Question

How do you find the zeros, if any, of `y=x^2-3x+1` using the quadratic formula?

Answer 1

The solutions are `\frac{3pmsqrt(5)}{2}`

Explanation:

Given a quadratic equation

`ax^2+bx+c=0`

the quadratic formula states that the solutions, if any, are

`x_{1,2} = \frac{-b\pm\sqrt{b^2-4ac}}{2a}`

The quantity `\Delta = b^2-4ac` is called Determinant, and you can tell the number of solutions by its sign:

1. If `Delta>0`, then the square root is well defined and not null, so you have two solutions.
2. If `Delta=0`, the square root is zero as well. So, adding or subtracting it makes no difference, and you have two coincident solutions.
3. If `Delta < 0`, the square root is not defined, and you have no solutions (at least using real numbers).

In your case, `a=1`,`b=-3` and `c=1`. So, you have

`Delta = (-3)^2 - 4 * 1 * 1 = 9-4 = 5`, so you have two solutions, namely

`x_{1,2} = \frac{-(-3)\pm\sqrt{5}}{2*1} = \frac{3pmsqrt(5)}{2}`