let X be non empty set ; :: thesis: for S being SigmaField of X
for M being sigma_Measure of S
for f being PartFunc of X,COMPLEX st X = dom f & ( for x being Element of X st x in dom f holds
0 = f . x ) holds
( f is_integrable_on M & Integral (M,f) = 0 )
let S be SigmaField of X; :: thesis: for M being sigma_Measure of S
for f being PartFunc of X,COMPLEX st X = dom f & ( for x being Element of X st x in dom f holds
0 = f . x ) holds
( f is_integrable_on M & Integral (M,f) = 0 )
let M be sigma_Measure of S; :: thesis: for f being PartFunc of X,COMPLEX st X = dom f & ( for x being Element of X st x in dom f holds
0 = f . x ) holds
( f is_integrable_on M & Integral (M,f) = 0 )
let f be PartFunc of X,COMPLEX; :: thesis: ( X = dom f & ( for x being Element of X st x in dom f holds
0 = f . x ) implies ( f is_integrable_on M & Integral (M,f) = 0 ) )
A1: X is Element of S by MEASURE1:7;
assume ( X = dom f & ( for x being Element of X st x in dom f holds
0 = f . x ) ) ; :: thesis: ( f is_integrable_on M & Integral (M,f) = 0 )
hence ( f is_integrable_on M & Integral (M,f) = 0 ) by A1, Th16; :: thesis: verum