6.50 to the nearest hundredth (4.685 & 1.815)
The roots of the equation are [5 +/- sqrt(11)]/2 = 4.158 and 0.842
The discriminant is -27 and so there are no real roots.
The discriminant of the equation ... (b2-4ac) = (225-160) ... is real and positive, so the roots are real and unequal.
x = 2 and x = 4
You should be able to look at this equation, or use the discriminant and know that there are no real roots.
The roots are: x = -5 and x = -9
This quadratic equation has no real roots because its discriminant is less than zero.
It has roots x = 2.618 and x = 0.38197
There are no real root. The complex roots are: [-5 +/- sqrt(-3)] / 2
The roots of the equation are [5 +/- sqrt(11)]/2 = 4.158 and 0.842
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.
The discriminant of the equation ... (b2-4ac) = (225-160) ... is real and positive, so the roots are real and unequal.
The discriminant is -27 and so there are no real roots.
x = 2 and x = 4
You should be able to look at this equation, or use the discriminant and know that there are no real roots.
It is a quadratic equation in X, with two real roots.
You don't have an equation there.