Rational scalar multiplication in Linear transformation using addition property [duplicate] Line

Kiribatiyo2

Kiribatiyo2

Answered question

2022-02-13

Rational scalar multiplication in Linear transformation using addition property [duplicate]
Linear transformation: Map T:VW is said to be Linear transformation when it satisfy property:
1) L(u+v)=L(u)+L(v)u,vV
2) L(cv)=cL(v)cF
I know when cN then property 2 can be obtained from property 1, since
L(nv)=L(v)+L(v)..+L(v) (n times where nN)
Now I have read in somewhere that if our scalar c is rational then property 2 also follows from property 1, but I am unable to prove this. How can I show that if cQ, when (2) follows from (1)?
I know that if our scalar is irrational, then we cannot use property 1 to prove property 2.

Answer & Explanation

Ijezid8t

Ijezid8t

Beginner2022-02-14Added 13 answers

Suppose our scalar c is rational; that is c=pq for some integers p and q. Then, if L satisfies property (1),
L(cv)=L(pqv)=pL(1qv)
by your previous result for integer scalars. On the other hand,
L(v)=L(q1qv)=qL(1qv)
so, multiplying both sides by 1q,
L(1qv)=1qL(v)
returning to our first equation, this gives us that
L(pqv)=pqL(v)
so property (2) follows from property (1).

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