let p be real number ; for f being PartFunc of REAL ,REAL st f = compreal holds
( exp_R - (exp_R * f) is_differentiable_in p & exp_R + (exp_R * f) is_differentiable_in p & diff (exp_R - (exp_R * f)),p = (exp_R . p) + (exp_R . (- p)) & diff (exp_R + (exp_R * f)),p = (exp_R . p) - (exp_R . (- p)) )
let f be PartFunc of REAL ,REAL ; ( f = compreal implies ( exp_R - (exp_R * f) is_differentiable_in p & exp_R + (exp_R * f) is_differentiable_in p & diff (exp_R - (exp_R * f)),p = (exp_R . p) + (exp_R . (- p)) & diff (exp_R + (exp_R * f)),p = (exp_R . p) - (exp_R . (- p)) ) )
A1:
( p is Real & exp_R is_differentiable_in p )
by SIN_COS:70, XREAL_0:def 1;
assume A2:
f = compreal
; ( exp_R - (exp_R * f) is_differentiable_in p & exp_R + (exp_R * f) is_differentiable_in p & diff (exp_R - (exp_R * f)),p = (exp_R . p) + (exp_R . (- p)) & diff (exp_R + (exp_R * f)),p = (exp_R . p) - (exp_R . (- p)) )
then A3:
exp_R * f is_differentiable_in p
by Lm13;
then A4: diff (exp_R + (exp_R * f)),p =
(diff exp_R ,p) + (diff (exp_R * f),p)
by A1, FDIFF_1:21
.=
(exp_R . p) + (diff (exp_R * f),p)
by SIN_COS:70
.=
(exp_R . p) + ((- 1) * (exp_R . (f . p)))
by A2, Lm13
.=
(exp_R . p) + ((- 1) * (exp_R . ((- 1) * p)))
by A2, Lm10
.=
(exp_R . p) - (exp_R . (- p))
;
diff (exp_R - (exp_R * f)),p =
(diff exp_R ,p) - (diff (exp_R * f),p)
by A1, A3, FDIFF_1:22
.=
(exp_R . p) - (diff (exp_R * f),p)
by SIN_COS:70
.=
(exp_R . p) - ((- 1) * (exp_R . (f . p)))
by A2, Lm13
.=
(exp_R . p) - ((- 1) * (exp_R . ((- 1) * p)))
by A2, Lm10
.=
(exp_R . p) + (exp_R . (- p))
;
hence
( exp_R - (exp_R * f) is_differentiable_in p & exp_R + (exp_R * f) is_differentiable_in p & diff (exp_R - (exp_R * f)),p = (exp_R . p) + (exp_R . (- p)) & diff (exp_R + (exp_R * f)),p = (exp_R . p) - (exp_R . (- p)) )
by A1, A3, A4, FDIFF_1:21, FDIFF_1:22; verum