let Z be open Subset of REAL ; :: thesis: ( Z c= ].(- 1),1.[ implies ( sin (#) (arctan - arccot ) is_differentiable_on Z & ( for x being Real st x in Z holds
((sin (#) (arctan - arccot )) `| Z) . x = ((cos . x) * ((arctan . x) - (arccot . x))) + ((2 * (sin . x)) / (1 + (x ^2 ))) ) ) )
assume A1:
Z c= ].(- 1),1.[
; :: thesis: ( sin (#) (arctan - arccot ) is_differentiable_on Z & ( for x being Real st x in Z holds
((sin (#) (arctan - arccot )) `| Z) . x = ((cos . x) * ((arctan . x) - (arccot . x))) + ((2 * (sin . x)) / (1 + (x ^2 ))) ) )
A3:
].(- 1),1.[ c= [.(- 1),1.]
by XXREAL_1:25;
then
].(- 1),1.[ c= dom arctan
by SIN_COS9:23, XBOOLE_1:1;
then A4:
Z c= dom arctan
by A1, XBOOLE_1:1;
].(- 1),1.[ c= dom arccot
by A3, SIN_COS9:24, XBOOLE_1:1;
then
Z c= dom arccot
by A1, XBOOLE_1:1;
then
Z c= (dom arctan ) /\ (dom arccot )
by A4, XBOOLE_1:19;
then A5:
Z c= dom (arctan - arccot )
by VALUED_1:12;
then
Z c= (dom sin ) /\ (dom (arctan - arccot ))
by SIN_COS:27, XBOOLE_1:19;
then A6:
Z c= dom (sin (#) (arctan - arccot ))
by VALUED_1:def 4;
for x being Real st x in Z holds
sin is_differentiable_in x
by SIN_COS:69;
then A7:
sin is_differentiable_on Z
by SIN_COS:27, FDIFF_1:16;
A8:
( arctan - arccot is_differentiable_on Z & ( for x being Real st x in Z holds
((arctan - arccot ) `| Z) . x = 2 / (1 + (x ^2 )) ) )
by A1, Th38;
for x being Real st x in Z holds
((sin (#) (arctan - arccot )) `| Z) . x = ((cos . x) * ((arctan . x) - (arccot . x))) + ((2 * (sin . x)) / (1 + (x ^2 )))
proof
let x be
Real;
:: thesis: ( x in Z implies ((sin (#) (arctan - arccot )) `| Z) . x = ((cos . x) * ((arctan . x) - (arccot . x))) + ((2 * (sin . x)) / (1 + (x ^2 ))) )
assume A9:
x in Z
;
:: thesis: ((sin (#) (arctan - arccot )) `| Z) . x = ((cos . x) * ((arctan . x) - (arccot . x))) + ((2 * (sin . x)) / (1 + (x ^2 )))
((sin (#) (arctan - arccot )) `| Z) . x =
(((arctan - arccot ) . x) * (diff sin ,x)) + ((sin . x) * (diff (arctan - arccot ),x))
by A6, A7, A8, A9, FDIFF_1:29
.=
(((arctan . x) - (arccot . x)) * (diff sin ,x)) + ((sin . x) * (diff (arctan - arccot ),x))
by A5, A9, VALUED_1:13
.=
(((arctan . x) - (arccot . x)) * (cos . x)) + ((sin . x) * (diff (arctan - arccot ),x))
by SIN_COS:69
.=
(((arctan . x) - (arccot . x)) * (cos . x)) + ((sin . x) * (((arctan - arccot ) `| Z) . x))
by A8, A9, FDIFF_1:def 8
.=
(((arctan . x) - (arccot . x)) * (cos . x)) + ((sin . x) * (2 / (1 + (x ^2 ))))
by A1, A9, Th38
.=
((cos . x) * ((arctan . x) - (arccot . x))) + ((2 * (sin . x)) / (1 + (x ^2 )))
;
hence
((sin (#) (arctan - arccot )) `| Z) . x = ((cos . x) * ((arctan . x) - (arccot . x))) + ((2 * (sin . x)) / (1 + (x ^2 )))
;
:: thesis: verum
end;
hence
( sin (#) (arctan - arccot ) is_differentiable_on Z & ( for x being Real st x in Z holds
((sin (#) (arctan - arccot )) `| Z) . x = ((cos . x) * ((arctan . x) - (arccot . x))) + ((2 * (sin . x)) / (1 + (x ^2 ))) ) )
by A6, A7, A8, FDIFF_1:29; :: thesis: verum