let Z be open Subset of REAL; :: thesis: ( Z c= dom (cosec * ln) implies ( - (cosec * ln) is_differentiable_on Z & ( for x being Real st x in Z holds
((- (cosec * ln)) `| Z) . x = (cos . (ln . x)) / (x * ((sin . (ln . x)) ^2)) ) ) )
assume A1: Z c= dom (cosec * ln) ; :: thesis: ( - (cosec * ln) is_differentiable_on Z & ( for x being Real st x in Z holds
((- (cosec * ln)) `| Z) . x = (cos . (ln . x)) / (x * ((sin . (ln . x)) ^2)) ) )
then A2: Z c= dom (- (cosec * ln)) by VALUED_1:8;
A3: cosec * ln is_differentiable_on Z by A1, FDIFF_9:15;
then A4: (- 1) (#) (cosec * ln) is_differentiable_on Z by A2, FDIFF_1:20;
for x being Real st x in Z holds
((- (cosec * ln)) `| Z) . x = (cos . (ln . x)) / (x * ((sin . (ln . x)) ^2))
proof
let x be Real; :: thesis: ( x in Z implies ((- (cosec * ln)) `| Z) . x = (cos . (ln . x)) / (x * ((sin . (ln . x)) ^2)) )
assume A5: x in Z ; :: thesis: ((- (cosec * ln)) `| Z) . x = (cos . (ln . x)) / (x * ((sin . (ln . x)) ^2))
((- (cosec * ln)) `| Z) . x = ((- 1) (#) ((cosec * ln) `| Z)) . x by A3, FDIFF_2:19
.= (- 1) * (((cosec * ln) `| Z) . x) by VALUED_1:6
.= (- 1) * (- ((cos . (ln . x)) / (x * ((sin . (ln . x)) ^2)))) by A1, A5, FDIFF_9:15
.= (cos . (ln . x)) / (x * ((sin . (ln . x)) ^2)) ;
hence ((- (cosec * ln)) `| Z) . x = (cos . (ln . x)) / (x * ((sin . (ln . x)) ^2)) ; :: thesis: verum
end;
hence ( - (cosec * ln) is_differentiable_on Z & ( for x being Real st x in Z holds
((- (cosec * ln)) `| Z) . x = (cos . (ln . x)) / (x * ((sin . (ln . x)) ^2)) ) ) by A4; :: thesis: verum