Metamath Proof Explorer

 |-  ( ph -> F = ( Scalar ` W ) )

 |-  ( ph -> B = ( Base ` F ) )

 |-  ( ph -> V = ( Base ` W ) )

 |-  ( ph -> .+ = ( +g ` W ) )

 |-  ( ph -> .x. = ( .s ` W ) )

 |-  ( ph -> S = ( LSubSp ` W ) )

 |-  ( ph -> U C_ V )

 |-  ( ph -> U =/= (/) )

 |-  ( ( ph /\ ( x e. B /\ a e. U /\ b e. U ) ) -> ( ( x .x. a ) .+ b ) e. U )

 |-  ( ph -> U C_ ( Base ` W ) )

 |-  ( ph -> ( x e. B -> ( a e. U -> ( b e. U -> ( ( x .x. a ) .+ b ) e. U ) ) ) )

 |-  ( ( ( ph /\ x e. B ) /\ ( a e. U /\ b e. U ) ) -> ( ( x .x. a ) .+ b ) e. U )

 |-  ( ( ph /\ x e. B ) -> A. a e. U A. b e. U ( ( x .x. a ) .+ b ) e. U )

 |-  ( ph -> ( x e. B -> A. a e. U A. b e. U ( ( x .x. a ) .+ b ) e. U ) )

 |-  ( ph -> ( Base ` F ) = ( Base ` ( Scalar ` W ) ) )

 |-  ( ph -> B = ( Base ` ( Scalar ` W ) ) )

 |-  ( ph -> ( x e. B <-> x e. ( Base ` ( Scalar ` W ) ) ) )

 |-  ( ph -> ( ( x .x. a ) .+ b ) = ( ( x .x. a ) ( +g ` W ) b ) )

 |-  ( ph -> ( x .x. a ) = ( x ( .s ` W ) a ) )

 |-  ( ph -> ( ( x .x. a ) ( +g ` W ) b ) = ( ( x ( .s ` W ) a ) ( +g ` W ) b ) )

 |-  ( ph -> ( ( x .x. a ) .+ b ) = ( ( x ( .s ` W ) a ) ( +g ` W ) b ) )

 |-  ( ph -> ( ( ( x .x. a ) .+ b ) e. U <-> ( ( x ( .s ` W ) a ) ( +g ` W ) b ) e. U ) )

 |-  ( ph -> ( A. a e. U A. b e. U ( ( x .x. a ) .+ b ) e. U <-> A. a e. U A. b e. U ( ( x ( .s ` W ) a ) ( +g ` W ) b ) e. U ) )

 |-  ( ph -> ( x e. ( Base ` ( Scalar ` W ) ) -> A. a e. U A. b e. U ( ( x ( .s ` W ) a ) ( +g ` W ) b ) e. U ) )

 |-  ( ph -> A. x e. ( Base ` ( Scalar ` W ) ) A. a e. U A. b e. U ( ( x ( .s ` W ) a ) ( +g ` W ) b ) e. U )

 |-  ( Scalar ` W ) = ( Scalar ` W )

 |-  ( Base ` ( Scalar ` W ) ) = ( Base ` ( Scalar ` W ) )

 |-  ( Base ` W ) = ( Base ` W )

 |-  ( +g ` W ) = ( +g ` W )

 |-  ( .s ` W ) = ( .s ` W )

 |-  ( LSubSp ` W ) = ( LSubSp ` W )

 |-  ( U e. ( LSubSp ` W ) <-> ( U C_ ( Base ` W ) /\ U =/= (/) /\ A. x e. ( Base ` ( Scalar ` W ) ) A. a e. U A. b e. U ( ( x ( .s ` W ) a ) ( +g ` W ) b ) e. U ) )

 |-  ( ph -> U e. ( LSubSp ` W ) )

 |-  ( ph -> U e. S )