let V be RealLinearSpace; for w1, u, v2, o, u2 being Element of V
for a, b, c2 being Real st w1 = (a * u) + (b * v2) & v2 = o + (c2 * u2) holds
w1 = ((b * o) + (a * u)) + ((b * c2) * u2)
let w1, u, v2, o, u2 be Element of V; for a, b, c2 being Real st w1 = (a * u) + (b * v2) & v2 = o + (c2 * u2) holds
w1 = ((b * o) + (a * u)) + ((b * c2) * u2)
let a, b, c2 be Real; ( w1 = (a * u) + (b * v2) & v2 = o + (c2 * u2) implies w1 = ((b * o) + (a * u)) + ((b * c2) * u2) )
assume
( w1 = (a * u) + (b * v2) & v2 = o + (c2 * u2) )
; w1 = ((b * o) + (a * u)) + ((b * c2) * u2)
hence w1 =
(a * u) + ((b * o) + (b * (c2 * u2)))
by RLVECT_1:def 8
.=
((a * u) + (b * o)) + (b * (c2 * u2))
by RLVECT_1:def 6
.=
((b * o) + (a * u)) + ((b * c2) * u2)
by RLVECT_1:def 10
;
verum