cnmpt2nd

Description: The projection onto the second coordinate is continuous. (Contributed by Mario Carneiro, 6-May-2014) (Revised by Mario Carneiro, 22-Aug-2015)

	Ref	Expression
Hypotheses	cnmpt21.j	\|- ( ph -> J e. ( TopOn ` X ) )
	cnmpt21.k	\|- ( ph -> K e. ( TopOn ` Y ) )
Assertion	cnmpt2nd	\|- ( ph -> ( x e. X , y e. Y \|-> y ) e. ( ( J tX K ) Cn K ) )

Proof

Step	Hyp	Ref	Expression
1		cnmpt21.j	\|- ( ph -> J e. ( TopOn ` X ) )
2		cnmpt21.k	\|- ( ph -> K e. ( TopOn ` Y ) )
3		fo2nd	\|- 2nd : _V -onto-> _V
4		fofn	\|- ( 2nd : _V -onto-> _V -> 2nd Fn _V )
5	3 4	ax-mp	\|- 2nd Fn _V
6		ssv	\|- ( X X. Y ) C_ _V
7		fnssres	\|- ( ( 2nd Fn _V /\ ( X X. Y ) C_ _V ) -> ( 2nd \|` ( X X. Y ) ) Fn ( X X. Y ) )
8	5 6 7	mp2an	\|- ( 2nd \|` ( X X. Y ) ) Fn ( X X. Y )
9		dffn5	\|- ( ( 2nd \|` ( X X. Y ) ) Fn ( X X. Y ) <-> ( 2nd \|` ( X X. Y ) ) = ( z e. ( X X. Y ) \|-> ( ( 2nd \|` ( X X. Y ) ) ` z ) ) )
10	8 9	mpbi	\|- ( 2nd \|` ( X X. Y ) ) = ( z e. ( X X. Y ) \|-> ( ( 2nd \|` ( X X. Y ) ) ` z ) )
11		fvres	\|- ( z e. ( X X. Y ) -> ( ( 2nd \|` ( X X. Y ) ) ` z ) = ( 2nd ` z ) )
12	11	mpteq2ia	\|- ( z e. ( X X. Y ) \|-> ( ( 2nd \|` ( X X. Y ) ) ` z ) ) = ( z e. ( X X. Y ) \|-> ( 2nd ` z ) )
13		vex	\|- x e. _V
14		vex	\|- y e. _V
15	13 14	op2ndd	\|- ( z = <. x , y >. -> ( 2nd ` z ) = y )
16	15	mpompt	\|- ( z e. ( X X. Y ) \|-> ( 2nd ` z ) ) = ( x e. X , y e. Y \|-> y )
17	10 12 16	3eqtri	\|- ( 2nd \|` ( X X. Y ) ) = ( x e. X , y e. Y \|-> y )
18		tx2cn	\|- ( ( J e. ( TopOn ` X ) /\ K e. ( TopOn ` Y ) ) -> ( 2nd \|` ( X X. Y ) ) e. ( ( J tX K ) Cn K ) )
19	1 2 18	syl2anc	\|- ( ph -> ( 2nd \|` ( X X. Y ) ) e. ( ( J tX K ) Cn K ) )
20	17 19	eqeltrrid	\|- ( ph -> ( x e. X , y e. Y \|-> y ) e. ( ( J tX K ) Cn K ) )

Metamath Proof Explorer

Theorem cnmpt2nd

Proof