Chapter 2: Properties of Real Numbers
Introduction
Integers and Rational Numbers
Integers and rational numbers are important in daily life. The price per square yard of carpet is a rational number. The number of frogs in a pond is expressed using an integer. The organization of real numbers can be drawn as a hierarchy. Look at the hierarchy below.
Real numbers are all around us. The majority of numbers calculated are considered real numbers. This chapter defines a real number and explains important properties and rules that apply to real numbers. The most generic number is the real number; it can be a combination of negative, positive, decimal, fractional, or nonrepeating decimal values. Real numbers have two major categories: rational numbers and irrational numbers. Irrational numbers are nonrepeating, nonterminating decimals such as
Chapter Outline
 2.1. Properties of Rational Numbers
 2.2. Additive Inverses and Absolute Values
 2.3. Addition of Integers
 2.4. Addition of Rational Numbers
 2.5. Subtraction of Rational Numbers
 2.6. Multiplication of Rational Numbers
 2.7. Mixed Numbers in Applications
 2.8. Expressions and the Distributive Property
 2.9. When to Use the Distributive Property
 2.10. Division of Rational Numbers
 2.11. Applications of Reciprocals
 2.12. Square Roots and Irrational Numbers
 2.13. Order of Real Numbers
 2.14. Guess and Check, Work Backward
Chapter Summary
Summary
This chapter talks about the properties of rational numbers and how to add, subtract, multiply, and divide them. It also shows how to add integers and covers additive inverses, absolute values, reciprocals, and the distributive property. Square roots and irrational numbers are discussed as well, and how to classify and order real numbers is explained in detail. Finally, many realworld problems are given, and the chapter concludes by going over the guess and check and working backward problemsolving strategies.
Properties of Real Numbers Review
Compare the real numbers.
 7 and –11

45 and1116 
1015 and23  0.985 and
3132  –16.12 and
−3009
Order the real numbers from least to greatest.

811,710,59 
27,111,813,47,89
Graph these values on the same number line.

313  –1.875

78 
0.16¯ 
−555
Simplify by applying the Distributive Property.

6n(−2+5n)−n(−3n−8) 
7x+2(−6x+2) 
−7x(x+5)+3(4x−8) 
−3(−6r−5)−2r(1+6r) 
1+3(p+8) 
3(1−5k)−1
Approximate the square root to the nearest hundredth.

26−−√ 
330−−−√ 
625−−−√ 
121−−−√ 
225−−−√ 
11−−√ 
8√
Rewrite the square root without using a calculator.

50−−√ 
8√ 
80−−√ 
32−−√
Simplify by combining like terms.

8+b+1−7b 
9n+9n+17 
7h−3+3 
9x+11−x−3+5x+2
Evaluate.

85−43 
43−12 
16+156 
−54×13 
49×74 
−157×−212 
19÷−113 
−32÷−107 
−3710÷214 
115−(−334) 
423+323 
5.4+(−9.7) 
(−7.1)+(−0.4) 
(−4.79)+(−3.63) 
(−8.1)−(−8.9) 
1.58−(−13.6) 
(−13.6)+12−(−15.5) 
(−5.6)−(−12.6)+(−6.6) 
19.4+24.2 
8.7+3.8+12.3 
9.8−9.4 
2.2−7.3
List all the categories that apply to the following numbers.
 10.9

−910 
3π 
π2−π2  –21
 8
Which property has been applied?

6.78+(−6.78)=0 
9.8+11.2+1.2=9.8+1.2+11.2 
3a+(4a+8)=(3a+4a)+8 
43−(−56)=43+56 
(1)j=j 
8(11)(18)=8(18)(11)
Solve the realworld situation.
 Carol has 18 feet of fencing and purchased an additional 132 inches. How much fencing does Carol have?
 Ulrich is making cookies for a fundraiser. Each cookie requires
38 pound of dough. He has 12 pounds of cookie dough. How many cookies can Ulrich make?  Herrick bought 11 DVDs at $19.99 each. Use the Distributive Property to show how Herrick can mentally calculate the amount of money he will need.
 Bagger 288 is a trench digger, which moves at
38 miles/hour . How long will it take to dig a trench 14 miles long?  Georgia started with a given amount of money,
a . She spent $4.80 on a large latte, $1.20 on an English muffin, $68.48 on a new shirt, and $32.45 for a present. She now has $0.16. How much money,a , did Georgia have in the beginning?  The formula for the area of a square is
A=s2 . A square garden has an area of 145meters2 . Find the exact length of the garden.
Properties of Real Numbers Test
Simplify by using the Distributive Property.

−3+7(3a−2) 
8(3+2q)+5(q+3)
Simplify.

8p−5p 
9z+33−2z−15 
−95÷2 
167×534 
12−323 
314+158 
3.5−5−10.4 
16−(−6.5)×65
Find the exact value of the square root without a calculator.

125−−−√ 
18−−√  How is the multiplicative inverse different from the additive inverse?
 A square plot of land has an area of
168 miles2 . To the nearest tenth, what is the length of the land?  Troy plans to equally divide 228 candies among 16 people. Can this be done? Explain your answer.
 Laura withdrew $15 from the ATM, wrote a check for $46.78, and deposited her paycheck of $678.12. After her deposit she had $1123.45 in her account. How much money did Laura begin with?
 Will the area of a circle always be an irrational number? Explain your reasoning.
 When would you use the Commutative Property of Multiplication? Give an example to help illustrate your explanation.
Texas Instruments Resources
In the CK12 Texas Instruments Algebra I FlexBook, there are graphing calculator activities designed to supplement the objectives for some of the lessons in this chapter. See http://www.ck12.org/flexr/chapter/9612.