Relation R defines on the set of natural numbers N such that `R={(a, b): a` is divisible by `b}`, then show that R is reflexive and transitive but not symmetric.

Relation R defines on the set of natural numbers N such that R={(a,b):a is divisible by b}, than show that R is reflexive and transitive but not symmetric.

Let S be the set of all real numbers and let R be a relation in s, defined by R={(a,b):aleb}. Show that R is reflexive and transitive but not symmetric .

The relation R is defined on the set of natural numbers as {(a,b): a = 2b}, the R^(-1) is given by

Let N be the set of all natural numbers and let R be relation in N. Defined by R={(a,b):"a is a multiple of b"}. show that R is reflexive transitive but not symmetric .

Let N be the set of all natural niumbers and let R be a relation in N , defined by R={(a,b):a" is a factor of b"}. then , show that R is reflexive and transitive but not symmetric .

The relation R, in the set of real number defined as R = {(a,b): a lt b} is:

Show that the relation geq on the set R of all real numbers is reflexive and transitive but not symmetric.

Show that the divisibility relation in the set of positive integers is reflexive and transitive,but not symmetric.

The relation S defined on the set R of all real number by the rule a\ S b iff ageqb is (a) equivalence relation (b)reflexive, transitive but not symmetric (c)symmetric, transitive but not reflexive (d) neither transitive nor reflexive but symmetric

Show that the relation >= on the set R of all real numbers is reflexive and transitive but nut symmetric.