Word Problems: Inverse Variation

Example 1:

The volume $V$ of a gas varies inversely as the pressure $P$ on it. If the volume is $240{\text{cm}}^3$ under pressure of $30\text{kg}/{\text{cm}}^2$ , what pressure has to be applied to have a volume of $160{\text{cm}}^3$ ?

The volume $V$ varies inversely as the pressure $P$ means when the volume increases, the pressure decreases and when the volume decreases, the pressure increases.

Now write the formula for inverse variation.

$\text{PV}=$ $k$

Substitute $240$ for $V$ $30$ for $P$ in the formula and find the constant

$\left(240\right)\left(30\right)=k$

$7200=k$

Now write an equation and solve for the unknown.

We have to find the pressure when the volume is $160{\text{cm}}^3$ .

So,

$\left(160\right)\left(P\right)=7200$ .

Solve for $P$ .

$\begin{array}{l}P=\frac{7200}{160}\\ =45\end{array}$

Therefore, pressure $45\text{kg}/{\text{cm}}^2$ be applied to have a volume of $160{\text{cm}}^3$ .

Example 2:

The length of a violin string varies inversely as the frequency of its vibrations. A violin string $14$ inches long vibrates at a frequency of $450$ cycles per second. Find the frequency of a $12$ -inch violin string.

The length( $l$ ) varies inversely as the frequency( $f$ ), when the length increases, the frequency decreases and when the length decreases, the frequency increases.

Now write the formula for inverse variation.

$lf=k$ .

Substitute $450$ for $f$ $14$ for $l$ in the formula and find the constant.

$\left(450\right)\left(14\right)=k$

$6300=k$

Now write an equation and solve for the unknown.

We have to find the frequency of $12$ -inch violin string.

So,

$\left(12\right)\left(f\right)=6300$ .

Solve for $f$ .

$\begin{array}{l}f=\frac{6300}{12}\\ =525\end{array}$

Therefore, $12$ -inch violin string vibrates at a frequency of $525$ cycles per second.