Statement I f(x) = |x| sin x is differentiable at x = 0.
Statement II If g(x) is not differentiable at x = a and h(x) is differentiable at x = a, then g(x).h(x) cannot be differentiable at x = a

Show that f(x) = |x| sin x is differentiable at x=0.

f(x)= x^(3) sgn(x). Show that f(x) is differentiable at x=0.

If f(x)= int_(0)^(x)(f(t))^(2) dt, f:R rarr R be differentiable function and f(g(x)) is differentiable at x=a , then

Let g(x) be the inverse of an invertible function f(x), which is differentiable for all x, then g''f(x) is equal to

Differentiate the functions x^(x)-2^(sin x)

Let h(x) = min {x, x^2} , for every real number of X. Then (A) h is continuous for all x (B) h is differentiable for all x (C) h^'(x) = 1, for all x > 1 (D) h is not differentiable at two values of x

Differentiate the functions (log x)^(cos x)

Differentiate (sin x)^(cos x)

The function g(x) = {{:(x+b",",x lt 0),(cos x",",x ge 0):} can be made differentiable at x = 0.