Arithmetic with Whole Numbers and Money Variables and Evaluation

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1 LESSON 1 Arithmetic with Whole Numbers and Money Variables and Evaluation Power Up 1 facts mental math Building Power Power Up A A score is 20. Two score and 4 is 44. How many is a. Measurement: 3 score b. Measurement: 4 score c. Measurement: 4 score and 7 d. Measurement: Half a dozen e. Measurement: 2 dozen f. Measurement: 4 dozen g. Probability: What is the probability of rolling a 3 on a number cube? h. Calculation/Measurement: Start with a score. Add a dozen; divide by 4; add 2; then divide by 2. What is the answer? problem solving A sequence is a list of terms arranged according to a certain rule. We must find the rule of a sequence in order to extend it. Finding a sequence s rule is also called finding a pattern. The first four triangular numbers can be shown as a sequence of diagrams or as a sequence of numbers: 1, 3, 6, 10, Problem: What are the next three terms in the sequence of triangular numbers? Understand We are given 1, 3, 6, and 10 as the first four triangular numbers. We are asked to extend the sequence an additional three terms. Plan We will find the pattern in the first four terms of the sequence, then use the pattern to extend the sequence an additional three terms. Solve We examine the differences between the terms to see if we notice a pattern: ? +? +? ??? 1 For Instructions on how to use the Power-Up activities, please consult the preface. 6 Saxon Math Course 2

2 We notice that each term in the sequence can be found by adding the term s position in the sequence to the previous term. So, to find the fifth term, we add 5 to the fourth term. To find the sixth term, we add 6 to the fifth term, and so on Check We found the next three terms in the sequence of triangular numbers: 15, 21, and 28. Our answers are reasonable, and we can verify them by drawing the next three diagrams in the list shown at the beginning of the problem and counting the dots in each diagram. New Concepts Increasing Knowledge arithmetic with whole numbers and money Reading Math Use braces, { }, to enclose items in a set. Use an ellipsis,, to indicate a list that is infinite (goes on without end). The numbers we say when we count are called counting numbers or natural numbers. We can show the set of counting numbers this way: {1, 2, 3, 4, 5,...} Including zero with the set of counting numbers forms the set of whole numbers. {0, 1, 2, 3, 4,...} The set of whole numbers does not include any numbers less than zero, between 0 and 1, or between any consecutive counting numbers. The four fundamental operations of arithmetic are addition, subtraction, multiplication, and division. In this lesson we will review the operations of arithmetic with whole numbers and with money. Amounts of money are sometimes indicated with a dollar sign ($) or with a cent sign ( ), but not both. We can show 50 cents either of these two ways: $0.50 or 50 Occasionally we will see a dollar sign or cent sign used incorrectly. Soft Drinks 0.50 each This sign is incorrect because it uses a decimal point with a cent sign. This incorrect sign literally means that soft drinks cost not half a dollar but half a cent! Take care to express amounts of money in the proper form when performing arithmetic with money. Numbers that are added are called addends, and the result of their addition is the sum. Saxon Soda addend + addend = sum Lesson 1 7

3 Example 1 Add: a b. $ $ a. We align the digits in the ones place and add in columns. Looking for combinations of digits that total 10 may speed the work. b. We write each amount of money with a dollar sign and two places to the right of the decimal point. We align the decimal points and add $1.45 $6.00 $0.08 $7.53 Example 2 In subtraction the subtrahend is taken from the minuend. The result is the difference. Subtract: a b. $ 5 25 minuend subtrahend = difference a. We align the digits in the ones place. We must follow the correct order of subtraction by writing the minuend (first number) above the subtrahend (second number). b. We write each amount in dollar form. We align decimal points and subtract $ $ $ Numbers that are multiplied are called factors. The result of their multiplication is the product. factor factor = product We can indicate the multiplication of two factors with a times sign, with a center dot, or by writing the factors next to each other with no sign between them (5) ab The parentheses in 4(5) clarify that 5 is a quantity separate from 4 and that the two digits do not represent the number 45. The expression ab means a times b. 8 Saxon Math Course 2

