Let A be any non-empty set. Then, prove ...

Let A be any non-empty set. Then, prove that the identity function on set A is a bijection.

Text Solution

AI Generated Solution

Topper's Solved these Questions

DIRECTION COSINES AND DIRECTION RATIOS
RD SHARMA ENGLISH|Exercise All Questions|90 Videos
HIGHER ORDER DERIVATIVES
RD SHARMA ENGLISH|Exercise All Questions|179 Videos

Similar Questions

Explore conceptually related problems

Let A be a non-empty set and S be the set of all functions from A to itself. Prove that the composition of functions 'o' is a non-commutative binary operation on Sdot Also, prove that 'o' is an associative binary operation on Sdot

Let A be a non-empty set such that AxxB=AxxC . Show that B=C .

Let X be any non-empty set containing n elements, then the number of relations on X is

Let X be a non-empty set and let * be a binary operation on P(X) (the power set of set X) defined by A*B=AuuB for all A ,\ B in P(X) . Prove that * is both commutative and associative on P(X) . Find the identity element with respect to * on P(X) . Also, show that varphi in P(X) is the only invertible element of P(X)dot

Let S be a non- empty set and P (s) be the power set of set S .Find the identity element for all union ⋃ as a binary operation on P( S) .

Let S be a non-empty set and P(s) be the power set of set S. Find the identity element for all union U as a binary operation on P(S)dot

Let S be a non-empty set and P(s) be the power set of set S. Find the identity element for all union () as a binary operation on P(S)dot

Let A be any non zero set more than one elements * is a binary operation on A defined as a* b= a AA a,b in A . Check the commutativity and associativity.

Let A be a finite set containing 3 elements, then the number of functions from A to A is

RD SHARMA ENGLISH-FUNCTION-All Questions

Let A=R-{2} and B=R-{1} . If f: A->B is a mapping defined by f(x)=(...
Text Solution
|
Let A and B be two sets. Show that f: AxxB->BxxA defined by f(a ,\ b)=...
Text Solution
|
Let A be any non-empty set. Then, prove that the identity function on ...
Text Solution
|
Let f: N-{1}->N be defined by, f(n)= the highest prime factor of n ...
Text Solution
|
Let A={1,2} . Find all one-to-one function from A to A.
Text Solution
|
Consider the identity function IN : N->N defined as, IN(x)=x for al...
Text Solution
|
Consider a function f:[0,pi/2]->R given by f(x)=sin x and g:[0,pi/2]->...
Text Solution
|
Let f:X->Y be a function. Define a relation R in X given by R={(a,b):f...
Text Solution
|
Show that the function f: R->{x in R :-1ltxlt1} defined by f(x)=x/(1+...
Text Solution
|
Show that the function f: R->R given by f(x)=x^3+x is a bijection.
Text Solution
|
check that f : N- N defined by f(n)={(n+1)/2,(if n is odd)),(n/2,(if ...
Text Solution
|
Show that the function f: N->N given by, f(n)=n-(-1)^n for all n in N...
Text Solution
|
Let f: Nuu{0}->Nuu{0} be defined by f(n)={n+1,\ if\ n\ i s\ e v e nn-1...
Text Solution
|
Let A be a finite set. If f: A->A is a one-one function, show that ...
Text Solution
|
Let A be a finite set. If f: A->A is an onto function, show that f ...
Text Solution
|
Give an example of a function which is one-one but not onto. whi...
Text Solution
|
Which of the following functions from A to B are one-one and onto? ...
Text Solution
|
Prove that the function f: N->N , defined by f(x)=x^2+x+1 is one-on...
Text Solution
|
Let A={-1,\ 0,\ 1} and f={(x ,\ x^2): x in A} . Show that f: A->A is ...
Text Solution
|
Classify f: N->N given by f(x)=x^2 as injection, surjection or bije...
Text Solution
|