Let `f: X rarr Y` be a function defined by f(x) = a sin ( x +`pi/4`) + c. If f is both one-one and onto, then find the set X and Y

Let f: X rarr Y be a function defined by f(x) = a sin ( x + pi/4 ) + b cosx + c. If f is both one-one and onto, then find the set X and Y

Let f: X rarr Y be a function defined by f(x) = a sin ( x + pi/4 ) + b cosx + c. If f is both one-one and onto, then find the set X and Y

Let f: XtoY be a function defined by f(x) =asin(x+(pi)/4) + bcosx + c. If f is both one-one and onto, find set X and Y.

Let f:XtoY be a function defined by f(x)=asin(x+pi/4)+bcosx+c . If f is both one-one and onto, find sets X and Y.

Let f:(-1,1)rarr B be a function defined by f(x)=tan^(-1)((2x)/(1-x^(2))). Then f is both one- one and onto when B is the interval

Let a function f:R rarr R be defined by f(x) = 3 - 4x Prove that f is one-one and onto.

Let f:R rarr B , be a function defined f(x)=tan^(-1).(2x)/(sqrt3(1+x^(2))) , then f is both one - one and onto when B, is the interval

Let f:R rarr B , be a function defined f(x)=tan^(-1).(2x)/(sqrt3(1+x^(2))) , then f is both one - one and onto when B, is the interval

A function f : R rarr R is defined by f(x) = 4x^3 +5, x in R examine if f is one-one and onto.

Let f:[-1,1] rArr B be a function defined as f(x)=cot^(-1)(cot((2x)/(sqrt3(1+x^(2))))) . If f is both one - one and onto, then B is the interval