The relation R is defined on the set of natural numbers N as x is a factor of y where x, y`in`N. Then R is -

The relation R defined on the set N N of natural numbers by xRy iff 2x^(2) -3xy +y^(2) =0 is

Let R be the relation defined on the set of natural numbers N as R {(x,y):x in N , y in N , 2x + y = 41) whether R is

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.

Let 'R' be the relation defined on the of natural numbers 'N' as , R={(x,y):x+y=6} ,where x, y in N then range of the relation R is

A relation R is defined on the set of natural numbers N N as follows R = {(x,y) : x,y in N N and x+3y=12} Show that R is transitive and antisymmetric but neither reflexive nor symmetric on N N .

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.

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

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.

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.