Quadratic equation: Difference between revisions

The quadratic equation is a formula for finding the roots of a second-degree polynomial. Any second-degree polynomial in the variable ${\displaystyle x}$ will be of the form

${\displaystyle ax^{2}+bx+c}$

where ${\displaystyle a}$, ${\displaystyle b}$, and ${\displaystyle c}$ are real constants and ${\displaystyle a}$ is not zero (if it was, the polynomial would only be first-degree). The roots of the polynomial are the particular values of ${\displaystyle x}$ for which the polynomial equals zero. The Fundamental Theorem of Algebra tells us that we should expect there to be two roots for a second-degree polynomial, although they might be equal in some cases. If we call the roots ${\displaystyle x_{+}}$ and ${\displaystyle x_{-}}$ then what we are saying is that

${\displaystyle ax_{\pm }^{2}+bx_{\pm }+c=0\ .}$

This is where the quadratic equation comes in. It tells us that the solutions ${\displaystyle x_{+}}$ and ${\displaystyle x_{-}}$ can always be found from the equation

${\displaystyle x_{\pm }={\frac {-b\pm {\sqrt {b^{2}-4ac}}}{2a}}\ .}$

Proof

The simplest way to show that the values ${\displaystyle x_{\pm }}$ are in fact roots to the polynomial above is to substitute them into the equation

${\displaystyle {\begin{aligned}ax_{\pm }^{2}+bx_{\pm }+c&=a\left({\frac {-b\pm {\sqrt {b^{2}-4ac}}}{2a}}\right)^{2}+b{\frac {-b\pm {\sqrt {b^{2}-4ac}}}{2a}}+c\\&={\frac {1}{4a}}\left(b^{2}\pm 2b{\sqrt {b^{2}-4ac}}+b^{2}-4ac\right)-{\frac {b^{2}\pm b{\sqrt {b^{2}-4ac}}}{2a}}+c\\&={\frac {b^{2}\pm b{\sqrt {b^{2}-4ac}}}{2a}}-c-{\frac {b^{2}\pm b{\sqrt {b^{2}-4ac}}}{2a}}+c\\&=0\ ,\end{aligned}}}$

as desired.