4 Example 3 Multiply: a b. $ c. 5(29 ) a. We usually write the number with the most digits on top. We first multiply by the 3 of 23. Then we multiply by the 20 of 23. We add the partial products to find the final product. b. We can let the zero in 20 hang out to the right. We write 0 below the line and then multiply by the 2 of 20. We write the product with a dollar sign and two decimal places. c. We can multiply 29 by 5 or write 29 as $0.29 first. Since the product is greater than $1, we use a dollar sign to write the answer $ $ = $1.45 Example 4 In division the dividend is divided by the divisor. The result is the quotient. We can indicate division with a division sign ( ), a division box ( ), or a division bar ( ). Divide: a b. $ dividend divisor = quotient quotient divisor dividend dividend divisor quotient a. In this division there is a remainder. Other methods for dealing with a remainder will be considered later. Analyze Should the remainder be greater than, equal to, or less than the divisor? Why? b. We write the quotient with a dollar sign. The decimal point in the quotient is directly above the decimal point in the dividend. 22 R $ $ Lesson 1 9

5 variables and evaluation In mathematics, letters are often used to represent numbers in formulas and expressions, for example. The letters are called variables because their values are not constant; rather, they vary. We evaluate an expression by calculating its value when the variables are assigned specific numbers. Example 5 Evaluate each expression for x = 10 and y = 5: a. x + y b. x y c. xy d. x y We substitute 10 for x and 5 for y in each expression. Then we perform the calculation. a = 15 b = 5 c = 50 d Practice Set a. This sign is incorrect. Show two ways to correct the sign. b. Name a whole number that is not a counting number. Lemonade 0.45 per glass c. Justify When the product of 4 and 4 is divided by the sum of 4 and 4, what is the quotient? Explain how you found the answer. Simplify by adding, subtracting, multiplying, or dividing as indicated: d. $ $3 e. $2 47 f. 5(65 ) g h. $ i Evaluate each expression for a = 20 and b = 4: j. a + b k. a b l. ab m. a b Connect Write equations using the number 15, where 15 is: n. an addend o. the product p. the quotient q. the subtrahend r. the dividend s. the minuend 10 Saxon Math Course 2

6 Written Practice Strengthening Concepts * 1. When the sum of 5 and 6 is subtracted from the product of 5 and 6, what is the difference? * 2. If the subtrahend is 9 and the difference is 8, what is the minuend? 3. If the divisor is 4 and the quotient is 8, what is the dividend? * 4. Justify When the product of 6 and 6 is divided by the sum of 6 and 6, what is the quotient? Explain. * 5. Name the four fundamental operations of arithmetic. * 6. Evaluate each expression for n = 12 and m = 4: a. n + m b. n m c. nm d. n m Simplify by adding, subtracting, multiplying, or dividing, as indicated: 7. $43.74 $ (316)(18) 13. $ (40) 20. $10 $ $ ($2.50) $ * 26. What is another name for counting numbers? 27. Write 25 cents twice, a. with a dollar sign, and b. with a cent sign. * Asterisks indicate exercises that should be completed in class with teacher support as needed. Lesson 1 11

7 * 28. Conclude Which counting numbers are also whole numbers? * 29. What is the name for the answer to a division problem? * 30. Connect The equation below shows the relationship of addends and their sum. addend + addend = sum Using the vocabulary we have learned, write an equation to show the relationships in subtraction. Early Finishers Real-World Application Sasha had $ She purchased four shirts that cost a total of $ a. If each shirt cost the same amount, what is the cost of one shirt? Show your work. b. The next day, Sasha returned one of the shirts. After she returned it, how much of the $500 did she have left? Show your work. 12 Saxon Math Course 2

8 LESSON 2 Properties of Operations Power Up facts mental math Building Power Power Up A a. Measurement: 2 score and 8 b. Measurement: dozen c. Number Sense: Half of 100 d. Number Sense: e. Number Sense: f. Number Sense: g. Probability: What is the probability of rolling an odd number on a number cube? h. Calculation/Measurement: Start with a dozen. Divide by 2; multiply by 4; add 1; divide by 5; then subtract 5. What is the answer? problem solving German mathematician Karl Friedrich Gauss ( ) developed a method for quickly adding a sequence of numbers when he was a boy. Like Gauss, we can sometimes solve difficult problems by making the problem simpler. Problem: What is the sum of the first ten natural numbers? Understand We are asked to find the sum of the first ten natural numbers. Plan We will begin by making the problem simpler. If the assignment had been to add the first four natural numbers, we could simply add However, adding columns of numbers can be time consuming. We will try to find a pattern that will help add the natural numbers 1 10 more quickly. Solve We can find pairs of addends in the sequence that have the same sum and multiply by the number of pairs. We try this pairing technique on the sequence given in the problem: Check We found the sum of the first ten natural numbers by pairing the addends and multiplying. We can verify our solution by adding the numbers one-by-one with pencil and paper or a calculator. Lesson 2 13

