It has roots x = 2.618 and x = 0.38197
This quadratic equation has no real roots because its discriminant is less than zero.
The roots are: x = -5 and x = -9
No real roots
There are no real root. The complex roots are: [-5 +/- sqrt(-3)] / 2
A quadratic equation has two roots. They may be similar or dissimilar. As the highest power of a quadratic equation is 2 , there are 2 roots. Similarly, in the cubic equation, the highest power is 3, so it has three equal or unequal roots. So the highest power of an equation is the answer to the no of roots of that particular equation.
The discriminant of the equation ... (b2-4ac) = (225-160) ... is real and positive, so the roots are real and unequal.
-4,3 are the roots of this equation, so for the values for which the sum of roots is 1 & product is -12
There are 2 roots to the equation x2-4x-32 equals 0; factored it is (x-8)(x+4); therefore the roots are 8 & -4.
They are called the solutions or roots of the equations.
The product of the roots of the equation 2x2 -x -2 = 2 is 2x2 -x -2 = 2.
The roots of an equation in two variables is calculated by setting the dependent variable, y, equal to 0 and then solving the resulting equation for the independent variable, x. The procedure for solving the equation in x will depend on the nature of the equation.
This quadratic equation has no real roots because its discriminant is less than zero.
The roots are: x = -5 and x = -9
The roots of the equation are [5 +/- sqrt(11)]/2 = 4.158 and 0.842
No real roots
2x2 -3x - 4 = 0 use the qudratic equation and your answers are 1.137458609 and -2.637458609
If you mean b^2 -4ac then it is the discriminant of a quadratic equation. If the discriminant equals 0 then the equation has 2 equal roots. If the discriminant is greater than 0 then the equation has 2 different roots. If the discriminant is less than 0 then it has no real roots.