Let `R_(1)` be a relation defined by
`R_(1)={(a,b)|agtb,a,b in R}`. Then `R_(1)` , is

Let R_(1) be a relation defined by R_(1)={(ab)|ageb,a,bepsilonR} . Then R_(1) is

Let R be a relation defined by R={(a,b):a>=b,a,b in R}. The relation R is (a) reflexive,symmetric and transitive (b) reflexive,transitive but not symmetric ( d) symmetric,transitive but not reflexive (d) neither transitive nor reflexive but symmetric

Let R_(1) and R_(2) be two relation defined as follows : R_(1) = { (a,b) in R^(2) , a^(2) + b^(2) in Q} and R_(2) = {(a,b) in R^(2) , a^(2) + b^(2) cancel(in)Q) where Q is the set of the rational numbers. Then:

Let R be a relation defined on A={1,2,3} by : R={(1,3),(3,1),(2,2)} . R is :

Let R be the relation on Z defined by R={(a,b):a,b in Z,a-b is an integer }. Find the domain and range of R.

Let R be a relation defined by R = {(a, b) : a ge b }, where a and b are real numbers, then R is

Let R be a relation on Z defined by : R = {(a,b) : a in Z , b in Z, a^(2) = b^(2)} . Then range of R = _____.

Let A={1,2,3,5,6} and B={1,6,7,8} . Let R be a relation from A to B is defined as R=((a,b):a>b,a in A and b in B} .Then the number of elements in R is