Let g(t) = underset(x(1))overset(x(2))in...

Let `g(t) = underset(x_(1))overset(x_(2))intf(t,x) dx`. Then `g'(t) = underset(x_(1))overset(x_(2))int(del)/(delt) (f(t,x))dx`, Consider `f(x) = underset(0)overset(pi)int (ln(1+xcostheta))/(costheta) d theta`.
The number of critical point of `f(x)`, in the interior of its domain, is

discontinuous at `x = 0`

differentiable at `x = 1`

continuous at `x = 0`

none of these

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B, C

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Let `g(t) = underset(x_(1))overset(x_(2))intf(t,x) dx`. Then `g'(t) = underset(x_(1))overset(x_(2))int(del)/(delt) (f(t,x))dx`, Consider `f(x) = underset(0)overset(pi)int (ln(1+xcostheta))/(costheta) d theta`. The number of critical point of `f(x)`, in the interior of its domain, is

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RESONANCE-DEFINITE INTEGRATION & ITS APPLICATION -Exercise 2 Part - IV

Let `g(t) = underset(x_(1))overset(x_(2))intf(t,x) dx`. Then `g'(t) = underset(x_(1))overset(x_(2))int(del)/(delt) (f(t,x))dx`, Consider `f(x) = underset(0)overset(pi)int (ln(1+xcostheta))/(costheta) d theta`.
The number of critical point of `f(x)`, in the interior of its domain, is