Quadratics Factorising Methods (Edexcel GCSE Maths)

Factorise  $-8x^2+100x-48$.

 
Spot the common factor of -4 and put outside a set of brackets, work out the terms inside the brackets by dividing the terms in the original expression by -4.

$-8x^2+100x-48=-4\left(2x^2-25x+12\right)$

Check the discriminant for the expression inside the brackets, $\left(b^2-4ac\right)$, to see if it will factorise.

$\begin{array}{rcl}& & {\left(-25\right)}^2-4\times 2\times 12\\ & =& 625-96\\ & =& 529\end{array}$

$529={23}^2$, it is a perfect square so the expression will factorise.

Proceed with factorising $2x^2-25x+12$ as you would for a harder quadratic, where $a\ne 1$.
"+12" means the signs will be the same.
"-25" means that both signs will be negative.

$a\times c=2\times 12=24$

The only numbers which multiply to give 24 and follow the rules for the signs above are:
$\left(-1\right)\times \left(-24\right)$ and $\left(-2\right)\times \left(-12\right)$and $\left(-3\right)\times \left(-8\right)$ and $\left(-4\right)\times \left(-6\right)$
but only the first pair add to give $-25$.

Split the $-25x$ term into $-24x-x$.

$\begin{array}{rcl}& & 2x^2-24x-x+12\end{array}$

Group and factorise the first two terms, using $2x$ as the highest common factor and group and factorise the last two terms using $1$ as the highest common factor.

$\begin{array}{rcl}& & 2x\left(x-12\right)+1\left(x-12\right)\end{array}$

These factorised terms now have a common term of $\left(x-12\right)$, so this can now be factorised out.

$\left(2x+1\right)\left(x-12\right)$

Put it all together.

$-8x^2+100x-48=-4\left(2x^2-25x+12\right)=-4\left(2x-1\right)\left(x-12\right)$

$\mathbf{-}\mathbf{4}\mathbf{(}\mathbf{2}\mathit{x}\mathbf{-}\mathbf{1}\mathbf{)}\mathbf{(}\mathit{x}\mathbf{-}\mathbf{12}\mathbf{)}$