Let f be a function that is differentiable everywhere and that has the follwong properties :
(i) `f(x) gt 0`
(ii) `f'(0) = -1`
(iii) `f(-x) = (1)/(f(x))and f(x+h)=f(x).f(h)`
A standard result is `(f'(x))/(f(x))dx = log|f(x)| + C`
Range of f(x) is

Let f be a function that is differentiable everywhere and that has the follwong properties : (i) f(x) gt 0 (ii) f'(0) = -1 (iii) f(-x) = (1)/(f(x))and f(x+h)=f(x).f(h) A standard result is (f'(x))/(f(x))dx = log|f(x)| + C If h(x) = f'(x), then h(x) is given by

Let f be a function that is differentiable everywhere and that has the follwong properties : (i) f(x) gt 0 (ii) f'(0) = -1 (iii) f(-x) = (1)/(f(x))and f(x+h)=f(x).f(h) A standard result is (f'(x))/(f(x))dx = log|f(x)| + C The function y = f(x) is

Let f(x) be a function such that f'(a) ne 0 . Then , at x=a, f(x)

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A function f(x) is differentiable at x=c(c in R). Let g(x)=|f(x)|,f(c)=0 then

Given f(x) = (1)/((1-x)) , g(x) = f{f(x)} and h(x) = f{f{f(x)}}, then the value of f(x) g(x) h(x) is

If f(x) is a differentiable real valued function satisfying f''(x)-3f'(x) gt 3 AA x ge 0 and f'(0)=-1, then f(x)+x AA x gt 0 is

If f(x) is twice differentiable and continuous function in x in [a,b] also f'(x) gt 0 and f ''(x) lt 0 and c in (a,b) then (f(c) - f(a))/(f(b) - f(a)) is greater than