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

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

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

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

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

Show that the relation ‘is a factor of’ on the set N of all natural numbers is reflexive and transitive but not symmetric.

Show that the relation is a subset of on the set of all sets is reflexive and transitive but not symmetric on S.

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

Show that the relation ‘>’ on the set R of all real numbers is transitive but it is neither reflexive nor symmetric.

Show that the relation ' gt ' on the set R of all real numbers is transitive but it is neither reflexive nor symmetric.

Prove that the relation in the set N of natural numbers defined as R = {(a,b) ≤ b} is reflexive and transitive but not symmetric.