Let `A=R-{3},B=R-{1} " and " f:A rarr B` defined by `f(x)=(x-2)/(x-3)`. Is 'f' bijective? Give reasons.

Let A=R-{3} and B=R-{1} . Consider the function f:A–>B . defined by f(x)= (x-2)/(x-3) Is f one one or Onto? Justify your answer

Let A =R-{3} and B=R-{1} . Consider the function f : A to B defined by f(x) = ((x-2)/(x-3)) . Is f one-one and onto? Justify your answer.

Let A = IR- {3}, B = IR - {1} and let f: A to B be defined by f(x) = ( x- 2)/(x - 3) .Then which of the following is not true?

Let A= R-{3}" and "B= R-{1} . Consider the function f : A to B defined by f(x)= (x-2)/(x-3) . Then f is………..

Let A = R- {3} and B = R- {1}. If f: ArarrB is a function defined by f(x)= (x-2)/(x-3) show that f is one -one and onto, hence find f^(-1) .

Let A = R - (3), B = R = (1). Let f: A rarr B be defined by: f(x) = (x-2)/(x-3) AA x in A .Then show that 'f' is bijective. If the mappings f and g are given by : f=(1,2),(3,5),(4,1) and g = (2,3),(5,1),(1,3) write fog.

Let f : R rarr R be defined by f(x) = cos (5x+2). Is f invertible? Justify your answer.

If f:R rarr R defined by f (x )= 2x^3 – 7 , show that fis a bijection.

Let f : R - (3/5) rarr R be defined by f(X) = (3x+2)/(5x-3) , then

Let f:R rarr R defined by f(x)=(x^(2))/(1+x^(2)) . Proved that f is neither injective nor surjective.