let x, y be Element of L; VECTSP_1:def 26 for b1, b2 being Element of the carrier of (Formal-Series L) holds
( x * (b1 + b2) = (x * b1) + (x * b2) & (x + y) * b1 = (x * b1) + (y * b1) & (x * y) * b1 = x * (y * b1) & (1. L) * b1 = b1 )
let v, w be Element of (Formal-Series L); ( x * (v + w) = (x * v) + (x * w) & (x + y) * v = (x * v) + (y * v) & (x * y) * v = x * (y * v) & (1. L) * v = v )
reconsider p = v, q = w as sequence of L by Def2;
reconsider x9 = x, y9 = y as Element of L ;
reconsider k = v + w as Element of (Formal-Series L) ;
A1:
x * v = x * p
by Def2;
reconsider r = k as sequence of L by Def2;
A2:
x * w = x * q
by Def2;
x * k = x * r
by Def2;
hence x * (v + w) =
x * (p + q)
by Def2
.=
(x9 * p) + (x9 * q)
by Th6
.=
(x * v) + (x * w)
by A1, A2, Def2
;
( (x + y) * v = (x * v) + (y * v) & (x * y) * v = x * (y * v) & (1. L) * v = v )
A3:
y * v = y * p
by Def2;
thus (x + y) * v =
(x9 + y9) * p
by Def2
.=
(x9 * p) + (y9 * p)
by Th7
.=
(x * v) + (y * v)
by A1, A3, Def2
; ( (x * y) * v = x * (y * v) & (1. L) * v = v )
thus (x * y) * v =
(x9 * y9) * p
by Def2
.=
x9 * (y9 * p)
by Th8
.=
x * (y * v)
by A3, Def2
; (1. L) * v = v
thus (1. L) * v =
(1. L) * p
by Def2
.=
v
by Th9
; verum