Let f be a real valued function satisfying f (ab) = f (a) + f(b), f' (1) = - 3 find the area bounded by y = f (x) and the coordinate axes.

Let y=f (x) be a real valued function satisfying x (dy)/(dx) =x ^(2) +y-2, f (1)=1, then :

Let f be a real valued function, satisfying f (x+y) =f (x) f (y) for all a,y in R Such that, f (1_ =a. Then , f (x) =

Let f be a real-valued function defined by f(x) = 3x^(2) + 2x + 5 Find f(1).

f(x) is a real valued function, satisfying f(x+y)+f(x-y)=2f(x).f(y) for all yinR , Then

Let f be a one-one function satisfying f'(x)=f(x) then (f^(-1))''(x) is equal to

Let f be a real valued function satisfying f(x+y)=f(x)+f(y) for all x, y in R and f(1)=2 . Then sum_(k=1)^(n)f(k)=

Let f be a real valued function satisfying f(x)+f(x+6)=f(x+3)+f(x+9).Then int_x^(x+12)f(t)dt is

Let f(x) be continuous function such that f(0)=1,f(x)-f((x)/(7))=(x)/(7)AA x in R. The area bounded by the curve y=f(x) and the coordinate axes is

Le the be a real valued functions satisfying f(x+1) + f(x-1) = 2 f(x) for all x, y in R and f(0) = 0 , then for any n in N , f(n) =