The area bounded by `y = f(x),` x-axis and the line `y = 1,` where `f(x)=1+1/x int_1^xf(t)dt` is

The area bounded by y=f(x), x-axis and the line y=1, where f(x)=1+(1)/(x)int_(1)^(x)f(t)dt is

Find the area bounded by y=x^(2) ,the x- axis and the lines x=-1 and x=1 .

Find the area bounded by y=x^2 , the x- axis and the lines x=-1 and x=1

Area bounded by f(x)=(x^(2)-1)/(x^(2)+1) and the line y = 1 is

Let f(x)=ax^(2)+bx + c , where a in R^(+) and b^(2)-4ac lt 0 . Area bounded by y = f(x) , x-axis and the lines x = 0, x = 1, is equal to :

The area bounded by y=x+1 and y=cos x and the x - axis, is

The area bounded by the curve x = sin^(-1) y , the x-axis and the lines |x| = 1 is

Find the continuous function f where (x^(4)-4x^(2))<=f(x)<=(2x^(2)-x^(3)) such that the area bounded by y=f(x),y=x^(4)-4x^(2) then y-axis,and the line x=t, where (0<=t<=2) is k xx the area bounded by y=f(x),y=2x^(2)-x^(3),y-axis, and line x=t(where0<=t<=2).

The area of the region bounded by the function f(x) = x^(3) , the x-axis and the lines x = -1 and x = 1 is equal to