let x0, x be Real; for n, m being Element of NAT
for Z being open Subset of REAL st x0 in Z & n > m holds
( (Taylor (#Z n),Z,x0,x) . m = ((n choose m) * (x0 #Z (n - m))) * ((x - x0) |^ m) & (Taylor (#Z n),Z,x0,x) . n = (x - x0) |^ n )
let n, m be Element of NAT ; for Z being open Subset of REAL st x0 in Z & n > m holds
( (Taylor (#Z n),Z,x0,x) . m = ((n choose m) * (x0 #Z (n - m))) * ((x - x0) |^ m) & (Taylor (#Z n),Z,x0,x) . n = (x - x0) |^ n )
let Z be open Subset of REAL ; ( x0 in Z & n > m implies ( (Taylor (#Z n),Z,x0,x) . m = ((n choose m) * (x0 #Z (n - m))) * ((x - x0) |^ m) & (Taylor (#Z n),Z,x0,x) . n = (x - x0) |^ n ) )
assume that
A1:
x0 in Z
and
A2:
n > m
; ( (Taylor (#Z n),Z,x0,x) . m = ((n choose m) * (x0 #Z (n - m))) * ((x - x0) |^ m) & (Taylor (#Z n),Z,x0,x) . n = (x - x0) |^ n )
A3:
n ! <> 0
by NEWTON:23;
A4: (Taylor (#Z n),Z,x0,x) . n =
((((diff (#Z n),Z) . n) . x0) * ((x - x0) |^ n)) / (n ! )
by TAYLOR_1:def 7
.=
(((x - x0) |^ n) * (n ! )) / (n ! )
by A1, Th37
.=
(x - x0) |^ n
by A3, XCMPLX_1:90
;
A5:
m ! <> 0
by NEWTON:23;
(Taylor (#Z n),Z,x0,x) . m =
((((diff (#Z n),Z) . m) . x0) * ((x - x0) |^ m)) / (m ! )
by TAYLOR_1:def 7
.=
((((n choose m) * (m ! )) * (x0 #Z (n - m))) * ((x - x0) |^ m)) / (m ! )
by A1, A2, Th36
.=
(((n choose m) * ((x0 #Z (n - m)) * ((x - x0) |^ m))) * (m ! )) / (m ! )
.=
((n choose m) * (x0 #Z (n - m))) * ((x - x0) |^ m)
by A5, XCMPLX_1:90
;
hence
( (Taylor (#Z n),Z,x0,x) . m = ((n choose m) * (x0 #Z (n - m))) * ((x - x0) |^ m) & (Taylor (#Z n),Z,x0,x) . n = (x - x0) |^ n )
by A4; verum