This is “Operations with Real Numbers”, section 1.2 from the book Advanced Algebra (v. 1.0). For details on it (including licensing), click here.

For more information on the source of this book, or why it is available for free, please see the project's home page. You can browse or download additional books there. To download a .zip file containing this book to use offline, simply click here.

Has this book helped you? Consider passing it on:
Creative Commons supports free culture from music to education. Their licenses helped make this book available to you.
DonorsChoose.org helps people like you help teachers fund their classroom projects, from art supplies to books to calculators.

1.2 Operations with Real Numbers

Learning Objectives

  1. Review the properties of real numbers.
  2. Simplify expressions involving grouping symbols and exponents.
  3. Simplify using the correct order of operations.

Working with Real Numbers

In this section, we continue to review the properties of real numbers and their operations. The result of adding real numbers is called the sumThe result of adding. and the result of subtracting is called the differenceThe result of subtracting.. Given any real numbers a, b, and c, we have the following properties of addition:

Additive Identity Property:

a+0=0+a=a

Additive Inverse Property:

a+(a)=(a)+a=0

Associative Property:

(a+b)+c=a+(b+c)

Commutative Property:

a+b=b+a

Given any real number a, a+0=0+a=a.

Given any real number a, a+(a)=(a)+a=0.

Given real numbers a, b and c, (a+b)+c=a+(b+c).

Given real numbers a and b, a+b=b+a.

It is important to note that addition is commutative and subtraction is not. In other words, the order in which we add does not matter and will yield the same result. However, this is not true of subtraction.

5+10=10+515=1551010555

We use these properties, along with the double-negative property for real numbers, to perform more involved sequential operations. To simplify things, make it a general rule to first replace all sequential operations with either addition or subtraction and then perform each operation in order from left to right.

Example 1

Simplify: 10(10)+(5).

Solution:

Replace the sequential operations and then perform them from left to right.

10(10)+(5)=10+105  Replace()withaddition(+).                     Replace+()withsubtraction().=05         =5

Answer: −5

Adding or subtracting fractions requires a common denominatorA denominator that is shared by more than one fraction.. Assume the common denominator c is a nonzero integer and we have

ac+bc=a+bcandacbc=abc

Example 2

Simplify: 29115+845.

Solution:

First determine the least common multiple (LCM) of 9, 15, and 45. The least common multiple of all the denominators is called the least common denominatorThe least common multiple of a set of denominators. (LCD). We begin by listing the multiples of each given denominator:

{9,18,27,36,45,54,63,72,81,90,}Multiplesof9{15,30,45,60,75,90,}Multiplesof15{45,90,135}Multiplesof45

Here we see that the LCM(9, 15, 45) = 45. Multiply the numerator and the denominator of each fraction by values that result in equivalent fractions with the determined common denominator.

29115+845=295511533+845=1045345+845

Once we have equivalent fractions, with a common denominator, we can perform the operations on the numerators and write the result over the common denominator.

=103+845=1545

And then reduce if necessary,

=15÷1545÷15=13

Answer: 13

Finding the LCM using lists of multiples, as described in the previous example, is often very cumbersome. For example, try making a list of multiples for 12 and 81. We can streamline the process of finding the LCM by using prime factors.

12=22381=34

The least common multiple is the product of each prime factor raised to the highest power. In this case,

LCM(12,81)=2234=324

Often we will find the need to translate English sentences involving addition and subtraction to mathematical statements. Below are some common translations.

n+2Thesumofanumberand2.2nThedifferenceof2andanumber.n2Here2issubtractedfromanumber.

Example 3

What is 8 subtracted from the sum of 3 and 12?

Solution:

We know that subtraction is not commutative; therefore, we must take care to subtract in the correct order. First, add 3 and 12 and then subtract 8 as follows:

Perform the indicated operations.

(3+12)8=(3122+12)8=(6+12)8=728122=7162=92

Answer: 92

The result of multiplying real numbers is called the productThe result of multiplying. and the result of dividing is called the quotientThe result of dividing.. Given any real numbers a, b, and c, we have the following properties of multiplication:

Zero Factor Property:

a0=0a=0

Multiplicative Identity Property:

a1=1a=a

Associative Property:

(ab)c=a(bc)

Commutative Property:

ab=ba

Given any real number a, a0=0a=0.

Given any real number a, a1=1a=a.

Given any real numbers a, b and c, (ab)c=a(bc).

