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Question
Let f : W → W be defined as
`f(n)={(n-1, " if n is odd"),(n+1, "if n is even") :}`
Show that f is invertible a nd find the inverse of f. Here, W is the set of all whole
numbers.
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Solution
Let f : W → W be defined as
`f(n)={(n-1, " if n is odd"),(n+1, "if n is even") :}`
We need to prove that 'f' is invertible.
In order to prove that 'f' is invertible it is sufficient to prove that f is a bijection.
A function f: A→B is a one-one function or an injection, if
f(x)=f(y) ⇒ x=y for all x, y ∈ A
Case i:
If x and y are odd.
Let f(x) = f(y)
⇒x − 1 = y − 1
⇒x = y
Case ii:
If x and y are even,
Let f(x) = f(y)
⇒x + 1 = y + 1
⇒x = y
Thus, in both the cases, we have,
f(x) = f(y) ⇒ x = y for all x, y ∈ W.
Hence f is an injection.
Let n be an arbitrary element of W.
If n is an odd whole number, there exists an even whole number n − 1 ∈ W such that
f(n − 1) = n − 1 + 1 = n.
If n is an even whole number, then there exists an odd whole number n + 1 ∈ W such that f(n + 1) = n + 1 − 1 = n.
Also, f(1) = 0 and f(0) = 1
Thus, every element of W (co-domain) has its pre-image in W (domain).
So f is an onto function.
Thus, it is proved that f is an invertible function.
Thus, a function g: B→A which associates each element y ∈ B to a unique element x ∈ A
such that f(x) = y is called the inverse of f.
That is, f(x) = y ⇔ g(y) = x
The inverse of f is generally denoted by f-1.
Now let us find the inverse of f.
Let x, y ∈ W such that f(x) = y
⇒x + 1 = y, if x is even
And
x − 1 = y, if x is odd
`=>x={(y-1, " if y is odd"),(y+1, " if y is even"):}`
`=>f^-1 (y)={(y-1," if y is odd"),(y+1, " if y is even") :}`
Interchange, x and y, we have,
`=>f^(-1) (x)={(x-1," if y is odd"),(x+1, " if y is even") :}`
Rewriting the above we have,
`=>f^(-1) (x)={(x+1, " if y is even") ,(x-1," if y is odd") :}`
Thus f-1(x)=f(x)
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