The points of extremum of `phi (x)=int_(1)^(x)e^(-t^(2//2)) (1-t^(2)) dt` are

The poins of extremum of phi(x)=underset(1)overset(x)inte^(-t^(2)//2) (1-t^(2))dt are

According to Leibritz differentiation under the sign of integration can be performed as as below. (i) (d)/(dx)[int_(phi(x))^(Psi(x))f(t)dt]=f{Psi(x)}xx(d)/(dx){Psi(x)}-f{phi(x)}xx(d)/(dx){phi(x)} (ii) (d)/(dx)[int_(phi(x))^(Psi(x))f(x,t)dt]=int_(phi(x))^(Psi(x))(del)/(delx)(f(x,t)dt)+f(x,Psi(x))xx(d)/(dx)Psi(x)-f(x,phi(x))xx(d)/(dx)(phi(x)) The points of maximum of the function f(x)=int_(0)^(x^(2))(t^(2)-5t+4)/(2+e^(t))dt

Find the interval of increase or decrease of the f(x)=int_(-1)^(x)(t^(2)+2t)(t^(2)-1)dt

Let f(x)=int_(1)^(x)(3^(t))/(1+t^(2))dt , where xgt0 , Then

If f(x)=int_(2)^(x)(dt)/(1+t^(4)) , then

Find the value of ln(int_(0)^(1) e^(t^(2)+t)(2t^(2)+t+1)dt)

The points of extremum of underset(0)overset(x^(2))int (t^(2)-5t+4)/(2+e^(t))dt are

The interval in which f(x)=int_(0)^(x){(t+1)(e^(t)-1)(t-2)(t-4)} dt increases and decreases

lim_(x to 0)(int_(0^(x) x e^(t^(2))dt)/(1+x-e^(x)) is equal to

Find the points of minima for f(x)=int_0^x t(t-1)(t-2)dt