Chapter 1.10, Problem 71E

(a)

To determine

To find: The linear equation that relates the temperature t and the number of chirps per minute n.

Answer to Problem 71E

The linear equation is $24t-5n=1080$.

Explanation of Solution

Given:

A cricket produces 120 chirps per minute at ${70}^{\circ }F$ and 168 chirps per minute at ${80}^{\circ }F$.

Calculation:

Let the chirps per minute n at x-axis and temperature t at y-axis.

The two points that lie at the equation of line are $\left(120,{70}^{\circ }\right)$ and $\left(168,{80}^{\circ }\right)$.

The general equation of the line is,

$y-y_1=\frac{y_2-y_1}{x_2-x_1}\left(x-x_1\right)$

Substitute t for y, n for x, 120 for $x_1$ ${70}^{\circ }$ for $y_1$, $168$ for $x_2$ and ${80}^{\circ }$ for $y_2$ in above equation,

$\begin{array}{c}t-70=\frac{80-70}{168-120}\left(n-120\right)\\ t-70=\frac{10}{48}\left(n-120\right)\\ t-70=\frac{5}{24}\left(n-120\right)\\ 24t-70\cdot 24=5n-120\cdot 5\end{array}$

Above calculation gives the equation of line,

$\begin{array}{c}24t-1680=5n-600\\ 24t-5n=1680-600\\ 24t-5n=1080\end{array}$

Thus, the linear equation that relates the temperature t and the number of chirps per minute n is $24t-5n=1080$.

(b)

To determine

To find: The value of temperature when chirping rate is given.

Answer to Problem 71E

The value of temperature at 150 per minute chirping rate is ${76.25}^{\circ }C$.

Explanation of Solution

Given:

The chirping rate is 150 chirps per minute.

Calculation:

From part (a) the linear equation is,

$24t-5n=1080$.

Substitute 150 for n in above equation to find the value of temperature t,

$\begin{array}{c}24t-5\cdot 150=1080\\ 24t=1080+750\\ 24t=1830\\ t=76.25\end{array}$

Thus the temperature at 150 chirping rate is ${76.25}^{\circ }C$.