9 New Concept Increasing Knowledge Reading Math The symbol means is not equal to. Thinking Skill Conclude How are the Commutative Properties of addition and multiplication alike? Addition and subtraction are inverse operations. We can undo an addition by subtracting one addend from the sum = = 2 Together, the numbers 2, 3, and 5 form an addition-subtraction fact family. With them, we can write two addition facts and two subtraction facts = = = = 3 We see that both and equal 5. Changing the order of addends does not change the sum. This characteristic of addition is known as the Commutative Property of Addition and is often stated in equation form using variables. a + b = b + a Since changing the order of numbers in subtraction may change the result, subtraction is not commutative. Addition is commutative = Subtraction is not commutative The Identity Property of Addition states that when zero is added to a given number, the sum is equal to the given number. Thus, zero is the additive identity. a + 0 = a Multiplication and division are also inverse operations. Dividing a product by one of its factors undoes the multiplication. 4 5 = = 4 Together, the numbers 4, 5, and 20 form a multiplication-division fact family that can be arranged into two multiplication facts and two division facts. 4 5 = = = = 5 Changing the order of the factors does not change the product. This characteristic of multiplication is known as the Commutative Property of Multiplication. a b = b a Since changing the order of division may change the quotient, division is not commutative. Multiplication is commutative. 4 5 = 5 4 Division is not commutative Saxon Math Course 2

10 The Identity Property of Multiplication states that when a given number is multiplied by 1, the result equals the given number. Thus, 1 is the multiplicative identity. a 1 = a The Property of Zero for Multiplication states that when a number is multiplied by zero, the product is zero. a 0 = 0 The operations of arithmetic are binary, which means that we only work with two numbers in one step. If we wish to add we can add two of the numbers and then add the other number. The parentheses around in the expression below show that should be treated as a single quantity. Therefore, 2 and 3 should be added, and then 4 should be added to the sum. (2 + 3) + 4 add 2 and 3 first then add 5 and 4 9 sum In the expression below, the parentheses indicate that 3 and 4 are to be added first. 2 + (3 + 4) add 3 and 4 first then add 2 and 7 9 sum Notice that the sum is the same whichever way we group the addends. (2 + 3 ) + 4 = 2 + (3 + 4) The Associative Property of Addition states that the grouping of addends does not change the sum. ( a + b) + c = a + (b + c) There is a similar property for multiplication. The Associative Property of Multiplication states that the grouping of factors does not change the product. (a b) c = a (b c) Verify Show that the equation above represents the Associative Property. The grouping of numbers in subtraction and division does affect the result, as we see in the following expressions. Thus, there is no associative property of subtraction, and there is no associative property of division. (8 4) 2 8 (4 2) (8 4) 2 8 (4 2) Discuss How do the equations above prove that the Associative Property cannot be applied to subtraction and division? Lesson 2 15

11 Example 1 We summarize these properties in the following table: Properties of Operations Commutative Properties a + b = b + a a b = b a Associative Properties ( a + b) + c = a + (b + c) ( a b) c = a (b c) Identity Properties a + 0 = a a 1 = a Property of Zero for Multiplication a 0 = 0 Name each property illustrated: a. 5 3 = 3 5 b. (3 + 4) + 5 = 3 + (4 + 5) c = 6 d. 6 0 = 0 a. Commutative Property of Multiplication b. Associative Property of Addition c. Identity Property of Addition d. Property of Zero for Multiplication Generalize Use the numbers 5, 7, and 9 to show the Associative Property of Multiplication. Example 2 Which property can we use to find each unknown number? a. 8 +? = 8 b. 1? = 9 c. 10? = 0 a. Identity Property of Addition b. Identity Property of Multiplication c. Property of Zero for Multiplication 16 Saxon Math Course 2

