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Theorem onfrALTlem4VD 38144
Description: Virtual deduction proof of onfrALTlem4 37779. The following User's Proof is a Virtual Deduction proof completed automatically by the tools program completeusersproof.cmd, which invokes Mel L. O'Cat's mmj2 and Norm Megill's Metamath Proof Assistant. onfrALTlem4 37779 is onfrALTlem4VD 38144 without virtual deductions and was automatically derived from onfrALTlem4VD 38144.
1:: 𝑦 ∈ V
2:1: ([𝑦 / 𝑥](𝑎𝑥) = ∅ ↔ 𝑦 / 𝑥(𝑎𝑥) = 𝑦 / 𝑥∅)
3:1: 𝑦 / 𝑥(𝑎𝑥) = (𝑦 / 𝑥 𝑎𝑦 / 𝑥𝑥)
4:1: 𝑦 / 𝑥𝑎 = 𝑎
5:1: 𝑦 / 𝑥𝑥 = 𝑦
6:4,5: (𝑦 / 𝑥𝑎𝑦 / 𝑥𝑥) = ( 𝑎𝑦)
7:3,6: 𝑦 / 𝑥(𝑎𝑥) = (𝑎𝑦)
8:1: 𝑦 / 𝑥∅ = ∅
9:7,8: (𝑦 / 𝑥(𝑎𝑥) = 𝑦 / 𝑥 ∅ ↔ (𝑎𝑦) = ∅)
10:2,9: ([𝑦 / 𝑥](𝑎𝑥) = ∅ ↔ (𝑎 𝑦) = ∅)
11:1: ([𝑦 / 𝑥]𝑥𝑎𝑦𝑎)
12:11,10: (([𝑦 / 𝑥]𝑥𝑎[𝑦 / 𝑥]( 𝑎𝑥) = ∅) ↔ (𝑦𝑎 ∧ (𝑎𝑦) = ∅))
13:1: ([𝑦 / 𝑥](𝑥𝑎 ∧ (𝑎𝑥) = ∅) ↔ ([𝑦 / 𝑥]𝑥𝑎[𝑦 / 𝑥](𝑎𝑥) = ∅))
qed:13,12: ([𝑦 / 𝑥](𝑥𝑎 ∧ (𝑎𝑥) = ∅) ↔ (𝑦𝑎 ∧ (𝑎𝑦) = ∅))
(Contributed by Alan Sare, 22-Jul-2012.) (Proof modification is discouraged.) (New usage is discouraged.)
Assertion
Ref Expression
onfrALTlem4VD ([𝑦 / 𝑥](𝑥𝑎 ∧ (𝑎𝑥) = ∅) ↔ (𝑦𝑎 ∧ (𝑎𝑦) = ∅))
Distinct variable group:   𝑥,𝑎

Proof of Theorem onfrALTlem4VD
StepHypRef Expression
1 vex 3176 . . 3 𝑦 ∈ V
2 sbcangOLD 37760 . . 3 (𝑦 ∈ V → ([𝑦 / 𝑥](𝑥𝑎 ∧ (𝑎𝑥) = ∅) ↔ ([𝑦 / 𝑥]𝑥𝑎[𝑦 / 𝑥](𝑎𝑥) = ∅)))
31, 2e0a 38020 . 2 ([𝑦 / 𝑥](𝑥𝑎 ∧ (𝑎𝑥) = ∅) ↔ ([𝑦 / 𝑥]𝑥𝑎[𝑦 / 𝑥](𝑎𝑥) = ∅))
4 sbcel1gvOLD 38116 . . . 4 (𝑦 ∈ V → ([𝑦 / 𝑥]𝑥𝑎𝑦𝑎))
51, 4e0a 38020 . . 3 ([𝑦 / 𝑥]𝑥𝑎𝑦𝑎)
6 sbceqg 3936 . . . . 5 (𝑦 ∈ V → ([𝑦 / 𝑥](𝑎𝑥) = ∅ ↔ 𝑦 / 𝑥(𝑎𝑥) = 𝑦 / 𝑥∅))
71, 6e0a 38020 . . . 4 ([𝑦 / 𝑥](𝑎𝑥) = ∅ ↔ 𝑦 / 𝑥(𝑎𝑥) = 𝑦 / 𝑥∅)
8 csbingOLD 38076 . . . . . . 7 (𝑦 ∈ V → 𝑦 / 𝑥(𝑎𝑥) = (𝑦 / 𝑥𝑎𝑦 / 𝑥𝑥))
91, 8e0a 38020 . . . . . 6 𝑦 / 𝑥(𝑎𝑥) = (𝑦 / 𝑥𝑎𝑦 / 𝑥𝑥)
10 csbconstg 3512 . . . . . . . 8 (𝑦 ∈ V → 𝑦 / 𝑥𝑎 = 𝑎)
111, 10e0a 38020 . . . . . . 7 𝑦 / 𝑥𝑎 = 𝑎
12 csbvarg 3955 . . . . . . . 8 (𝑦 ∈ V → 𝑦 / 𝑥𝑥 = 𝑦)
131, 12e0a 38020 . . . . . . 7 𝑦 / 𝑥𝑥 = 𝑦
1411, 13ineq12i 3774 . . . . . 6 (𝑦 / 𝑥𝑎𝑦 / 𝑥𝑥) = (𝑎𝑦)
159, 14eqtri 2632 . . . . 5 𝑦 / 𝑥(𝑎𝑥) = (𝑎𝑦)
16 csbconstg 3512 . . . . . 6 (𝑦 ∈ V → 𝑦 / 𝑥∅ = ∅)
171, 16e0a 38020 . . . . 5 𝑦 / 𝑥∅ = ∅
1815, 17eqeq12i 2624 . . . 4 (𝑦 / 𝑥(𝑎𝑥) = 𝑦 / 𝑥∅ ↔ (𝑎𝑦) = ∅)
197, 18bitri 263 . . 3 ([𝑦 / 𝑥](𝑎𝑥) = ∅ ↔ (𝑎𝑦) = ∅)
205, 19anbi12i 729 . 2 (([𝑦 / 𝑥]𝑥𝑎[𝑦 / 𝑥](𝑎𝑥) = ∅) ↔ (𝑦𝑎 ∧ (𝑎𝑦) = ∅))
213, 20bitri 263 1 ([𝑦 / 𝑥](𝑥𝑎 ∧ (𝑎𝑥) = ∅) ↔ (𝑦𝑎 ∧ (𝑎𝑦) = ∅))
Colors of variables: wff setvar class
Syntax hints:  wb 195  wa 383   = wceq 1475  wcel 1977  Vcvv 3173  [wsbc 3402  csb 3499  cin 3539  c0 3874
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1713  ax-4 1728  ax-5 1827  ax-6 1875  ax-7 1922  ax-10 2006  ax-11 2021  ax-12 2034  ax-13 2234  ax-ext 2590
This theorem depends on definitions:  df-bi 196  df-or 384  df-an 385  df-3an 1033  df-tru 1478  df-ex 1696  df-nf 1701  df-sb 1868  df-clab 2597  df-cleq 2603  df-clel 2606  df-nfc 2740  df-rab 2905  df-v 3175  df-sbc 3403  df-csb 3500  df-in 3547
This theorem is referenced by: (None)
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