The real number k for which the equation :
`2x^(3)+3x+k=0` has two distinct real roots in [0, 1] :

The number of values of k for which the equation x^(3)-3x+k=0 has two distinct roots lying in the interval (0, 1) is :

The number of values of 'k' for which the equation x^(2) - 3x + k = 0 has two distinct roots lying in the interval (0,1) is :

If the equation x^(2) + 2 (k+3) x +12k=0 has equal roots, then k=

Find the value of k for which the quadratic equations 9x^(2) - 24x+ k=0 has equal roots.

Let S be the set of all non-zero real numbers such that the quadratic equation alphax^2-x+alpha=0 has two distinct real roots x_1a n dx_2 satisfying the inequality |x_1-x_2|<1. Which of the following intervals is (are) a subset (s) of S ?

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

The value of m for which the equation x^(3) + x + 1 = 0 . Has two roots equal in magnitude but opposite in sign, is :

Find all values of the parameter a for which the quadratic equation (a+1)x^(2)+2(a+1)x+a-2=0 (i) has two distinct roots. (ii) has no roots. (iii) has to equal roots.

The real root of the equation x^(3)-6x+9=0 is

The number of real solution of the equation e^(x)+x=0, is