Answer with Step-by-step explanation:
Suppose T is one-one
Let S be a linearly independent subset of V
We want to show that T(S) is linearly independent.
Suppose T(S) is linearly dependent.
Then there exist [tex]v_1,v_2,...v_n\in S[/tex] and some not all zero scalars [tex]a_1,a_2,....a_n[/tex] such that
[tex]a_1T(v_1)+a_2T(v_2)+a_3T(v_3)+...+a_nT(v_n)=0[/tex]
T is linear therefore,
[tex]T(a_1v_1+a_2v_2+..+a_nv_n)=0[/tex]
T is one-one therefore
N(T)=0
[tex]a_v_1+....+a_nv_n=0[/tex]
S is linearly independent therefore,
[tex]a_1=a_2=...a_n=0[/tex]
It is contradiction.Hence, T(S) is linearly independent.
Conversely, Suppose that T carries linearly independent subset of V onto linearly independent subsets of W.
Assume that T(x)=0 if the set x is linearly independent
Then, by assumption we conclude that {0} is linearly independent but {0} is linearly dependent.
It is contradiction .Hence, the set {x} is linearly dependent which implies that x=0
It means N(T)={0}.Therefore, T is one- one
