let x be set ; :: thesis: for n being Nat
for r being real number
for f1 being real-valued b₁ -element FinSequence holds mlt (f1,((0.REAL n) +* (x,r))) = (0.REAL n) +* (x,((f1 . x) * r))
let n be Nat; :: thesis: for r being real number
for f1 being real-valued n -element FinSequence holds mlt (f1,((0.REAL n) +* (x,r))) = (0.REAL n) +* (x,((f1 . x) * r))
let r be real number ; :: thesis: for f1 being real-valued n -element FinSequence holds mlt (f1,((0.REAL n) +* (x,r))) = (0.REAL n) +* (x,((f1 . x) * r))
let f1 be real-valued n -element FinSequence; :: thesis: mlt (f1,((0.REAL n) +* (x,r))) = (0.REAL n) +* (x,((f1 . x) * r))
set p = (0.REAL n) +* (x,r);
A1: dom f1 = Seg n by FINSEQ_1:89;
A2: dom ((0.REAL n) +* (x,r)) = Seg n by FINSEQ_1:89;
A3: dom (mlt (f1,((0.REAL n) +* (x,r)))) = (dom f1) /\ (dom ((0.REAL n) +* (x,r))) by VALUED_1:def 4;
A4: dom ((0.REAL n) +* (x,((f1 . x) * r))) = dom (0.REAL n) by FUNCT_7:30;
A5: dom (0.REAL n) = Seg n by FINSEQ_1:89;
hence mlt (f1,((0.REAL n) +* (x,r))) = (0.REAL n) +* (x,((f1 . x) * r)) by A4, A5, FINSEQ_1:89, FUNCT_1:2; :: thesis: verum