Let R be a relation defined on the set ...

Let `R` be a relation defined on the set of natural numbers N as `R={(x , y): x , y in N ,2x+y=41}` Find the domain and range of R. Also, verify whether R is (i) reflexive, (ii) symmetric (iii) transitive.

reflexive

symmetric

transitive

none of these

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

CARTESIAN PRODUCT OF SETS AND RELATIONS
OBJECTIVE RD SHARMA ENGLISH|Exercise Chapter Test|30 Videos
CARTESIAN PRODUCT OF SETS AND RELATIONS
OBJECTIVE RD SHARMA ENGLISH|Exercise Section II - Assertion Reason Type|6 Videos
AREAS OF BOUNDED REGIONS
OBJECTIVE RD SHARMA ENGLISH|Exercise Chapter Test|60 Videos
CIRCLES
OBJECTIVE RD SHARMA ENGLISH|Exercise Chapter Test|53 Videos

Similar Questions

Explore conceptually related problems

Let R be a relation defined on the set of natural numbers N as follows: R= {(x,y): x in N, y in N and 2x + y = 24} . Find the domain and range of the relation R. Also, find if R is an equivalence relation or not.

If R={(x,y): x,y in W, x ^(2)+y^(2)=25} , then find the domain and range of R.

A relation R defined on the set of natural numbers N by R={(x,y):x,yinN and x+3y=12} . Verify is R reflexive on N?

Let R be the relation defined on the set N of natural numbers by the rule xRy iff x + 2y = 8, then domain of R is

If R={(x,y): x,y in W, x ^(2)+y^(2)=25} , then find the domain and range or R.

Let R be a relation defined on the set of natural numbers as: R={(x,y): y=3x, y in N} Is R a function from N to N? If yes find its domain, co-domain and range.

R={(b , c)} is defined on set A={a ,\ b ,\ c} . Find whether or not it is (i) reflexive (ii) symmetric (iii) transitive.

If R = {(x,y): x, y in W, x^(2) + y^(2) = 25} , then find the domain and range of R .

If set A= {1,2,3,4} and a relation R is defined from A to A as follows: R={(x,y): x gt 1 , y=3} Find the domain and range of R.

Define a relation R on the set N of all natural numbers by R = {(x, y) : y = x + 5, x is a natural number less than 4)

OBJECTIVE RD SHARMA ENGLISH-CARTESIAN PRODUCT OF SETS AND RELATIONS -Exercise

Let P={(x,y)|x^(2)+y^(2)=1, x,y in R}. Then, P is
Text Solution
|
Let R = {(a, a)} be a relation on a set A.Then R is
Text Solution
|
Which one of the following relations on R is an equivalence relation?
Text Solution
|
Let X be a family of sets and R be a relation on X defined by A is dis...
Text Solution
|
If R is an equivalence relation on a set A, then R^-1 is
Text Solution
|
Let R and S be two non-void relations on a set A. Which of the followi...
Text Solution
|
If R be a relation lt from A = {1, 2, 3, 4} to B = {1, 3, 5}, i.e. (a,...
Text Solution
|
If R is a relation from a set A to a set B and S is a relation from B ...
Text Solution
|
If R sub A xx B and S sub B xx C be two relations, then (SoR)^-1 =
Text Solution
|
In the set A = {1, 2, 3, 4, 5}, a relation R is defined by R = {(x, y)...
Text Solution
|
Let A = {p, q, r}. Which of the following is not an equivalence relati...
Text Solution
|
In order that a relation R defined on a non-empty set A is an equivale...
Text Solution
|
Let R be a relation on the set N of natural numbers defined by n\ R\ m...
Text Solution
|
Let R and S be two non-void relations on a set A. Which of the followi...
Text Solution
|
Let R be a relation defined on the set of natural numbers N as R={(...
Text Solution
|
Let L be the set of all straight lines in the Euclidean plane. Two lin...
Text Solution
|
For real numbers x and y , define x\ R\ y iff x-y+sqrt(2) is an irrati...
Text Solution
|
Let X = {1, 2, 3, 4} and Y = {1, 3, 5, 7,9}. Which of the following is...
Text Solution
|
Let n be a fixed positive integer. Define a relation R on Z as follows...
Text Solution
|
Let L denote the set of all straight lines in a plane. Let a relation ...
Text Solution
|