let X be set ; :: thesis: for F being Field_Subset of X
for M being Measure of F
for FSets being Set_Sequence of F st FSets is non-descending holds
M * FSets is non-decreasing
let F be Field_Subset of X; :: thesis: for M being Measure of F
for FSets being Set_Sequence of F st FSets is non-descending holds
M * FSets is non-decreasing
let M be Measure of F; :: thesis: for FSets being Set_Sequence of F st FSets is non-descending holds
M * FSets is non-decreasing
let FSets be Set_Sequence of F; :: thesis: ( FSets is non-descending implies M * FSets is non-decreasing )
A1: dom (M * FSets) = NAT by FUNCT_2:def 1;
assume A2: FSets is non-descending ; :: thesis: M * FSets is non-decreasing
then for n, m being Nat st m <= n holds
(M * FSets) . m <= (M * FSets) . n ;
hence M * FSets is non-decreasing by RINFSUP2:7; :: thesis: verum