let s be Real_Sequence; ( ( for n being Nat holds s . n = (((1 / 2) |^ n) + (2 |^ n)) |^ 2 ) implies for n being Nat holds (Partial_Sums s) . n = (((- (((1 / 4) |^ n) / 3)) + ((4 |^ (n + 1)) / 3)) + (2 * n)) + 3 )
defpred S1[ Nat] means (Partial_Sums s) . $1 = (((- (((1 / 4) |^ $1) / 3)) + ((4 |^ ($1 + 1)) / 3)) + (2 * $1)) + 3;
assume A1:
for n being Nat holds s . n = (((1 / 2) |^ n) + (2 |^ n)) |^ 2
; for n being Nat holds (Partial_Sums s) . n = (((- (((1 / 4) |^ n) / 3)) + ((4 |^ (n + 1)) / 3)) + (2 * n)) + 3
A2:
for n being Nat st S1[n] holds
S1[n + 1]
(Partial_Sums s) . 0 =
s . 0
by SERIES_1:def 1
.=
(((1 / 2) |^ 0) + (2 |^ 0)) |^ 2
by A1
.=
(1 + (2 |^ 0)) |^ 2
by NEWTON:4
.=
(1 + 1) |^ 2
by NEWTON:4
.=
(((- (1 / 3)) + (4 / 3)) + (2 * 0)) + 3
by Lm1
.=
(((- (((1 / 4) |^ 0) / 3)) + (4 / 3)) + (2 * 0)) + 3
by NEWTON:4
.=
(((- (((1 / 4) |^ 0) / 3)) + ((4 |^ (0 + 1)) / 3)) + (2 * 0)) + 3
;
then A3:
S1[ 0 ]
;
for n being Nat holds S1[n]
from NAT_1:sch 2(A3, A2);
hence
for n being Nat holds (Partial_Sums s) . n = (((- (((1 / 4) |^ n) / 3)) + ((4 |^ (n + 1)) / 3)) + (2 * n)) + 3
; verum