12 Example 3 We can use properties of operations to simplify expressions and to solve equations. In example 3 we show a way to simplify 4 (15 25). We list and describe each step. Dena simplified 4 (15 25) in four steps. Justify each step. Step: Step 1: 4 (25 15) Step 2: (4 25) 15 Step 3: Step 4: 1500 Justification: 4 (15 25) The given expression Thinking Skill Discuss How can the properties help us use mental math to simplify the expression? Practice Set We study how Dena changed the expression from one step to the next. To the right of each step, we justify that step by stating the property or operation Dena used. Step: Justification: 4 (15 25) The given expression Step 1: 4 (25 15) Commutative Property of Multiplication Step 2: (4 25) 15 Associative Property of Multiplication Step 3: Multiplied 4 and 25 Step 4: 1500 Multiplied 100 and 15 a. Which number is known as the additive identity? Which number is the multiplicative identity? b. Which operation is the inverse of multiplication? c. Use the letters x, y, and z to write an equation that illustrates the Associative Property of Addition. Then write an example using counting numbers of your choosing. d. Name the property we can use to find the missing number in this equation: 5? = 8 5 Add, subtract, multiply, or divide as indicated to simplify each expression. Remember to work within the parentheses first. e. (5 + 4) + 3 f. 5 + (4 + 3) g. (10 5) 3 h. 10 (5 3) i. (6 2) 5 j. 6 (2 5) k. (12 6) 2 l. 12 (6 2) Lesson 2 17

13 m. Justify List the properties used in each step to simplify the expression 5 (14 2). Step: Step 1: 5 (2 14) Step 2: (5 2) 14 Step 3: Step 4: 140 Justification: 5 (14 2) Given expression Written Practice 1 * Strengthening Concepts When the product of 2 and 3 is subtracted from the sum of 4 and 5, what is the difference? Write 4 cents twice, once with a dollar sign and once with a cent sign. 3. * 4. The sign shown is incorrect. Show two ways to correct the sign. Which operation of arithmetic is the inverse of addition? Fruit 0.75 per apple * If the dividend is 60 and the divisor is 4, what is the quotient? Connect For the fact family 3, 4, and 7, we can write two addition facts and two subtraction facts = = = = 4 For the fact family 3, 5, and 15, write two multiplication facts and two division facts. Justify List the properties used in the first and second steps to simplify the expression 5 + ( ). Step: Justification: 5 + ( ) Given expression Step 1: ( ) + 5 a. Step 2: 27 + (35 + 5) b. Step 3: Added 5 and 35 Step 4: 67 Added 27 and Saxon Math Course 2 1 The italicized numbers within parentheses underneath each problem number are called lesson reference numbers. These numbers refer to the lesson(s) in which the major concept of that particular problem is introduced. If additional assistance is needed, refer to the discussion, examples, or practice problems of that lesson.

14 Simplify: 8. $20.00 $ $ $ * 11. * * 19. * * 25. * 27. * 28. $ $ Analyze $10.00 ($ ) (9 3) (81 9) 3 (10)($3.75) 3167 (450 78) ( ) 78 $ $20 ($ $8) Which property can we use to find each missing number? a. 10 x = 0 b. 10 y = 10 Evaluate each expression for x = 18 and y = 3: a. x y b. xy c. x y d. x + y * 29. * 30. Explain Why is zero called the additive identity? Connect The equation below shows the relationship of factors and their product factor factor = product Using the vocabulary we have learned, write a similar equation to show the relationships in division. Lesson 2 19

15 LESSON 3 Unknown Numbers in Addition, Subtraction, Multiplication, and Division Power Up facts mental math problem solving Building Power Power Up A a. Measurement: 3 score and 6 b. Measurement: dozen c. Number Sense: Half of 1000 d. Number Sense: e. Number Sense: f. Number Sense: g. Probability: What is the probability of rolling an even number on a number cube? h. Calculation: Start with the number of minutes in an hour. Divide by 2; subtract 5; double that number; subtract 1; then divide by 7. What is the answer? Some math problems require us to think through a lot of information before arriving at the solution. We can use logical reasoning to interpret and apply the information given in the problem to help us find the solution. Problem: Simon held a number cube so that he could see the dots on three of the faces. Simon said he could see 7 dots. How many dots could he not see? Understand We must first establish a base of knowledge about standard number cubes. The faces of a standard number cube are numbered with 1, 2, 3, 4, 5, or 6 dots. The number of dots on opposite faces of a number cube always total 7 (1 dot is opposite 6 dots, 2 dots are opposite 5 dots, and 3 dots are opposite 4 dots). Simon sees seven dots on three faces of a standard number cube. We are asked to find the number of dots on the faces he cannot see. Plan We will use logical reasoning about a number cube and write an equation to determine the number of unseen dots. Solve First, we find the total number of dots on a number cube: = 21 dots. Then, we write an equation to solve for the number of unseen dots: 21 total dots 7 seen dots = 14 unseen dots. Check We found that Sam could not see 14 dots. Our answer makes sense, because the total number of dots on the number cube is Saxon Math Course 2