Given any real numbers a and b, ab=ba.

It is important to note that multiplication is commutative and division is not. In other words, the order in which we multiply does not matter and will yield the same result. However, this is not true of division.

510=10550=505÷1010÷50.52

We will use these properties to perform sequential operations involving multiplication and division. Recall that the product of a positive number and a negative number is negative. Also, the product of two negative numbers is positive.

Example 4

Multiply: 5(3)(2)(4).

Solution:

Multiply two numbers at a time as follows:

Answer: −120

Because multiplication is commutative, the order in which we multiply does not affect the final answer. However, when sequential operations involve multiplication and division, order does matter; hence we must work the operations from left to right to obtain a correct result.

Example 5

Simplify: 10÷(2)(5).

Solution:

Perform the division first; otherwise the result will be incorrect.

Notice that the order in which we multiply and divide does affect the result. Therefore, it is important to perform the operations of multiplication and division as they appear from left to right.

Answer: 25

The product of two fractions is the fraction formed by the product of the numerators and the product of the denominators. In other words, to multiply fractions, multiply the numerators and multiply the denominators:

abcd=acbd

Example 6

Multiply: 452512.

Solution:

Multiply the numerators and multiply the denominators. Reduce by dividing out any common factors.

452512=425512=4125551123=53

Answer: 53

Two real numbers whose product is 1 are called reciprocalsTwo real numbers whose product is 1.. Therefore, ab and ba are reciprocals because abba=abab=1. For example,

2332=66=1

Because their product is 1, 23 and 32 are reciprocals. Some other reciprocals are listed below:

58and857and1745and54

This definition is important because dividing fractions requires that you multiply the dividend by the reciprocal of the divisor.

ab÷cd=abcddcdc=abdc1=abdc

In general,

ab÷cd=abdc=adbc

Example 7

Simplify: 54÷3512.

Solution:

Perform the multiplication and division from left to right.

54÷3512=545312=551432=2524

In algebra, it is often preferable to work with improper fractions. In this case, we leave the answer expressed as an improper fraction.

Answer: 2524

Try this! Simplify: 1234÷18.

Answer: 3

Grouping Symbols and Exponents

In a computation where more than one operation is involved, grouping symbols help tell us which operations to perform first. The grouping symbolsParentheses, brackets, braces, and the fraction bar are the common symbols used to group expressions and mathematical operations within a computation. commonly used in algebra are:

()   Parentheses[]   Brackets{}   Braces    Fractionbar

All of the above grouping symbols, as well as absolute value, have the same order of precedence. Perform operations inside the innermost grouping symbol or absolute value first.

Example 8

Simplify: 2(45215).

Solution:

Perform the operations within the parentheses first.

2(45215)=2(4533215)=2(1215215)=2(1015)=213323=623=43

Answer: 43

Example 9

Simplify: 5|4(3)||3|(57).

Solution:

The fraction bar groups the numerator and denominator. Hence, they should be simplified separately.

5|4(3)||3|(57)=5|4+3||3|(2)=5|7||3|+2=573+2=25=25

Answer: 25

If a number is repeated as a factor numerous times, then we can write the product in a more compact form using exponential notationThe compact notation an used when a factor a is repeated n times.. For example,

5555=54

The baseThe factor a in the exponential notation an. is the factor and the positive integer exponentThe positive integer n in the exponential notation an that indicates the number of times the base is used as a factor. indicates the number of times the base is repeated as a factor. In the above example, the base is 5 and the exponent is 4. Exponents are sometimes indicated with the caret (^) symbol found on the keyboard, 5^4 = 5*5*5*5. In general, if a is the base that is repeated as a factor n times, then

When the exponent is 2 we call the result a squareThe result when the exponent of any real number is 2., and when the exponent is 3 we call the result a cubeThe result when the exponent of any real number is 3.. For example,

52=55=255squared53=555=1255cubed

If the exponent is greater than 3, then the notation an is read, “a raised to the nth power.” The base can be any real number,

(2.5)2=(2.5)(2.5)=6.25(23)3=(23)(23)(23)=827(2)4=(2)(2)(2)(2)=1624=12222=16

Notice that the result of a negative base with an even exponent is positive. The result of a negative base with an odd exponent is negative. These facts are often confused when negative numbers are involved. Study the following four examples carefully:

The base is (−3).

The base is 3.

