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Theorem nfoi 8586
Description: Hypothesis builder for ordinal isomorphism. (Contributed by Mario Carneiro, 23-May-2015.) (Revised by Mario Carneiro, 15-Oct-2016.)
Hypotheses
Ref Expression
nfoi.1 𝑥𝑅
nfoi.2 𝑥𝐴
Assertion
Ref Expression
nfoi 𝑥OrdIso(𝑅, 𝐴)

Proof of Theorem nfoi
Dummy variables 𝑎 𝑗 𝑡 𝑢 𝑣 𝑤 𝑧 are mutually distinct and distinct from all other variables.
StepHypRef Expression
1 df-oi 8582 . 2 OrdIso(𝑅, 𝐴) = if((𝑅 We 𝐴𝑅 Se 𝐴), (recs(( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣))) ↾ {𝑎 ∈ On ∣ ∃𝑡𝐴𝑧 ∈ (recs(( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣))) “ 𝑎)𝑧𝑅𝑡}), ∅)
2 nfoi.1 . . . . 5 𝑥𝑅
3 nfoi.2 . . . . 5 𝑥𝐴
42, 3nfwe 5242 . . . 4 𝑥 𝑅 We 𝐴
52, 3nfse 5241 . . . 4 𝑥 𝑅 Se 𝐴
64, 5nfan 1977 . . 3 𝑥(𝑅 We 𝐴𝑅 Se 𝐴)
7 nfcv 2902 . . . . . 6 𝑥V
8 nfcv 2902 . . . . . . . . . 10 𝑥ran
9 nfcv 2902 . . . . . . . . . . 11 𝑥𝑗
10 nfcv 2902 . . . . . . . . . . 11 𝑥𝑤
119, 2, 10nfbr 4851 . . . . . . . . . 10 𝑥 𝑗𝑅𝑤
128, 11nfral 3083 . . . . . . . . 9 𝑥𝑗 ∈ ran 𝑗𝑅𝑤
1312, 3nfrab 3262 . . . . . . . 8 𝑥{𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}
14 nfcv 2902 . . . . . . . . . 10 𝑥𝑢
15 nfcv 2902 . . . . . . . . . 10 𝑥𝑣
1614, 2, 15nfbr 4851 . . . . . . . . 9 𝑥 𝑢𝑅𝑣
1716nfn 1933 . . . . . . . 8 𝑥 ¬ 𝑢𝑅𝑣
1813, 17nfral 3083 . . . . . . 7 𝑥𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣
1918, 13nfriota 6784 . . . . . 6 𝑥(𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣)
207, 19nfmpt 4898 . . . . 5 𝑥( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣))
2120nfrecs 7641 . . . 4 𝑥recs(( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣)))
22 nfcv 2902 . . . . . . . 8 𝑥𝑎
2321, 22nfima 5632 . . . . . . 7 𝑥(recs(( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣))) “ 𝑎)
24 nfcv 2902 . . . . . . . 8 𝑥𝑧
25 nfcv 2902 . . . . . . . 8 𝑥𝑡
2624, 2, 25nfbr 4851 . . . . . . 7 𝑥 𝑧𝑅𝑡
2723, 26nfral 3083 . . . . . 6 𝑥𝑧 ∈ (recs(( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣))) “ 𝑎)𝑧𝑅𝑡
283, 27nfrex 3145 . . . . 5 𝑥𝑡𝐴𝑧 ∈ (recs(( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣))) “ 𝑎)𝑧𝑅𝑡
29 nfcv 2902 . . . . 5 𝑥On
3028, 29nfrab 3262 . . . 4 𝑥{𝑎 ∈ On ∣ ∃𝑡𝐴𝑧 ∈ (recs(( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣))) “ 𝑎)𝑧𝑅𝑡}
3121, 30nfres 5553 . . 3 𝑥(recs(( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣))) ↾ {𝑎 ∈ On ∣ ∃𝑡𝐴𝑧 ∈ (recs(( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣))) “ 𝑎)𝑧𝑅𝑡})
32 nfcv 2902 . . 3 𝑥
336, 31, 32nfif 4259 . 2 𝑥if((𝑅 We 𝐴𝑅 Se 𝐴), (recs(( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣))) ↾ {𝑎 ∈ On ∣ ∃𝑡𝐴𝑧 ∈ (recs(( ∈ V ↦ (𝑣 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤}∀𝑢 ∈ {𝑤𝐴 ∣ ∀𝑗 ∈ ran 𝑗𝑅𝑤} ¬ 𝑢𝑅𝑣))) “ 𝑎)𝑧𝑅𝑡}), ∅)
341, 33nfcxfr 2900 1 𝑥OrdIso(𝑅, 𝐴)
Colors of variables: wff setvar class
Syntax hints:  ¬ wn 3  wa 383  wnfc 2889  wral 3050  wrex 3051  {crab 3054  Vcvv 3340  c0 4058  ifcif 4230   class class class wbr 4804  cmpt 4881   Se wse 5223   We wwe 5224  ran crn 5267  cres 5268  cima 5269  Oncon0 5884  crio 6774  recscrecs 7637  OrdIsocoi 8581
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1871  ax-4 1886  ax-5 1988  ax-6 2054  ax-7 2090  ax-9 2148  ax-10 2168  ax-11 2183  ax-12 2196  ax-13 2391  ax-ext 2740
This theorem depends on definitions:  df-bi 197  df-or 384  df-an 385  df-3or 1073  df-3an 1074  df-tru 1635  df-ex 1854  df-nf 1859  df-sb 2047  df-clab 2747  df-cleq 2753  df-clel 2756  df-nfc 2891  df-ral 3055  df-rex 3056  df-rab 3059  df-v 3342  df-dif 3718  df-un 3720  df-in 3722  df-ss 3729  df-nul 4059  df-if 4231  df-sn 4322  df-pr 4324  df-op 4328  df-uni 4589  df-br 4805  df-opab 4865  df-mpt 4882  df-po 5187  df-so 5188  df-fr 5225  df-se 5226  df-we 5227  df-xp 5272  df-cnv 5274  df-dm 5276  df-rn 5277  df-res 5278  df-ima 5279  df-pred 5841  df-iota 6012  df-fv 6057  df-riota 6775  df-wrecs 7577  df-recs 7638  df-oi 8582
This theorem is referenced by:  hsmexlem2  9461
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