iihalf2cn

Description: The second half function is a continuous map. (Contributed by Mario Carneiro, 6-Jun-2014)

		Ref	Expression
	Hypothesis	iihalf2cn.1	\|- J = ( ( topGen ` ran (,) ) \|`t ( ( 1 / 2 ) [,] 1 ) )
	Assertion	iihalf2cn	\|- ( x e. ( ( 1 / 2 ) [,] 1 ) \|-> ( ( 2 x. x ) - 1 ) ) e. ( J Cn II )

Proof

Step	Hyp	Ref	Expression
1		iihalf2cn.1	\|- J = ( ( topGen ` ran (,) ) \|`t ( ( 1 / 2 ) [,] 1 ) )
2		eqid	\|- ( TopOpen ` CCfld ) = ( TopOpen ` CCfld )
3		dfii2	\|- II = ( ( topGen ` ran (,) ) \|`t ( 0 [,] 1 ) )
4		halfre	\|- ( 1 / 2 ) e. RR
5		1re	\|- 1 e. RR
6		iccssre	\|- ( ( ( 1 / 2 ) e. RR /\ 1 e. RR ) -> ( ( 1 / 2 ) [,] 1 ) C_ RR )
7	4 5 6	mp2an	\|- ( ( 1 / 2 ) [,] 1 ) C_ RR
8	7	a1i	\|- ( T. -> ( ( 1 / 2 ) [,] 1 ) C_ RR )
9		unitssre	\|- ( 0 [,] 1 ) C_ RR
10	9	a1i	\|- ( T. -> ( 0 [,] 1 ) C_ RR )
11		iihalf2	\|- ( x e. ( ( 1 / 2 ) [,] 1 ) -> ( ( 2 x. x ) - 1 ) e. ( 0 [,] 1 ) )
12	11	adantl	\|- ( ( T. /\ x e. ( ( 1 / 2 ) [,] 1 ) ) -> ( ( 2 x. x ) - 1 ) e. ( 0 [,] 1 ) )
13	2	cnfldtopon	\|- ( TopOpen ` CCfld ) e. ( TopOn ` CC )
14	13	a1i	\|- ( T. -> ( TopOpen ` CCfld ) e. ( TopOn ` CC ) )
15		2cnd	\|- ( T. -> 2 e. CC )
16	14 14 15	cnmptc	\|- ( T. -> ( x e. CC \|-> 2 ) e. ( ( TopOpen ` CCfld ) Cn ( TopOpen ` CCfld ) ) )
17	14	cnmptid	\|- ( T. -> ( x e. CC \|-> x ) e. ( ( TopOpen ` CCfld ) Cn ( TopOpen ` CCfld ) ) )
18	2	mulcn	\|- x. e. ( ( ( TopOpen ` CCfld ) tX ( TopOpen ` CCfld ) ) Cn ( TopOpen ` CCfld ) )
19	18	a1i	\|- ( T. -> x. e. ( ( ( TopOpen ` CCfld ) tX ( TopOpen ` CCfld ) ) Cn ( TopOpen ` CCfld ) ) )
20	14 16 17 19	cnmpt12f	\|- ( T. -> ( x e. CC \|-> ( 2 x. x ) ) e. ( ( TopOpen ` CCfld ) Cn ( TopOpen ` CCfld ) ) )
21		1cnd	\|- ( T. -> 1 e. CC )
22	14 14 21	cnmptc	\|- ( T. -> ( x e. CC \|-> 1 ) e. ( ( TopOpen ` CCfld ) Cn ( TopOpen ` CCfld ) ) )
23	2	subcn	\|- - e. ( ( ( TopOpen ` CCfld ) tX ( TopOpen ` CCfld ) ) Cn ( TopOpen ` CCfld ) )
24	23	a1i	\|- ( T. -> - e. ( ( ( TopOpen ` CCfld ) tX ( TopOpen ` CCfld ) ) Cn ( TopOpen ` CCfld ) ) )
25	14 20 22 24	cnmpt12f	\|- ( T. -> ( x e. CC \|-> ( ( 2 x. x ) - 1 ) ) e. ( ( TopOpen ` CCfld ) Cn ( TopOpen ` CCfld ) ) )
26	2 1 3 8 10 12 25	cnmptre	\|- ( T. -> ( x e. ( ( 1 / 2 ) [,] 1 ) \|-> ( ( 2 x. x ) - 1 ) ) e. ( J Cn II ) )
27	26	mptru	\|- ( x e. ( ( 1 / 2 ) [,] 1 ) \|-> ( ( 2 x. x ) - 1 ) ) e. ( J Cn II )

Metamath Proof Explorer

Theorem iihalf2cn

Proof