let F be Field; :: thesis: for V, W being VectSp of F
for T being linear-transformation of V,W
for X being Subset of V
for l being Linear_Combination of T .: X
for v being Element of V st v in X & T | X is one-to-one holds
(T # l) . v = l . (T . v)
let V, W be VectSp of F; :: thesis: for T being linear-transformation of V,W
for X being Subset of V
for l being Linear_Combination of T .: X
for v being Element of V st v in X & T | X is one-to-one holds
(T # l) . v = l . (T . v)
let T be linear-transformation of V,W; :: thesis: for X being Subset of V
for l being Linear_Combination of T .: X
for v being Element of V st v in X & T | X is one-to-one holds
(T # l) . v = l . (T . v)
let X be Subset of V; :: thesis: for l being Linear_Combination of T .: X
for v being Element of V st v in X & T | X is one-to-one holds
(T # l) . v = l . (T . v)
let l be Linear_Combination of T .: X; :: thesis: for v being Element of V st v in X & T | X is one-to-one holds
(T # l) . v = l . (T . v)
let v be Element of V; :: thesis: ( v in X & T | X is one-to-one implies (T # l) . v = l . (T . v) )
assume ( v in X & T | X is one-to-one ) ; :: thesis: (T # l) . v = l . (T . v)
then ( not v in dom ((V \ X) --> (0. F)) & T # l = (l * T) +* ((V \ X) --> (0. F)) ) by Def6, XBOOLE_0:def 5;
then A1: (T # l) . v = (l * T) . v by FUNCT_4:11;
dom T = [#] V by Th7;
hence (T # l) . v = l . (T . v) by A1, FUNCT_1:13; :: thesis: verum