Let L be the set of all lines in a plane...

Let L be the set of all lines in a plane and R be the relation in L defined as `R = {(L _(1), L _(2)) : L _(1)` is perpendicular to `L _(2)` }. Show that R is symmetric but neither reflexive nor transitive.

Topper's Solved these Questions

RELATIONS AND FUNCTIONS
NCERT BANGLISH|Exercise EXERCISE 1.1|16 Videos
RELATIONS AND FUNCTIONS
NCERT BANGLISH|Exercise EXERCISE 1.2|12 Videos
PROBABILITY
NCERT BANGLISH|Exercise MISCELLANEOUS EXERCISE ON CHAPTER 13|19 Videos
VECTOR ALGEBRA
NCERT BANGLISH|Exercise Miscellaneous Exercise on chapter 10|19 Videos

Similar Questions

Explore conceptually related problems

Let A ={1,2,3} be a given set. Define a relation on A which is symmetric but neither reflexive nor transitive on A

Consider the relation bot (perpendicular) on a set L of lines in plane. Show that this relation is symmetric and neither reflexive nor transitive.

Prove that the relation is perpendicular to on the set L of all straight lines in a plane is symmetric but neither reflexive nor transitive on L.

Show that the relation R in the set {1,2,3} given by R = {(1,2), (2,1) is symmetric but neither reflexive nor transitive.

A relation R is defined on the set of natural numbers NN follows : (x,y) in R implies x+y =12 for all x,y in NN Prove that R is symmetric but neither reflexive nor transitive on NN .

Define a relation R on the set A ={a,b,c} which is neither reflexive nor symmetric and transitive.

Let a relation R_1 on the set R of real numbers be defined as (a , b) in R_1 1+a b >0 for all a , b in Rdot Show that R_1 is reflexive and symmetric but not transitive.

A relation R is defined on the set of natural numbers N as follows: R={(x,y)|x,yinN " and " 2x+y=41} . Show that R is neither reflexive nor symmetric nor transitive.

A relation R is defined on the set of natural numbers N as follows: R={(x,y)}|x,y in N and 2x+y=41} show that R is neither reflexive nor symmetric nor transitive.

NCERT BANGLISH-RELATIONS AND FUNCTIONS -MISCLELLANEOUS EXERCISE ON CHAPTER 1

Let L be the set of all lines in a plane and R be the relation in L de...
Text Solution
|
Let f : R to R be defined as f (x) =10 x +7. Find the function g : R t...
Text Solution
|
Let f:Wto W be defined as f (n)=n -1, if n is odd and f (n) =n +1, if ...
Text Solution
|
If f : R to R is defined by f (x) =x ^(2) - 3x + 2, find f (f (x)).
Text Solution
|
Show that the function f : R to R {x in R : -1 lt x lt 1} defined by f...
Text Solution
|
Show that the function f: R to R given by f (x) = x ^(3) is injective...
Text Solution
|
Give examples of two functions f:N to Z and g: Z to Z such that g o f ...
Text Solution
|
Give examples of two functions f : N to N and g : N to N such g o f is...
Text Solution
|
Given a non empty set X, consider P (X) which is the set of all subset...
Text Solution
|
Given a non-empty set X, consider the binary opertion **: P(X) xx P (Y...
Text Solution
|
Find the number of all onto functins from the set {1,2,3..,n} to itsel...
Text Solution
|
Let S = {a,b,c} and T ={1,2,3}. Find F ^(-1) of the following F from S...
Text Solution
|
Show that +:R×R→R and o:R×R→R defined as a∗b=∣a−b∣ and aob=a for all a...
Text Solution
|
Given a non-empty set X, let **: P(X) xx P (X) to P (X) be defined as ...
Text Solution
|
Define a binary opertion ** on the set {0,1,2,3,4,5} as a**b ={{:(a+...
Text Solution
|
Let A = {-1,0,1,2},B= {-4,-2,0,2}and f , g , A to B be functions defin...
Text Solution
|
Let A={1,2,3}. Then the number of relations containing (1,2) and (1,3)...
Text Solution
|
Let A = {1,2,3},B={5,6.7} then find AcapB
Text Solution
|
Let f: R → R be the Signum Function defined as f(x)={ 1, x>0 0, x=0−1,...
Text Solution
|
Number of binary opertions on the set {a,b} are
Text Solution
|