let n be Element of NAT ; for f being PartFunc of REAL ,(REAL n)
for A being closed-interval Subset of REAL
for a, b being Real st A = [.a,b.] holds
integral f,A = integral f,a,b
let f be PartFunc of REAL ,(REAL n); for A being closed-interval Subset of REAL
for a, b being Real st A = [.a,b.] holds
integral f,A = integral f,a,b
let A be closed-interval Subset of REAL ; for a, b being Real st A = [.a,b.] holds
integral f,A = integral f,a,b
let a, b be Real; ( A = [.a,b.] implies integral f,A = integral f,a,b )
assume A1:
A = [.a,b.]
; integral f,A = integral f,a,b
A2:
now let i be
Nat;
( i in dom (integral f,A) implies (integral f,A) . i = (integral f,a,b) . i )assume A3:
i in dom (integral f,A)
;
(integral f,A) . i = (integral f,a,b) . ithen reconsider k =
i as
Element of
NAT ;
dom (integral f,A) = Seg n
by Def17;
then
(
(integral f,A) . k = integral ((proj k,n) * f),
A &
(integral f,a,b) . k = integral ((proj k,n) * f),
a,
b )
by A3, Def17, Def18;
hence
(integral f,A) . i = (integral f,a,b) . i
by A1, INTEGRA5:19;
verum end;
dom (integral f,A) =
Seg n
by Def17
.=
dom (integral f,a,b)
by Def18
;
hence
integral f,A = integral f,a,b
by A2, FINSEQ_1:17; verum