consider r1 being real number such that
A2: for c being set st c in dom f holds
r1 < f . c by SEQ_2:def 2;
now
take p = (r * (- (abs r1))) - 1; :: thesis: for c being set st c in dom (r (#) f) holds
(r (#) f) . c > p
let c be set ; :: thesis: ( c in dom (r (#) f) implies (r (#) f) . c > p )
assume A3: c in dom (r (#) f) ; :: thesis: (r (#) f) . c > p
then A5: c in dom f by VALUED_1:def 5;
- (abs r1) <= r1 by ABSVALUE:11;
then f . c >= - (abs r1) by A5, A2, XXREAL_0:2;
then r * (f . c) >= (- (abs r1)) * r by XREAL_1:66;
then (r (#) f) . c >= (- (abs r1)) * r by A3, VALUED_1:def 5;
hence (r (#) f) . c > p by XREAL_1:233; :: thesis: verum
end;
hence r (#) f is real-valued bounded_below Function by SEQ_2:def 2; :: thesis: verum