝐻𝑁)
20 fvexd 6917 . 2 ((𝑀𝐵𝐼𝑁𝐻𝑁) → (𝐷‘(𝑘𝑁, 𝑙𝑁 ↦ if(𝑘 = 𝐻, if(𝑙 = 𝐼, 1 , 0 ), (𝑘𝑀𝑙)))) ∈ V)
218, 17, 18, 19, 20ovmpod 7579 1 ((𝑀𝐵𝐼𝑁𝐻𝑁) → (𝐼(𝐽𝑀)𝐻) = (𝐷‘(𝑘𝑁, 𝑙𝑁 ↦ if(𝑘 = 𝐻, if(𝑙 = 𝐼, 1 , 0 ), (𝑘𝑀𝑙)))))
Colors of variables: wff setvar class
Syntax hints:  wi 4  wa 394  w3a 1084   = wceq 1533  wcel 2098  Vcvv 3473  ifcif 4532  cfv 6553  (class class class)co 7426  cmpo 7428  Basecbs 17187  0gc0g 17428  1rcur 20128   Mat cmat 22327   maDet cmdat 22506   maAdju cmadu 22554
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1789  ax-4 1803  ax-5 1905  ax-6 1963  ax-7 2003  ax-8 2100  ax-9 2108  ax-10 2129  ax-11 2146  ax-12 2166  ax-ext 2699  ax-rep 5289  ax-sep 5303  ax-nul 5310  ax-pow 5369  ax-pr 5433  ax-un 7746  ax-cnex 11202  ax-1cn 11204  ax-addcl 11206
This theorem depends on definitions:  df-bi 206  df-an 395  df-or 846  df-3or 1085  df-3an 1086  df-tru 1536  df-fal 1546  df-ex 1774  df-nf 1778  df-sb 2060  df-mo 2529  df-eu 2558  df-clab 2706  df-cleq 2720  df-clel 2806  df-nfc 2881  df-ne 2938  df-ral 3059  df-rex 3068  df-reu 3375  df-rab 3431  df-v 3475  df-sbc 3779  df-csb 3895  df-dif 3952  df-un 3954  df-in 3956  df-ss 3966  df-pss 3968  df-nul 4327  df-if 4533  df-pw 4608  df-sn 4633  df-pr 4635  df-op 4639  df-uni 4913  df-iun 5002  df-br 5153  df-opab 5215  df-mpt 5236  df-tr 5270  df-id 5580  df-eprel 5586  df-po 5594  df-so 5595  df-fr 5637  df-we 5639  df-xp 5688  df-rel 5689  df-cnv 5690  df-co 5691  df-dm 5692  df-rn 5693  df-res 5694  df-ima 5695  df-pred 6310  df-ord 6377  df-on 6378  df-lim 6379  df-suc 6380  df-iota 6505  df-fun 6555  df-fn 6556  df-f 6557  df-f1 6558  df-fo 6559  df-f1o 6560  df-fv 6561  df-ov 7429  df-oprab 7430  df-mpo 7431  df-om 7877  df-1st 7999  df-2nd 8000  df-frecs 8293  df-wrecs 8324  df-recs 8398  df-rdg 8437  df-nn 12251  df-slot 17158  df-ndx 17170  df-base 17188  df-mat 22328  df-madu 22556
This theorem is referenced by:  maducoeval2  22562  madugsum  22565  maducoevalmin1  22574
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