3.3 Rates of change and behavior of graphs (Page 2/15)

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How To

Given the value of a function at different points, calculate the average rate of change of a function for the interval between two values $x_{1}$ and $x_{2} .$

Calculate the difference $y_{2} - y_{1} = Δ y .$
Calculate the difference $x_{2} - x_{1} = Δ x .$
Find the ratio $\frac{Δ y}{Δ x} .$

Computing an average rate of change

Using the data in [link] , find the average rate of change of the price of gasoline between 2007 and 2009.

In 2007, the price of gasoline was $2.84. In 2009, the cost was $2.41. The average rate of change is

\begin{matrix} \frac{Δ y}{Δ x} & = & \frac{y_{2} - y_{1}}{x_{2} - x_{1}} \\ = & \frac{$ 2.41 - $ 2.84}{2009 - 2007} \\ = & \frac{- $ 0.43}{2 years} \\ = & - $ 0.22 per year \end{matrix}

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Using the data in [link] , find the average rate of change between 2005 and 2010.

$\frac{$ 2.84 - $ 2.31}{5 years} = \frac{$ 0.53}{5 years} = $ 0.106$ per year.

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Computing average rate of change from a graph

Given the function $g (t)$ shown in [link] , find the average rate of change on the interval $[- 1, 2] .$

At $t = - 1,$ [link] shows $g (−1) = 4.$ At $t = 2,$ the graph shows $g (2) = 1.$

Graph of a parabola with a line from points (-1, 4) and (2, 1) to show the changes for g(t) and t.

The horizontal change $Δ t = 3$ is shown by the red arrow, and the vertical change $Δ g (t) = - 3$ is shown by the turquoise arrow. The average rate of change is shown by the slope of the orange line segment. The output changes by –3 while the input changes by 3, giving an average rate of change of

\frac{1 - 4}{2 - (- 1)} = \frac{- 3}{3} = −1

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Computing average rate of change from a table

After picking up a friend who lives 10 miles away and leaving on a trip, Anna records her distance from home over time. The values are shown in [link] . Find her average speed over the first 6 hours.

t (hours)	0	1	2	3	4	5	6	7
D ( t ) (miles)	10	55	90	153	214	240	292	300

Here, the average speed is the average rate of change. She traveled 282 miles in 6 hours.

\begin{matrix} \frac{292 - 10}{6 - 0} & = & \frac{282}{6} \\ = & 47 \end{matrix}

The average speed is 47 miles per hour.

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Computing average rate of change for a function expressed as a formula

Compute the average rate of change of $f (x) = x^{2} - \frac{1}{x}$ on the interval $[2, 4].$

We can start by computing the function values at each endpoint of the interval.

\begin{matrix} f (2) & = & 2^{2} - \frac{1}{2} & f (4) & = & 4^{2} - \frac{1}{4} \\ = & 4 - \frac{1}{2} & = & 16 - \frac{1}{4} \\ = & \frac{7}{2} & = & \frac{63}{4} \end{matrix}

Now we compute the average rate of change.

\begin{matrix} Average rate of change & = & \frac{f (4) - f (2)}{4 - 2} \\ = & \frac{\frac{63}{4} - \frac{7}{2}}{4 - 2} \\ = & \frac{\frac{49}{4}}{2} \\ = & \frac{49}{8} \end{matrix}

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Find the average rate of change of $f (x) = x - 2 \sqrt{x}$ on the interval $[1, 9] .$

$\frac{1}{2}$

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Finding the average rate of change of a force

The electrostatic force $F,$ measured in newtons, between two charged particles can be related to the distance between the particles $d,$ in centimeters, by the formula $F (d) = \frac{2}{d^{2}} .$ Find the average rate of change of force if the distance between the particles is increased from 2 cm to 6 cm.

We are computing the average rate of change of $F (d) = \frac{2}{d^{2}}$ on the interval $[2, 6] .$

\begin{matrix} Average rate of change & = & \frac{F (6) - F (2)}{6 - 2} \\ = & \frac{\frac{2}{6^{2}} - \frac{2}{2^{2}}}{6 - 2} & Simplify . \\ = & \frac{\frac{2}{36} - \frac{2}{4}}{4} \\ = & \frac{- \frac{16}{36}}{4} & Combine numerator terms . \\ = & - \frac{1}{9} & Simplify \end{matrix}

The average rate of change is $- \frac{1}{9}$ newton per centimeter.

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Finding an average rate of change as an expression

Find the average rate of change of $g (t) = t^{2} + 3 t + 1$ on the interval $[0, a] .$ The answer will be an expression involving $a$ in simplest form.

We use the average rate of change formula.

\begin{matrix} Average rate of change & = & \frac{g (a) - g (0)}{a - 0} & Evaluate . \\ = & \frac{(a^{2} + 3 a + 1) - (0^{2} + 3 (0) + 1)}{a - 0} & Simplify . \\ = & \frac{a^{2} + 3 a + 1 - 1}{a} & Simplify and factor . \\ = & \frac{a (a + 3)}{a} & Divide by the common factor a . \\ = & a + 3 \end{matrix}

This result tells us the average rate of change in terms of $a$ between $t = 0$ and any other point $t = a .$ For example, on the interval $[0, 5],$ the average rate of change would be $5 + 3 = 8.$

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Source: OpenStax, Algebra and trigonometry. OpenStax CNX. Nov 14, 2016 Download for free at https://legacy.cnx.org/content/col11758/1.6

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