Let `f(x)=int_1^xsqrt(2-t^2)dtdot` Then the real roots of the equation , `x^2-f^(prime)(x)=0` are:

Fundamental theorem of definite integral : f(x)=int_(1)^(x)sqrt(2-t^(2))dt then real roots of the equation x^(2)-f'(x)=0 are ……….

The sum of all the real roots of the equation |x-2|^2+|x-2|-2=0 is

The number of real roots of the equation |x|^(2) -3|x| + 2 = 0 , is

Let f(x)= sqrt(1+x^(2)) then,

Let a , b , c be nonzero real numbers such that int_0^1(1+cos^8x)(a x^2+b x+c)dx =int_0^2(1+cos^8x)(a x^2+b x+c)dx=0 Then show that the equation a x^2+b x+c=0 will have one root between 0 and 1 and other root between 1 and 2.

If f(x)=x^(3)-12x+p,p in {1,2,3,…,15} and for each 'p', the number of real roots of equation f(x)=0 is denoted by theta , the 1/5 sum theta is equal to ……….. .

If f(x)=(x^(4)+x^(2)+1)/(x^(2)-x+1) , the value of f(omega^(n)) (where 'omega' is the non-real root of the equation z^(3)=1 and 'n' is a multiple of 3), is ……….. .

Let f(x)=x^(2)+bx+c and g(x)=x^(2)+b_(1)x+c_(1) Let the real roots of f(x)=0 be alpha, beta and real roots of g(x)=0 be alpha +k, beta+k fro same constant k . The least value fo f(x) is -1/4 and least value of g(x) occurs at x=7/2 The roots of g(x)=0 are

f(x)=int(2-(1)/(1+x^(2))-(1)/(sqrt(1+x^(2))))dx then f is …………

Consider the function f(x)=1+2x+3x^2+4x^3 Let the sum of all distinct real roots of f (x) and let t= |s| The function f(x) is