(3)4=(3)(3)(3)(3)=+81(3)3=(3)(3)(3)=27

34=13333=8133=1333=27

The parentheses indicate that the negative number is to be used as the base.

Example 10

Calculate:

  1. (13)3
  2. (13)4

Solution:

Here 13 is the base for both problems.

  1. Use the base as a factor three times.

    (13)3=(13)(13)(13)=127

  2. Use the base as a factor four times.

    (13)4=(13)(13)(13)(13)=+181

Answers:

  1. 127
  2. 181

Try this! Simplify:

  1. 24
  2. (2)4

Answers:

  1. −16
  2. 16

Order of Operations

When several operations are to be applied within a calculation, we must follow a specific order to ensure a single correct result.

  1. Perform all calculations within the innermost parentheses or grouping symbol first.
  2. Evaluate all exponents.
  3. Apply multiplication and division from left to right.
  4. Perform all remaining addition and subtraction operations last from left to right.

Note that multiplication and division should be worked from left to right. Because of this, it is often reasonable to perform division before multiplication.

Example 11

Simplify: 5324÷612+2.

Solution:

First, evaluate 53 and then perform multiplication and division as they appear from left to right.

5324÷612+2=5324÷612+2=12524÷612+2=125412+2=1252+2=123+2=125

Multiplying first would have led to an incorrect result.

Answer: 125

Example 12

Simplify: 1052+(3)4.

Solution:

Take care to correctly identify the base when squaring.

1052+(3)4=1025+81=35+81=46

Answer: 46

We are less likely to make a mistake if we work one operation at a time. Some problems may involve an absolute value, in which case we assign it the same order of precedence as parentheses.

Example 13

Simplify: 75|22+(3)2|.

Solution:

Begin by performing the operations within the absolute value first.

75|22+(3)2|=75|4+9|=75|5|=755=725=18

Subtracting 75 first will lead to incorrect results.

Answer: −18

Try this! Simplify: 62[15(2)3](2)4.

Answer: −45

Key Takeaways

  • Addition is commutative and subtraction is not. Furthermore, multiplication is commutative and division is not.
  • Adding or subtracting fractions requires a common denominator; multiplying or dividing fractions does not.
  • Grouping symbols indicate which operations to perform first. We usually group mathematical operations with parentheses, brackets, braces, and the fraction bar. We also group operations within absolute values. All groupings have the same order of precedence: the operations within the innermost grouping are performed first.
  • When using exponential notation an, the base a is used as a factor n times. Parentheses indicate that a negative number is to be used as the base. For example, (5)2 is positive and 52 is negative.
  • To ensure a single correct result when applying operations within a calculation, follow the order of operations. First, perform operations in the innermost parentheses or groupings. Next, simplify all exponents. Perform multiplication and division operations from left to right. Finally, perform addition and subtraction operations from left to right.

Topic Exercises

    Part A: Working with Real Numbers

      Perform the operations. Reduce all fractions to lowest terms.

    1. 33(15)+(8)

    2. 109+(6)

    3. 23+(7)(10)

    4. 1(1)1

    5. 12+1316

    6. 15+12110

    7. 23(14)16

    8. 32(29)56

    9. 34(12)58

    10. 1532(710)

    11. Subtract 3 from 10.

    12. Subtract −2 from 16.

    13. Subtract 56 from 4.

    14. Subtract 12 from 32.

    15. Calculate the sum of −10 and 25.

    16. Calculate the sum of −30 and −20.

    17. Find the difference of 10 and 5.

    18. Find the difference of −17 and −3.

      The formula d=|ba| gives the distance between any two points on a number line. Determine the distance between the given numbers on a number line.

    1. 10 and 15

    2. 6 and 22

    3. 0 and 12

    4. −8 and 0

    5. −5 and −25

    6. −12 and −3

      Determine the reciprocal of the following.

    1. 13

    2. 25

    3. 34

    4. −12

    5. a where a0

    6. 1a

    7. ab where a0

    8. 1ab

      Perform the operations.

    1. 4(5)÷2

    2. (15)(3)÷(9)

    3. 22÷(11)(2)

    4. 50÷(25)(4)

    5. 23(910)

    6. 58(1625)

    7. 76(67)

    8. 159(95)

    9. 45(25)÷1625

    10. (92)(32)÷2716

    11. 85÷521540

    12. 316÷5812

    13. Find the product of 12 and 7.

    14. Find the product of 23 and 12.

    15. Find the quotient of −36 and 12.

    16. Find the quotient of 34 and 9.

    17. Subtract 10 from the sum of 8 and −5.

    18. Subtract −2 from the sum of −5 and −3.

    19. Joe earns $18.00 per hour and “time and a half” for every hour he works over 40 hours. What is his pay for 45 hours of work this week?

