let x be Element of the carrier of (Pre-L-Space M); :: thesis: (L-1-Norm M) . x = (Lp-Norm M,1) . x
x in the carrier of (Pre-L-Space M) ;
then x in CosetSet M by LPSPACE1:def 18;
then consider g being PartFunc of X,REAL such that
B1: ( x = a.e-eq-class g,M & g in L1_Functions M ) ;
consider a being PartFunc of X,REAL such that
A4: ( a in x & (L-1-Norm M) . x = Integral M,(abs a) ) by LPSPACE1:def 19;
B2: ex p being PartFunc of X,REAL st
( a = p & p in L1_Functions M & g in L1_Functions M & g a.e.= p,M ) by B1, A4;
consider b being PartFunc of X,REAL such that
A5: ( b in x & ex r being Real st
( r = Integral M,((abs b) to_power 1) & (Lp-Norm M,1) . x = r to_power (1 / 1) ) ) by A1, DefLpNORM;
B4: ex q being PartFunc of X,REAL st
( b = q & q in L1_Functions M & g in L1_Functions M & g a.e.= q,M ) by B1, A5;
a a.e.= g,M by B2, LPSPACE1:29;
then a a.e.= b,M by B4, LPSPACE1:30;
then B6: Integral M,(abs a) = Integral M,(abs b) by B1, A4, A5, LPSPACE1:45;
(abs b) to_power 1 = abs b by LmPW006;
hence (L-1-Norm M) . x = (Lp-Norm M,1) . x by A4, A5, B6, POWER:30; :: thesis: verum