16 New Concept Increasing Knowledge Math Language A variable is a letter used to represent a number that is not given. Thinking Skill Verify Why can we use subtraction to find the missing variable in an addition equation? An equation is a statement that two quantities are equal. Here we show two equations: = a = 9 The equation on the right contains a variable. In this lesson we will practice finding the value of variables in addition, subtraction, multiplication, and division equations. Sometimes we encounter addition equations in which the sum is unknown. Sometimes we encounter addition equations in which an addend is unknown. We can use a letter to represent an unknown number. The letter may be uppercase or lowercase. Unknown Sum Unknown Addend Unknown Addend = N 2 + a = 5 b + 3 = 5 If we know two of the three numbers, we can find the unknown number. We can find an unknown addend by subtracting the known addend from the sum. If there are more than two addends, we subtract all the known addends from the sum. For example, to find n in the equation n = 40 we subtract 3, 4, 7, and 8 from 40. To do this, we can add the known addends and then subtract their sum from 40. Example 1 Find the unknown number in each equation: a. n + 53 = 75 b a = 61 c n = 40 In both a and b we can find each unknown addend by subtracting the known addend from the sum. Then we check. a. Subtract. Try it. b. Subtract. Try it check In a, n is 22. In b, a is 35. c. We add the known addends = 22 Then we subtract their sum, 22, from = 18 n = check We use the answer in the original equation for a check = 40 check Lesson 3 21

17 Example 2 There are three numbers in a subtraction equation. If one of the three numbers is unknown, we can find the unknown number. Unknown Minuend Unknown Subtrahend Unknown Difference a 3 = 2 5 x = = m To find an unknown minuend, we add the other two numbers. To find an unknown subtrahend or difference, we subtract. Find the unknown number in each equation: a. p 24 = 17 b. 32 x = 14 a. To find the minuend in a subtraction equation, we add the other two numbers. We find that the unknown number p is 41. Add. Try it check b. To find a subtrahend, we subtract the difference from the minuend. So the unknown number x is 18. Subtract. Try it check Example 3 A multiplication equation is composed of factors and a product. If any one of the numbers is unknown, we can figure out what it is. Unknown Product Unknown Factor Unknown Factor 3 2 = p 3f = 6 r 2 = 6 To find an unknown product, we multiply the factors. To find an unknown factor, we divide the product by the known factor(s). Find the unknown number in each equation: a. 12n = 168 b. 7k = 105 In both a and b the unknown number is one of the two factors. Notice that 7k means 7 times k. We can find an unknown factor by dividing the product by the known factor. 22 Saxon Math Course 2

18 a. Divide. Try it. b. Divide. Try it check check In a, n is 14. In b, k is 15. Example 4 Model Draw a picture to help you find the unknown number in the equation 3y = 12. Hint: How many groups of 3 can you make? If we know two of the three numbers in a division equation, we can figure out the unknown number. Unknown Quotient Unknown Divisor Unknown Dividend 24 3 n 24 m 8 p 3 8 To find an unknown quotient, we simply divide the dividend by the divisor. To find an unknown divisor, we divide the dividend by the quotient. To find an unknown dividend, we multiply the quotient by the divisor. Find the unknown number in each equation: a. a 64 = 15 b. 3 b = 4 a. To find an unknown dividend, multiply the quotient and divisor = 45 try it 45 3 = 15 check b. To find an unknown divisor, divide the dividend by the quotient try it 4 16 check Explain How can we find the value of s in the equation s 14 = 7? Practice Set Find the unknown number in each equation: a. a + 12 = 31 b. b 24 = 15 c. 15c = 180 d. r 12 e. 14e = 420 f f = 43 8 g. 51 g = 20 h. 364 h j m = 30 7 i. 4n = 2 12 k. Represent Write an equation using 2, 6, and the variable x. Explain how to solve the equation and check the answer. Lesson 3 23

