let K be Field; for a, b being Element of K
for p, q being FinSequence of K st p is first-symmetry-of-circulant & q is first-symmetry-of-circulant & len p = len q holds
(a * (SCirc p)) + (b * (SCirc q)) = SCirc ((a * p) + (b * q))
let a, b be Element of K; for p, q being FinSequence of K st p is first-symmetry-of-circulant & q is first-symmetry-of-circulant & len p = len q holds
(a * (SCirc p)) + (b * (SCirc q)) = SCirc ((a * p) + (b * q))
let p, q be FinSequence of K; ( p is first-symmetry-of-circulant & q is first-symmetry-of-circulant & len p = len q implies (a * (SCirc p)) + (b * (SCirc q)) = SCirc ((a * p) + (b * q)) )
set n = len p;
assume that
A1:
p is first-symmetry-of-circulant
and
A2:
q is first-symmetry-of-circulant
and
A3:
len p = len q
; (a * (SCirc p)) + (b * (SCirc q)) = SCirc ((a * p) + (b * q))
A4:
( a * p is first-symmetry-of-circulant & b * q is first-symmetry-of-circulant )
by A1, A2, Th12;
A5:
len (b * q) = len p
by A3, MATRIXR1:16;
(a * (SCirc p)) + (b * (SCirc q)) =
(SCirc (a * p)) + (b * (SCirc q))
by A1, Th13
.=
(SCirc (a * p)) + (SCirc (b * q))
by A2, Th13
.=
SCirc ((a * p) + (b * q))
by A4, A5, Th11, MATRIXR1:16
;
hence
(a * (SCirc p)) + (b * (SCirc q)) = SCirc ((a * p) + (b * q))
; verum