Let `f: (0,1) to R` be defined by `f(x)=(b-x)/(1-bx)` where b is a constant such that `0 lt b lt 1` Then:

Let f:(0,1)rarr R be defined by f(x)=(b-x)/(1-bx), where b is constant such that 0

Let f: R to R be defined by f(x) =x/(x+1), x ne -1 If a,b in R and ab ne 0, f (a/b) + f(b/a) and a+b ne 0 is equal to

Prove that f: (-1,1) rarr R defined by: f(x) = {((x)/(1+x),-1 lt x lt 0),(0,x= 0),((x)/(1-x),0 lt x lt 1):} is bijective. Prove that f is one -one onto

Let f (x) be function defined on [0,1] such that f (1)=0 and for any a in (0,1], int _(0)^(a) f (x) dx - int _(a)^(1) f (x) dx =2 f (a) +3a +b where b is constant. The length of the subtangent of the curve y= f (x ) at x=1//2 is:

Let the function f;R-{-b}rarr R-{1} be defined by f(x)=(x+a)/(x+b),a!=b, then

Let f:R to R be a function defined as f(x)={{:(5,"if" x le 1),(a+bx , "if" 1 lt x lt 3),(b+5x , "if" 3 le x lt 5),(30 , "if" x ge 5):} then f is

If f: R->R : x!=0,\ -4lt=xlt=4 and f: A->A be defined by f(x)=(|x|)/x for x in A . Then A is {1,-1} b. {x :0lt=xlt=4} c. {1} d. {x :-4lt=xlt=0}