19 Written Practice Strengthening Concepts 1. * 2. (1, 3) * 3. * 4. * 5. * 6. When the product of 4 and 4 is divided by the sum of 4 and 4, what is the quotient? Summarize If you know the subtrahend and the difference, how can you find the minuend? Write a complete sentence to answer the question. Analyze Which property of addition is stated by this equation? (a + b) + c = a + (b + c) Analyze If one addend is 7 and the sum is 21, what is the other addend? Generalize Use the numbers 3 and 4 to illustrate the Commutative Property of Multiplication. Use a center dot to indicate multiplication. Justify List the properties used in the first and second steps to simplify the expression 5 + (x + 7). Step: Justification: 5 + ( x + 7) Given expression 5 + (7 + x) a. (5 + 7) + x b x = 12 Find the value of each variable. * 7. * 9. * 11. * 13. x + 83 = 112 * 8. 7k = 119 * 10. m 137 = 731 * w 25 * r = z = n = 400 x * 15. Evaluate each expression for a = 20 and b = 5: a. a b b. a b c. ab d. a + b Simplify: * Analyze 96 (16 2) 17. $ $ $50.00 ($ $31.75) (96 16) 2 $ Saxon Math Course 2

20 (374 87) , ( ) 87 $ $ * 30. Verify Why is 1 called the multiplicative identity? Early Finishers Real-World Application Jessica and her friend went to the local high school football game. The price of admission was $4.50. They each bought a bottle of water for $1.25 and a pickle. Together they spent a total of $ a. Find the cost of each pickle. b. Jessica had $10 to spend at the game. How much should she have left after buying her ticket, the water, and a pickle? Lesson 3 25

21 LESSON 4 Number Line Sequences Power Up facts mental math Building Power Power Up A a. Measurement: Five score b. Measurement: Ten dozen c. Number Sense: Half of 500 d. Number Sense: e. Number Sense: f. Number Sense: g. Measurement: Convert 2 gallons to quarts h. Calculation: Start with the number of feet in a yard. Multiply by 12; divide by 6; add 4; double that number; add 5; double that number; then double that number. What is the answer? problem solving Lawrence drew a closed shape with a wide gray marker. Then Marta drew a closed shape with a thin black pen. Marta s shape crosses Lawrence s shape exactly eight times. Is it possible for Marta to draw a closed shape that crosses Lawrence s shape only seven times? New Concepts Increasing Knowledge number line A number line can be used to help us arrange numbers in order. Each number corresponds to a unique point on the number line. The zero point of a number line is called the origin. The numbers to the right of the origin are called positive numbers, and they are all greater than zero. Every positive number has an opposite that is the same distance to the left of the origin. The numbers to the left of the origin are called negative numbers. Thinking Skill The negative numbers are all less than zero. Zero is neither positive nor Connect negative. Which are the counting numbers? Which are their opposites? less negative numbers positive numbers greater Saxon Math Course 2

22 Thinking Skill Generalize What will always be true when you compare a positive and a negative number? On this number line the tick marks indicate the location of integers. Integers include all of the counting numbers as well as their opposites their negatives and the number zero. Integers do not include fractions or any other numbers between consecutive tick marks on the number line. Integers {..., 3, 2, 1, 0, 1, 2, 3,...} The ellipses to the left and the right indicate that the number of negative and positive integers is infinite. Notice that the negative numbers are written with a negative sign. For 5 we say negative five. Positive numbers may be written with or without a positive sign. Both +5 and 5 are positive and equal to each other. As we move to the right on a number line, the numbers become greater and greater. As we move to the left on a number line, the numbers become less and less. A number is greater than another number if it is farther to the right on a number line. We compare two numbers by determining whether one is greater than the other or whether the numbers are equal. We place a comparison symbol between two numbers to show the comparison. The comparison symbols are the equal sign (=) and the greater than/less than symbols (> or <). We write the greater than and less than symbols so that the smaller end (the point) points to the number that is less. Below we show three comparisons. 5 < = 5 5 > 6 5 is less than 4 3 plus 2 equals 5 5 is greater than 6 Example 1 Arrange these numbers in order from least to greatest: 0, 1, 2 We arrange the numbers in the order in which they appear on a number line. 2, 0, 1 Example 2 Rewrite the expression below by replacing the circle with the correct comparison symbol. Then use words to write the comparison. Since 5 is less than 3, we write Negative five is less than three. Lesson 4 27

