reconsider f = the carrier of V --> (0. GF) as Function of the carrier of V, the carrier of GF ;
reconsider f = f as Element of Funcs ( the carrier of V, the carrier of GF) by FUNCT_2:8;
f is Linear_Combination of V
proof
reconsider T = {} V as empty finite Subset of V ;
take T ; :: according to VECTSP_6:def 1 :: thesis: for v being Element of V st not v in T holds
f . v = 0. GF
thus for v being Element of V st not v in T holds
f . v = 0. GF by FUNCOP_1:7; :: thesis: verum
end;
then reconsider f = f as Linear_Combination of V ;
take f ; :: thesis: Carrier f = {}
set C = { v where v is Element of V : f . v <> 0. GF } ;
now :: thesis: not { v where v is Element of V : f . v <> 0. GF } <> {}
set x = the Element of { v where v is Element of V : f . v <> 0. GF } ;
assume { v where v is Element of V : f . v <> 0. GF } <> {} ; :: thesis: contradiction
then the Element of { v where v is Element of V : f . v <> 0. GF } in { v where v is Element of V : f . v <> 0. GF } ;
then ex v being Element of V st
( the Element of { v where v is Element of V : f . v <> 0. GF } = v & f . v <> 0. GF ) ;
hence contradiction by FUNCOP_1:7; :: thesis: verum
end;
hence Carrier f = {} ; :: thesis: verum