Metamath Proof Explorer

Theorem nmopsetretALT

Description: The set in the supremum of the operator norm definition df-nmop is a set of reals. (Contributed by NM, 2-Feb-2006) (New usage is discouraged.) (Proof modification is discouraged.)

		Ref	Expression
	Assertion	nmopsetretALT	\|- ( T : ~H --> ~H -> { x \| E. y e. ~H ( ( normh ` y ) <_ 1 /\ x = ( normh ` ( T ` y ) ) ) } C_ RR )

Proof

Step	Hyp	Ref	Expression
1		ffvelcdm	\|- ( ( T : ~H --> ~H /\ y e. ~H ) -> ( T ` y ) e. ~H )
2		normcl	\|- ( ( T ` y ) e. ~H -> ( normh ` ( T ` y ) ) e. RR )
3	1 2	syl	\|- ( ( T : ~H --> ~H /\ y e. ~H ) -> ( normh ` ( T ` y ) ) e. RR )
4		eleq1	\|- ( x = ( normh ` ( T ` y ) ) -> ( x e. RR <-> ( normh ` ( T ` y ) ) e. RR ) )
5	3 4	imbitrrid	\|- ( x = ( normh ` ( T ` y ) ) -> ( ( T : ~H --> ~H /\ y e. ~H ) -> x e. RR ) )
6	5	impcom	\|- ( ( ( T : ~H --> ~H /\ y e. ~H ) /\ x = ( normh ` ( T ` y ) ) ) -> x e. RR )
7	6	adantrl	\|- ( ( ( T : ~H --> ~H /\ y e. ~H ) /\ ( ( normh ` y ) <_ 1 /\ x = ( normh ` ( T ` y ) ) ) ) -> x e. RR )
8	7	exp31	\|- ( T : ~H --> ~H -> ( y e. ~H -> ( ( ( normh ` y ) <_ 1 /\ x = ( normh ` ( T ` y ) ) ) -> x e. RR ) ) )
9	8	rexlimdv	\|- ( T : ~H --> ~H -> ( E. y e. ~H ( ( normh ` y ) <_ 1 /\ x = ( normh ` ( T ` y ) ) ) -> x e. RR ) )
10	9	abssdv	\|- ( T : ~H --> ~H -> { x \| E. y e. ~H ( ( normh ` y ) <_ 1 /\ x = ( normh ` ( T ` y ) ) ) } C_ RR )