    20. Billy purchased 12 bottles of water at $0.75 per bottle, 5 pounds of assorted candy at $4.50 per pound, and 15 packages of microwave popcorn costing $0.50 each for his party. What was his total bill?

    21. James and Mary carpooled home from college for the Thanksgiving holiday. They shared the driving, but Mary drove twice as far as James. If Mary drove for 210 miles, then how many miles was the entire trip?

    22. A 634 foot plank is to be cut into 3 pieces of equal length. What will be the length of each piece?

    23. A student earned 72, 78, 84, and 90 points on her first four algebra exams. What was her average test score? (Recall that the average is calculated by adding all the values in a set and dividing that result by the number of elements in the set.)

    24. The coldest temperature on Earth, −129° F, was recorded in 1983 at Vostok Station, Antarctica. The hottest temperature on Earth, 136° F, was recorded in 1922 at Al’ Aziziyah, Libya. Calculate the temperature range on Earth.

    Part B: Grouping Symbols and Exponents

      Perform the operations.

    1. 7{3[6(10)]}

    2. (912)[6(83)]

    3. 12{5(103)}

    4. 23{6+(69)}

    5. 5{2[3(432)]}
    6. 12{6[(1253)]}
    7. 5|5(6)||5||3|
    8. |912|(3)|16|3(4)
    9. |5(7)|(2)|2|+|3|
    10. 1|9(34)||2|+(8(10))

      Perform the operations.

    1. 122

    2. (12)2

    3. 122

    4. (12)2

    5. 54

    6. (5)4

    7. (12)3

    8. (12)3

    9. (34)2

    10. (52)3

    11. (1)22

    12. (1)13

    13. (1)12

    14. (1)5

    15. 102

    16. 104

    Part C: Order of Operations

      Simplify.

    1. 53(432)

    2. 85(332)

    3. (5)2+3(242)

    4. 62(52+47)
    5. 53[3(232)+(3)2]
    6. 105[(25)23]
    7. [5232][2(5+(4)2)]
    8. 72[(27)2(8)2]
    9. 316÷(51212+23)4
    10. 6[(23)2(12)2]÷(2)2
    11. 325+42232
    12. (3+(2)2)4342+1
    13. 52+(3)22382+6(10)
    14. (4)2+(3)392(12+22)*10
    15. 522|5|
    16. 24+6|2452|
    17. (4|7282|)
    18. 3(52|6|)
    19. (3)2|2+(3)3|42
    20. 522|3324|(2)5
    21. 5|5|(2|7|)3
    22. 102+2(|5|363)
    23. 23|12(43)2|
    24. 24|10312÷15|
    25. Calculate the sum of the squares of the first three consecutive positive odd integers.

    26. Calculate the sum of the squares of the first three consecutive positive even integers.

    27. What is 6 subtracted from the sum of the squares of 5 and 8?

    28. What is 5 subtracted from the sum of the cubes of 2 and 3?

    Part D: Discussion Board

    1. What is PEMDAS and what is it missing?

    2. Does 0 have a reciprocal? Explain.

    3. Explain why we need a common denominator in order to add or subtract fractions.

    4. Explain why (10)4 is positive and 104 is negative.

Answers

  1. 40

  2. −20

  3. 23

  4. 34

  5. 58

  6. 7

  7. 296

  8. 15

  9. 5

  10. 5 units

  11. 12 units

  12. 20 units

  13. 3

  14. 43

  15. 1a

  16. ba

  17. 10

  18. −4

  19. 35

  20. −1

  21. 12

  22. 625

  23. 84

  24. −3

  25. −7

  26. $855

  27. 315 miles

  28. 81 points

  1. −12

  2. −1

  3. 75

  4. −3

  5. 0

  6. 144

  7. −144

  8. −625

  9. 18

  10. 916

  11. 1

  12. −1

  13. −100

  1. 20

  2. −17

  3. 41

  4. 35

  5. 97

  6. 35

  7. 52

  8. −35

  9. 11

  10. −36

  11. 150

  12. 1118

  13. 35

  14. 83

  1. Answer may vary

  2. Answer may vary