The solution of `(dy)/(dx)+yf'(x)-f(x).f'(x)=0,y!=f(x)` is

If a function satisfies the relation f(x) f''(x)-f(x)f'(x)=(f'(x))^(2) AA x in R and f(0)=f'(0)=1, then The value of underset(x to -oo)(lim)f(x) is

If for all x,y the function f is defined by f(x)+f(y)+f(x).f(y)=1 andf(x)gt0. Then show f'(x)=0 when f'(x)=0 is differentiable.

f(x) is a continuous and differentiable function. f'(x) ne 0 and |{:(f'(x),f(x)),(f''(x),f'(x)):}|=0 . If f(0)=1 and f'(0)=2 then f(x)=....

The function f(x) satisfying the equation f^2 (x) + 4 f'(x) f(x) + (f'(x))^2 = 0

A function f: R rarr R satisfies the equation f(x+ y)= f(x).f(y) "for all" x, y in R, f(x) ne 0 . Suppose that the function is differentiable at x=0 and f'(0)=2, then prove that f'(x)= 2f(x)

A function f : R rarr R satisfies the equation f(x + y) = f(x) . f(y) for all, f(x) ne 0 . Suppose that the function is differentiable at x = 0 and f'(0) = 2. Then,

A function y = f(x) satisfies the condition f(x+(1)/x) =x^(2)+1/(x^2)(x ne 0) then f(x) = ........

A function f:R->R satisfies the relation f((x+y)/3)=1/3|f(x)+f(y)+f(0)| for all x,y in R. If f'(0) exists, prove that f'(x) exists for all x, in R.

The function f(x)=x^(2)f(1)-xf'(2)+f''(3) such that f(0)=2 . The equation of tangent to y=f(x) at x = 3 is …………

Differential equation (dy)/(dx)=f(x)g(x) can be solved by separating variable (dy)/g(y)=f(x)dx. Solution of the differential equation (dy)/(dx)+(1+y^(2))/(sqrt(1-x^(2)))=0 is