sum2id

Description: The second class argument to a sum can be chosen so that it is always a set. (Contributed by NM, 11-Dec-2005) (Revised by Mario Carneiro, 13-Jul-2013)

		Ref	Expression
	Assertion	sum2id	\|- sum_ k e. A B = sum_ k e. A ( _I ` B )

Proof

Step	Hyp	Ref	Expression
1		sumeq2ii	\|- ( A. k e. A ( _I ` B ) = ( _I ` ( _I ` B ) ) -> sum_ k e. A B = sum_ k e. A ( _I ` B ) )
2		fvex	\|- ( _I ` B ) e. _V
3		fvi	\|- ( ( _I ` B ) e. _V -> ( _I ` ( _I ` B ) ) = ( _I ` B ) )
4	2 3	ax-mp	\|- ( _I ` ( _I ` B ) ) = ( _I ` B )
5	4	eqcomi	\|- ( _I ` B ) = ( _I ` ( _I ` B ) )
6	5	a1i	\|- ( k e. A -> ( _I ` B ) = ( _I ` ( _I ` B ) ) )
7	1 6	mprg	\|- sum_ k e. A B = sum_ k e. A ( _I ` B )

Metamath Proof Explorer

Theorem sum2id

Proof