let A be closed-interval Subset of REAL ; ( A = [.0 ,1.] implies integral (sinh + cosh ),A = number_e - 1 )
A1:
number_e > 0
by IRRAT_1:def 7, SIN_COS:60;
assume
A = [.0 ,1.]
; integral (sinh + cosh ),A = number_e - 1
then
( upper_bound A = 1 & lower_bound A = 0 )
by Th37;
then integral (sinh + cosh ),A =
(((cosh . 1) - (cosh . 0 )) + (sinh . 1)) - (sinh . 0 )
by Th76
.=
((((number_e ^2 ) + 1) / (2 * number_e )) + (((number_e ^2 ) - 1) / (2 * number_e ))) - 1
by Th17, Th18, Th19, SIN_COS2:16
.=
((((number_e ^2 ) + 1) + ((number_e ^2 ) - 1)) / (2 * number_e )) - 1
by XCMPLX_1:63
.=
((2 * (number_e ^2 )) / (2 * number_e )) - 1
.=
((number_e ^2 ) / number_e ) - 1
by XCMPLX_1:92
.=
((number_e * number_e ) / number_e ) - 1
.=
number_e - 1
by A1, XCMPLX_1:90
;
hence
integral (sinh + cosh ),A = number_e - 1
; verum