Problem of the Week

Updated at May 20, 2024 12:15 PM

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May 20, 2024

This week's problem comes from the equation category.

How can we solve the equation \(\frac{8{p}^{2}}{2+p}=\frac{72}{5}\)?

Let's begin!

\[\frac{8{p}^{2}}{2+p}=\frac{72}{5}\]

Multiply both sides by \(2+p\).

\[8{p}^{2}=\frac{72}{5}(2+p)\]

Simplify \(\frac{72}{5}(2+p)\) to \(\frac{72(2+p)}{5}\).

\[8{p}^{2}=\frac{72(2+p)}{5}\]

Multiply both sides by \(5\).

\[40{p}^{2}=72(2+p)\]

Expand.

\[40{p}^{2}=144+72p\]

Move all terms to one side.

\[40{p}^{2}-144-72p=0\]

Factor out the common term \(8\).

\[8(5{p}^{2}-18-9p)=0\]

Split the second term in \(5{p}^{2}-18-9p\) into two terms.

\[8(5{p}^{2}+6p-15p-18)=0\]

Factor out common terms in the first two terms, then in the last two terms.

\[8(p(5p+6)-3(5p+6))=0\]

Factor out the common term \(5p+6\).

\[8(5p+6)(p-3)=0\]

Solve for \(p\).

\[p=-\frac{6}{5},3\]

Done

Decimal Form: -1.2, 3