let K be Field; :: thesis: for V1 being finite-dimensional VectSp of K
for R being FinSequence of V1
for p1, p2 being FinSequence of K holds lmlt (p1 + p2),R = (lmlt p1,R) + (lmlt p2,R)
let V1 be finite-dimensional VectSp of K; :: thesis: for R being FinSequence of V1
for p1, p2 being FinSequence of K holds lmlt (p1 + p2),R = (lmlt p1,R) + (lmlt p2,R)
let R be FinSequence of V1; :: thesis: for p1, p2 being FinSequence of K holds lmlt (p1 + p2),R = (lmlt p1,R) + (lmlt p2,R)
let p1, p2 be FinSequence of K; :: thesis: lmlt (p1 + p2),R = (lmlt p1,R) + (lmlt p2,R)
set L12 = lmlt (p1 + p2),R;
set L1 = lmlt p1,R;
set L2 = lmlt p2,R;
A1: dom ((lmlt p1,R) + (lmlt p2,R)) = (dom (lmlt p1,R)) /\ (dom (lmlt p2,R)) by Lm3;
A2: dom (lmlt (p1 + p2),R) = (dom (p1 + p2)) /\ (dom R) by Lm1;
A3: dom (lmlt p1,R) = (dom p1) /\ (dom R) by Lm1;
A4: dom (lmlt p2,R) = (dom p2) /\ (dom R) by Lm1;
then A5: dom ((lmlt p1,R) + (lmlt p2,R)) = (((dom p1) /\ (dom R)) /\ (dom p2)) /\ (dom R) by A1, A3, XBOOLE_1:16
.= (((dom p1) /\ (dom p2)) /\ (dom R)) /\ (dom R) by XBOOLE_1:16
.= ((dom p1) /\ (dom p2)) /\ ((dom R) /\ (dom R)) by XBOOLE_1:16
.= dom (lmlt (p1 + p2),R) by A2, Lm2 ;
hence lmlt (p1 + p2),R = (lmlt p1,R) + (lmlt p2,R) by A5, FUNCT_1:9; :: thesis: verum