| Step |
Hyp |
Ref |
Expression |
| 1 |
|
fthres2b.a |
|- A = ( Base ` C ) |
| 2 |
|
fthres2b.h |
|- H = ( Hom ` C ) |
| 3 |
|
fthres2b.r |
|- ( ph -> R e. ( Subcat ` D ) ) |
| 4 |
|
fthres2b.s |
|- ( ph -> R Fn ( S X. S ) ) |
| 5 |
|
fthres2b.1 |
|- ( ph -> F : A --> S ) |
| 6 |
|
fthres2b.2 |
|- ( ( ph /\ ( x e. A /\ y e. A ) ) -> ( x G y ) : Y --> ( ( F ` x ) R ( F ` y ) ) ) |
| 7 |
1 2 3 4 5 6
|
funcres2b |
|- ( ph -> ( F ( C Func D ) G <-> F ( C Func ( D |`cat R ) ) G ) ) |
| 8 |
7
|
anbi1d |
|- ( ph -> ( ( F ( C Func D ) G /\ A. x e. A A. y e. A Fun `' ( x G y ) ) <-> ( F ( C Func ( D |`cat R ) ) G /\ A. x e. A A. y e. A Fun `' ( x G y ) ) ) ) |
| 9 |
1
|
isfth |
|- ( F ( C Faith D ) G <-> ( F ( C Func D ) G /\ A. x e. A A. y e. A Fun `' ( x G y ) ) ) |
| 10 |
1
|
isfth |
|- ( F ( C Faith ( D |`cat R ) ) G <-> ( F ( C Func ( D |`cat R ) ) G /\ A. x e. A A. y e. A Fun `' ( x G y ) ) ) |
| 11 |
8 9 10
|
3bitr4g |
|- ( ph -> ( F ( C Faith D ) G <-> F ( C Faith ( D |`cat R ) ) G ) ) |