Metamath Proof Explorer

Theorem adjadj

Description: Double adjoint. Theorem 3.11(iv) of Beran p. 106. (Contributed by NM, 15-Feb-2006) (New usage is discouraged.)

		Ref	Expression
	Assertion	adjadj	\|- ( T e. dom adjh -> ( adjh ` ( adjh ` T ) ) = T )

Proof

Step	Hyp	Ref	Expression
1		adj2	\|- ( ( T e. dom adjh /\ x e. ~H /\ y e. ~H ) -> ( ( T ` x ) .ih y ) = ( x .ih ( ( adjh ` T ) ` y ) ) )
2		dmadjrn	\|- ( T e. dom adjh -> ( adjh ` T ) e. dom adjh )
3		adj1	\|- ( ( ( adjh ` T ) e. dom adjh /\ x e. ~H /\ y e. ~H ) -> ( x .ih ( ( adjh ` T ) ` y ) ) = ( ( ( adjh ` ( adjh ` T ) ) ` x ) .ih y ) )
4	2 3	syl3an1	\|- ( ( T e. dom adjh /\ x e. ~H /\ y e. ~H ) -> ( x .ih ( ( adjh ` T ) ` y ) ) = ( ( ( adjh ` ( adjh ` T ) ) ` x ) .ih y ) )
5	1 4	eqtr2d	\|- ( ( T e. dom adjh /\ x e. ~H /\ y e. ~H ) -> ( ( ( adjh ` ( adjh ` T ) ) ` x ) .ih y ) = ( ( T ` x ) .ih y ) )
6	5	3expib	\|- ( T e. dom adjh -> ( ( x e. ~H /\ y e. ~H ) -> ( ( ( adjh ` ( adjh ` T ) ) ` x ) .ih y ) = ( ( T ` x ) .ih y ) ) )
7	6	ralrimivv	\|- ( T e. dom adjh -> A. x e. ~H A. y e. ~H ( ( ( adjh ` ( adjh ` T ) ) ` x ) .ih y ) = ( ( T ` x ) .ih y ) )
8		dmadjrn	\|- ( ( adjh ` T ) e. dom adjh -> ( adjh ` ( adjh ` T ) ) e. dom adjh )
9		dmadjop	\|- ( ( adjh ` ( adjh ` T ) ) e. dom adjh -> ( adjh ` ( adjh ` T ) ) : ~H --> ~H )
10	2 8 9	3syl	\|- ( T e. dom adjh -> ( adjh ` ( adjh ` T ) ) : ~H --> ~H )
11		dmadjop	\|- ( T e. dom adjh -> T : ~H --> ~H )
12		hoeq1	\|- ( ( ( adjh ` ( adjh ` T ) ) : ~H --> ~H /\ T : ~H --> ~H ) -> ( A. x e. ~H A. y e. ~H ( ( ( adjh ` ( adjh ` T ) ) ` x ) .ih y ) = ( ( T ` x ) .ih y ) <-> ( adjh ` ( adjh ` T ) ) = T ) )
13	10 11 12	syl2anc	\|- ( T e. dom adjh -> ( A. x e. ~H A. y e. ~H ( ( ( adjh ` ( adjh ` T ) ) ` x ) .ih y ) = ( ( T ` x ) .ih y ) <-> ( adjh ` ( adjh ` T ) ) = T ) )
14	7 13	mpbid	\|- ( T e. dom adjh -> ( adjh ` ( adjh ` T ) ) = T )