23 Example 3 We can use a number line to help us add and subtract. We will use arrows to show addition and subtraction. To add, we let the arrow point to the right. To subtract, we let the arrow point to the left. Show this addition problem on a number line: We start at the origin (at zero) and draw an arrow 3 units long that points to the right. From this arrowhead we draw a second arrow 2 units long that points to the right The second arrow ends at 5; = 5. Example 4 Show this subtraction problem on a number line: 5 3 Starting at the origin, we draw an arrow 5 units long that points to the right. To subtract, we draw a second arrow 3 units long that points to the left. Remember to draw the second arrow from the first arrowhead The second arrow ends at 2. This shows that 5 3 = 2. Example 5 Show this subtraction problem on a number line: 3 5 We take the numbers in the order given. Starting from the origin, we draw an arrow 3 units long that points to the right. From this arrowhead we draw a second arrow 5 units long that points to the left. The second arrow ends to the left of zero, which illustrates that the result of this subtraction is a negative number. 28 Saxon Math Course 2

24 The second arrow ends at 2. This shows that 3 5 = 2. Example 6 Together, examples 4 and 5 show graphically that subtraction is not commutative; that is, the order of the numbers affects the outcome in subtraction. In fact, notice that reversing the order of subtraction results in opposite differences. 5 3 = = 2 We can use this characteristic of subtraction to help us with subtraction problems like the next example. Simplify: We see that the result will be negative. We reverse the order of the numbers to perform the subtraction The answer to the original problem is the opposite of 464, which is 464. Discuss How do we know that the answer is the opposite of 464, and not 464? sequences A sequence is an ordered list of terms that follows a certain pattern or rule. A list of the whole numbers is an example of a sequence. 0, 1, 2, 3, 4,... If we wish to list the even or odd whole numbers, we could write the following sequences: Evens: 0, 2, 4, 6, 8,... Odds: 1, 3, 5, 7, 9,... These sequences are called arithmetic sequences because the same number is added to each term to find the next term. Thus the numbers in the sequence are equally spaced on a number line. Even Whole Numbers Odd Whole Numbers Lesson 4 29

25 Here is a different sequence: 1, 2, 4, 8, 16,... This sequence is called a geometric sequence because each term is multiplied by the same number to find the next term. Terms in a geometric sequence are not equally spaced on a number line. Example To continue a sequence, we study the sequence to understand its pattern or rule; then we apply the rule to find additional terms in the sequence. The first four terms of a sequence are shown below. Find the next three terms in the sequence. 1, 4, 9, 16,... This sequence is neither arithmetic nor geometric. We will describe two solutions. First we see that the terms increase in size by a larger amount as we move to the right in the sequence , 4, 9, 16,... The increase itself forms a sequence we may recognize: 3, 5, 7, 9, 11,.... We will continue the sequence by adding successively larger odd numbers , 4, 9, 16, 25, 36, 49,... We find that the next three numbers in the sequence are 25, 36, and 49. Another solution to the problem is to recognize the sequence as a list of perfect squares. When we multiply a counting number by itself, the product is a perfect square. 1 1 = = = = 16 Here we use figures to illustrate perfect squares Continuing this pattern, the next three terms are 5 5 = = = Saxon Math Course 2

26 Visit www. SaxonPublishers. com/activitiesc2 for a graphing calculator activity. The rule of a sequence might be expressed as a formula. A formula for the sequence of a perfect square is k = n n The variable n represents the position of the term (first, second, third,...) and k represents the value of the term (1, 4, 9,...). To find the eighth term of the sequence, we write 8 in place of n and find k. Since 8 8 is 64, the eighth term is 64. k = 8 8 Example 8 The rule of a certain sequence is k = 2n. Find the first four terms of the sequence. We substitute 1, 2, 3, and 4 for n to find the first four terms. First term Second term Third term Fourth term k = 2 k = 2 k = 2 k = 2(4) = 2 = 4 = 6 = 8 The first four terms of the sequence are 2, 4, 6, and 8. Practice Set Model For problems a c, draw a number line and use arrows to represent the addition or subtraction. a b. 4 2 c. 2 4 d. Arrange these numbers in order from least to greatest: 0, 1, 2, 3 e. Use digits and other symbols to write The sum of 2 and 3 is less than the product of 2 and 3. Replace each circle with the proper comparison symbol: f g h. Justify What is the first step you take before comparing the expressions in exercises f and g? i. Where is the origin on the number line? j. Simplify: k. Predict Find the next three numbers in this sequence:..., 3, 2, 1, 0, 1,... l. Find the next three terms of this sequence: 1, 4, 9, 16, 25, 36, 49,... Lesson 4 31

