let C be non empty set ; :: thesis:
let X be set ; :: thesis:
let f be PartFunc of C,REAL; :: thesis:
assume f | X is bounded_below ; :: thesis:
then consider b being Real such that
A1: for c being object st c in X /\ (dom f) holds
f . c >= b by RFUNCT_1:71;
A2: dom (max- f) = dom f by RFUNCT_3:def 11;
ex r being Real st
for c being object st c in X /\ (dom (max- f)) holds
(max- f) . c <= r

end;

hence ex r being Real st
for c being object st c in X /\ (dom (max- f)) holds
(max- f) . c <= r ; :: thesis:

end;

end;

then consider r being Real such that
r = - b and
A9: for c being object st c in X /\ (dom (max- f)) holds
(max- f) . c <= r ;
thus ex r being Real st
for c being object st c in X /\ (dom (max- f)) holds
(max- f) . c <= r by A9; :: thesis:

end;

hence ex r being Real st
for c being object st c in X /\ (dom (max- f)) holds
(max- f) . c <= r ; :: thesis:

end;