If `R _(1) and R _(2)` are equivalence rrelations in a set A show that `R _(1) nn R _(2)` is also an equivalence relation.

R_1 and R_2 are two equivalence relation defined on set A(ne phi) . Show that R_1capR_2 is an equivalence relation.

Consider the following relations: R = {(x, y) | x, y are real numbers and x = wy for some rational number w}; S={(m/n , p/q)"m , n , pandqa r ei n t e g e r ss u c ht h a tn ,q"!="0andq m = p n"} . Then (1) neither R nor S is an equivalence relation (2) S is an equivalence relation but R is not an equivalence relation (3) R and S both are equivalence relations (4) R is an equivalence relation but S is not an equivalence relation

Show that the relation R in the set Z of intergers given by R ={(a,b):2 divides a-b } is an equivalence relation.

Which one of the following relations on R is an equivalence relation?

In the set of integers Z, which of the following relation R is not an equivalence relation ?

If R and R' are symmetric relations (not disjoint ) on a set A then the relation R cap R' is not

Show that the relation R on the set A={1,2,3,4,5} given by R={(a,b):|a-b| is even} is an equivalence relation.

Prove that the relation R in set A = {1, 2, 3, 4, 5} given by R = {(a,b): |a-b| is even} is an equivalence relation .

Show that number of equivalence relation in the set {1,2,3} containing (1,2) and (2,1) is two.