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Relations and Functions

Short Answer Type

361. how that f : A → B and g : B → C are onto, then g of : A → C is also onto.

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362. Let f : X → Y be an invertible function. Show that f has unique inverse.

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363.

Let f : x → Y be an invertible function. Show that the inverse of f^–1 is f,

i.e.(f^–1)^–1 = f.

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364. If f : R → R defined as

straight f left parenthesis straight x right parenthesis equals fraction numerator 2 straight x minus 7 over denominator 4 end fraction

is an invertible function, find f^–1.

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365.

Let f : N → Y be function defined as f (x) = 4 x + 3, where, Y = {y ∈N : y = 4 x + 3 for some x ∈ N}. Show that f is invertible. Find the inverse.

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366. Let Y = { n² : n ∈ N} ⊂ N. Consider f : N → Y as f(n) = n². Show that f is invertible. Find the inverse of f.

Y = {n² : n ∈N}
f : N → Y where f (n) = n²We define a function :

g : Y $rightwards arrow$ N, defined by g(y) = $square root of straight y$
Now (g o f ) (n) = g (n) = g (n²) = $square root of straight n squared end root equals n$
and (f o g) (y) = f (g(y)) = $straight f left parenthesis square root of straight y right parenthesis end root equals left parenthesis square root of straight y right parenthesis squared equals straight y$
$therefore$ g o d = 1_N and f o g = 1_y
$therefore$ f is invertible with f^-1 = g.

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367.

Let R be the relation in the set N given by R = {(a, b) : a = b – 2, b > 6}. Choose the correct answer. (A) (2, 4) ∈ R (B) (3, 8) ∈ R (C) (6, 8) ∈ R (D) (8, 7) ∈ R

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368.

Show that the function f : R_. → R_. defined by $straight f left parenthesis straight x right parenthesis equals 1 over straight x$ is one-one and onto, where R_. is the set of all non-zero real numbers. Is the result true, if the domain R_. is replaced by N with co-domain being same as R_.?

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369.

Check the injectivity and surjectivity of the following functions:
f : N → N given by f(x) = x²

114 Views

370.

Check the injectivity and surjectivity of the following functions:
f : Z → Z given by f(x) = x²

122 Views

Previous Year Papers

Test Series

Test Yourself

Short Answer Type

366. Let Y = { n2 : n ∈ N} ⊂ N. Consider f : N → Y as f(n) = n2. Show that f is invertible. Find the inverse of f.

366. Let Y = { n² : n ∈ N} ⊂ N. Consider f : N → Y as f(n) = n². Show that f is invertible. Find the inverse of f.