Lesson 11
Decimal Representations of Rational Numbers
Let’s learn more about how rational numbers can be represented.
11.1: Notice and Wonder: Shaded Bars
What do you notice? What do you wonder?
11.2: Halving the Length
Here is a number line from 0 to 1.
 Mark the midpoint between 0 and 1. What is the decimal representation of that number?
 Mark the midpoint between 0 and the newest point. What is the decimal representation of that number?
 Repeat step two. How did you find the value of this number?
 Describe how the value of the midpoints you have added to the number line keep changing as you find more. How do the decimal representations change?
11.3: Recalculating Rational Numbers

Rational numbers are fractions and their opposites. All of these numbers are rational numbers. Show that they are rational by writing them in the form \(\frac{a}{b}\) or \(\text \frac{a}{b}\).
 0.2
 \(\text \sqrt{4}\)
 0.333
 \(\sqrt[3]{1000}\)
 1.000001

\(\sqrt{\frac19}\)

All rational numbers have decimal representations, too. Find the decimal representation of each of these rational numbers.
 \(\frac38\)
 \(\frac75\)
 \(\frac{999}{1000}\)
 \(\frac{111}{2}\)
 \(\sqrt[3]{\frac18}\)
11.4: Zooming In On $\frac{2}{11}$

On the topmost number line, label the tick marks. Next, find the first decimal place of \(\frac{2}{11}\) using long division and estimate where \(\frac{2}{11}\) should be placed on the top number line.

Label the tick marks of the second number line. Find the next decimal place of \(\frac{2}{11}\) by continuing the long division and estimate where \(\frac{2}{11}\) should be placed on the second number line. Add arrows from the second to the third number line to zoom in on the location of \(\frac{2}{11}\).

Repeat the earlier step for the remaining number lines.
 What do you think the decimal expansion of \(\frac{2}{11}\) is?
Let \(x=\frac{25}{11}=2.272727. . . \) and \(y=\frac{58}{33}=1.75757575. . .\)
For each of the following questions, first decide whether the fraction or decimal representations of the numbers are more helpful to answer the question, and then find the answer.
 Which of \(x\) or \(y\) is closer to 2?

Find \(x^2\).
Summary
We learned earlier that rational numbers are a fraction or the opposite of a fraction. For example, \(\frac34\) and \(\text\frac52\) are both rational numbers. A complicatedlooking numerical expression can also be a rational number as long as the value of the expression is a positive or negative fraction. For example, \(\sqrt{64}\) and \(\text\sqrt[3]{\frac18}\) are rational numbers because \(\sqrt{64} = 8\) and \(\text\sqrt[3]{\frac18} = \text\frac12\).
Rational numbers can also be written using decimal notation. Some have finite decimal expansions, like 0.75, 2.5, or 0.5. Other rational numbers have infinite decimal expansions, like 0.7434343 . . . where the 43s repeat forever. To avoid writing the repeating part over and over, we use the notation \(0.7\overline{43}\) for this number. The bar over part of the expansion tells us the part which is to repeat forever.
A decimal expansion of a number helps us plot it accurately on a number line divided into tenths. For example, \(0.7\overline{43}\) should be between 0.7 and 0.8. Each further decimal digit increases the accuracy of our plotting. For example, the number \(0.7\overline{43}\) is between 0.743 and 0.744.
Glossary Entries
 cube root
The cube root of a number \(n\) is the number whose cube is \(n\). It is also the edge length of a cube with a volume of \(n\). We write the cube root of \(n\) as \(\sqrt[3]{n}\).
For example, the cube root of 64, written as \(\sqrt[3]{64}\), is 4 because \(4^3\) is 64. \(\sqrt[3]{64}\) is also the edge length of a cube that has a volume of 64.
 repeating decimal
A repeating decimal has digits that keep going in the same pattern over and over. The repeating digits are marked with a line above them.
For example, the decimal representation for \(\frac13\) is \(0.\overline{3}\), which means 0.3333333 . . . The decimal representation for \(\frac{25}{22}\) is \(1.1\overline{36}\) which means 1.136363636 . . .