let V be RealLinearSpace; for L1, L2, L3 being Linear_Combination of V holds L1 + (L2 + L3) = (L1 + L2) + L3
let L1, L2, L3 be Linear_Combination of V; L1 + (L2 + L3) = (L1 + L2) + L3
let v be VECTOR of V; RLVECT_2:def 11 (L1 + (L2 + L3)) . v = ((L1 + L2) + L3) . v
thus (L1 + (L2 + L3)) . v =
(L1 . v) + ((L2 + L3) . v)
by Def12
.=
(L1 . v) + ((L2 . v) + (L3 . v))
by Def12
.=
((L1 . v) + (L2 . v)) + (L3 . v)
.=
((L1 + L2) . v) + (L3 . v)
by Def12
.=
((L1 + L2) + L3) . v
by Def12
; verum