fvvolioof

Description: The function value of the Lebesgue measure of an open interval composed with a function. (Contributed by Glauco Siliprandi, 3-Mar-2021)

	Ref	Expression
Hypotheses	fvvolioof.f	\|- ( ph -> F : A --> ( RR* X. RR* ) )
	fvvolioof.x	\|- ( ph -> X e. A )
Assertion	fvvolioof	\|- ( ph -> ( ( ( vol o. (,) ) o. F ) ` X ) = ( vol ` ( ( 1st ` ( F ` X ) ) (,) ( 2nd ` ( F ` X ) ) ) ) )

Proof

Step	Hyp	Ref	Expression
1		fvvolioof.f	\|- ( ph -> F : A --> ( RR* X. RR* ) )
2		fvvolioof.x	\|- ( ph -> X e. A )
3	1	ffund	\|- ( ph -> Fun F )
4	1	fdmd	\|- ( ph -> dom F = A )
5	4	eqcomd	\|- ( ph -> A = dom F )
6	2 5	eleqtrd	\|- ( ph -> X e. dom F )
7		fvco	\|- ( ( Fun F /\ X e. dom F ) -> ( ( ( vol o. (,) ) o. F ) ` X ) = ( ( vol o. (,) ) ` ( F ` X ) ) )
8	3 6 7	syl2anc	\|- ( ph -> ( ( ( vol o. (,) ) o. F ) ` X ) = ( ( vol o. (,) ) ` ( F ` X ) ) )
9		ioof	\|- (,) : ( RR* X. RR* ) --> ~P RR
10		ffun	\|- ( (,) : ( RR* X. RR* ) --> ~P RR -> Fun (,) )
11	9 10	ax-mp	\|- Fun (,)
12	11	a1i	\|- ( ph -> Fun (,) )
13	1 2	ffvelcdmd	\|- ( ph -> ( F ` X ) e. ( RR* X. RR* ) )
14	9	fdmi	\|- dom (,) = ( RR* X. RR* )
15	13 14	eleqtrrdi	\|- ( ph -> ( F ` X ) e. dom (,) )
16		fvco	\|- ( ( Fun (,) /\ ( F ` X ) e. dom (,) ) -> ( ( vol o. (,) ) ` ( F ` X ) ) = ( vol ` ( (,) ` ( F ` X ) ) ) )
17	12 15 16	syl2anc	\|- ( ph -> ( ( vol o. (,) ) ` ( F ` X ) ) = ( vol ` ( (,) ` ( F ` X ) ) ) )
18		df-ov	\|- ( ( 1st ` ( F ` X ) ) (,) ( 2nd ` ( F ` X ) ) ) = ( (,) ` <. ( 1st ` ( F ` X ) ) , ( 2nd ` ( F ` X ) ) >. )
19	18	a1i	\|- ( ph -> ( ( 1st ` ( F ` X ) ) (,) ( 2nd ` ( F ` X ) ) ) = ( (,) ` <. ( 1st ` ( F ` X ) ) , ( 2nd ` ( F ` X ) ) >. ) )
20		1st2nd2	\|- ( ( F ` X ) e. ( RR* X. RR* ) -> ( F ` X ) = <. ( 1st ` ( F ` X ) ) , ( 2nd ` ( F ` X ) ) >. )
21	13 20	syl	\|- ( ph -> ( F ` X ) = <. ( 1st ` ( F ` X ) ) , ( 2nd ` ( F ` X ) ) >. )
22	21	eqcomd	\|- ( ph -> <. ( 1st ` ( F ` X ) ) , ( 2nd ` ( F ` X ) ) >. = ( F ` X ) )
23	22	fveq2d	\|- ( ph -> ( (,) ` <. ( 1st ` ( F ` X ) ) , ( 2nd ` ( F ` X ) ) >. ) = ( (,) ` ( F ` X ) ) )
24	19 23	eqtr2d	\|- ( ph -> ( (,) ` ( F ` X ) ) = ( ( 1st ` ( F ` X ) ) (,) ( 2nd ` ( F ` X ) ) ) )
25	24	fveq2d	\|- ( ph -> ( vol ` ( (,) ` ( F ` X ) ) ) = ( vol ` ( ( 1st ` ( F ` X ) ) (,) ( 2nd ` ( F ` X ) ) ) ) )
26	8 17 25	3eqtrd	\|- ( ph -> ( ( ( vol o. (,) ) o. F ) ` X ) = ( vol ` ( ( 1st ` ( F ` X ) ) (,) ( 2nd ` ( F ` X ) ) ) ) )

Metamath Proof Explorer

Theorem fvvolioof

Proof