Description: Virtual deduction proof of onfrALTlem4 . 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 is onfrALTlem4VD without virtual deductions and was automatically derived from onfrALTlem4VD .
1:: | |- y e.V |
2:1: | |- ( [. y / x ]. ( a i^i x ) = (/) <-> [ y / x ]_ ( a i^i x ) = [_ y / x ]_ (/) ) |
3:1: | |- [_ y / x ]_ ( a i^i x ) = ( [_ y / x ]_ a i^i [_ y / x ]_ x ) |
4:1: | |- [_ y / x ]_ a = a |
5:1: | |- [_ y / x ]_ x = y |
6:4,5: | |- ( [_ y / x ]_ a i^i [_ y / x ]_ x ) = ( a i^i y ) |
7:3,6: | |- [_ y / x ]_ ( a i^i x ) = ( a i^i y ) |
8:1: | |- [_ y / x ]_ (/) = (/) |
9:7,8: | |- ( [_ y / x ]_ ( a i^i x ) = [_ y / x ]_ (/) <-> ( a i^i y ) = (/) ) |
10:2,9: | |- ( [. y / x ]. ( a i^i x ) = (/) <-> ( a i^i y ) = (/) ) |
11:1: | |- ( [. y / x ]. x e. a <-> y e. a ) |
12:11,10: | |- ( ( [. y / x ]. x e. a /\ [. y / x ]. ( a i^i x ) = (/) ) <-> ( y e. a /\ ( a i^i y ) = (/) ) ) |
13:1: | |- ( [. y / x ]. ( x e. a /\ ( a i^i x ) = (/) ) <-> ( [. y / x ]. x e. a /\ [. y / x ]. ( a i^i x ) = (/) ) ) |
qed:13,12: | |- ( [. y / x ]. ( x e. a /\ ( a i^i x ) = (/) ) <-> ( y e. a /\ ( a i^i y ) = (/) ) ) |
Ref | Expression | ||
---|---|---|---|
Assertion | onfrALTlem4VD | |- ( [. y / x ]. ( x e. a /\ ( a i^i x ) = (/) ) <-> ( y e. a /\ ( a i^i y ) = (/) ) ) |
Step | Hyp | Ref | Expression |
---|---|---|---|
1 | sbcan | |- ( [. y / x ]. ( x e. a /\ ( a i^i x ) = (/) ) <-> ( [. y / x ]. x e. a /\ [. y / x ]. ( a i^i x ) = (/) ) ) |
|
2 | sbcel1v | |- ( [. y / x ]. x e. a <-> y e. a ) |
|
3 | sbceqg | |- ( y e. _V -> ( [. y / x ]. ( a i^i x ) = (/) <-> [_ y / x ]_ ( a i^i x ) = [_ y / x ]_ (/) ) ) |
|
4 | 3 | elv | |- ( [. y / x ]. ( a i^i x ) = (/) <-> [_ y / x ]_ ( a i^i x ) = [_ y / x ]_ (/) ) |
5 | csbin | |- [_ y / x ]_ ( a i^i x ) = ( [_ y / x ]_ a i^i [_ y / x ]_ x ) |
|
6 | csbconstg | |- ( y e. _V -> [_ y / x ]_ a = a ) |
|
7 | 6 | elv | |- [_ y / x ]_ a = a |
8 | vex | |- y e. _V |
|
9 | 8 | csbvargi | |- [_ y / x ]_ x = y |
10 | 7 9 | ineq12i | |- ( [_ y / x ]_ a i^i [_ y / x ]_ x ) = ( a i^i y ) |
11 | 5 10 | eqtri | |- [_ y / x ]_ ( a i^i x ) = ( a i^i y ) |
12 | csb0 | |- [_ y / x ]_ (/) = (/) |
|
13 | 11 12 | eqeq12i | |- ( [_ y / x ]_ ( a i^i x ) = [_ y / x ]_ (/) <-> ( a i^i y ) = (/) ) |
14 | 4 13 | bitri | |- ( [. y / x ]. ( a i^i x ) = (/) <-> ( a i^i y ) = (/) ) |
15 | 2 14 | anbi12i | |- ( ( [. y / x ]. x e. a /\ [. y / x ]. ( a i^i x ) = (/) ) <-> ( y e. a /\ ( a i^i y ) = (/) ) ) |
16 | 1 15 | bitri | |- ( [. y / x ]. ( x e. a /\ ( a i^i x ) = (/) ) <-> ( y e. a /\ ( a i^i y ) = (/) ) ) |