27 m. Use words to describe the rule of the following sequence. Then find the next three terms. 1, 2, 4, 8,... n. The rule of a certain sequence is k = (2n) 1. Find the first four terms of the sequence. Written Practice Strengthening Concepts 1. What is the difference when the sum of 5 and 4 is subtracted from the product of 3 and 3? * 2. (1, 3) * 3. (4) * 4. If the minuend is 27 and the difference is 9, what is the subtrahend? What is the name for numbers that are greater than zero? Evaluate each expression for n = 6 and m = 24: a. m n b. n m c. m n d. mn * 5. (4) Use digits and other symbols to write The product of 5 and 2 is greater than the sum of 5 and 2. * 6. (4) Analyze Arrange these numbers in order from least to greatest: 2, 1, 0, 1 * 7. * 8. (4) Explain If you know the divisor and the quotient, how can you find the dividend? Write a complete sentence to answer the question. Show this subtraction problem on a number line: 2 3 Find the value of each variable. * 9. * * 14. * 16. (2, 3) 12x = 12 * 10. z 123 = 654 * 12. p + $1.45 = $ k = 224 * n + 6 = m = 101 r 8 = 24 Justify Look at the first and second steps of solving this equation. Justify each of these steps. Step: Justification: 4 + (n + 9) = 20 Given equation 4 + (9 + n) = 20 a. (4 + 9) + n = 20 b n = = 13 n = = Saxon Math Course 2

28 * 17. (4) Replace each circle with the proper comparison symbol: a (6) b. 3 2 c d. xy yx Simplify: $ $ (20)(40) $ (36 ) (130 57) + 9 $ * 29. * 30. (4) Represent Use the numbers 2, 3, and 6 to illustrate the Associative Property of Multiplication. Generalize Use words to describe the rule of the following sequence. Then find the next two terms. 1, 10, 100,... Early Finishers Real-World Application The supply budget for the school play is $150. The manager has already spent $34.73 on costumes and $68.98 on furniture and backdrops. a. How much money is left in the supply budget? b. Is there enough money left to buy two lamps for $16.88 each and a vase for $12.25? Support your answer. Lesson 4 33

29 LESSON 5 Place Value Through Hundred Trillions Reading and Writing Whole Numbers Power Up facts mental math Building Power Power Up A a. Measurement: Half a score b. Measurement: Twelve dozen c. Number Sense: Ten hundreds d. Number Sense: e. Number Sense: f. Number Sense: g. Measurement: Convert 24 inches to feet h. Calculation: Start with the number of years in a century. Subtract 1; divide by 9; add 1; multiply by 3; subtract 1; divide by 5; multiply by 4; add 2; then find half of that number. What is the answer? problem solving Find each missing digit: 7 5 _ 0 _ 6 0 _ 4 _ 1 3 Understand We are shown a subtraction problem with several digits missing. We are asked to find the missing digits. Plan We will make intelligent guesses for each missing digit, then check our guesses using arithmetic. We will begin with the ones digits and then look at each place-value column separately. Solve Step 1: We find that seven is the missing digit in the ones place of the subtrahend, because 10 7 = 3. We also record that a ten was borrowed from the tens digit of the minuend. Step 2: We can find the missing digit in the tens column by adding up (remember to add the ten borrowed in regrouping): = 2. Step 3: To complete the subtraction in the hundreds column we must borrow from the thousands column. Regrouping gives us 15 6 = 9. We write a 9 in the hundreds place of the difference and change the 7 in the thousands place of the minuend to a 6. Step 4: To find the digit missing from the thousands place of the subtrahend, we subtract: 6 4 = 2. We write a 2 in the thousands place of the subtrahend. 7 5 _ 1 0 _ _ _ _ _ Saxon Math Course 2

30 Check We can check our work by verifying the arithmetic. We add up: = The missing digits we found are correct. New Concepts Increasing Knowledge place value through hundred trillions In our number system the value of a digit depends upon its position within a number. The value of each position is its place value. The chart below shows place values from the ones place to the hundred-trillions place. Whole Number Place Values hundred trillions ten trillions trillions hundred billions ten billions billions hundred millions ten millions millions hundred thousands ten thousands thousands hundreds tens ones decimal point,,,,. Example 1 a. Which digit is in the trillions place in the number 32,567,890,000,000? b. In 12,457,697,380,000, what is the place value of the digit 4? a. The digit in the trillions place is 2. b. The place value of the digit 4 is hundred billions. Example 2 We write a number in expanded notation by writing each nonzero digit times its place value. For example, we write 5280 in expanded notation this way: (5 1000) + (2 100) + (8 10) = = 5280 Write 25,000 in expanded notation. (2 10,000) + (5 1000) Justify Why do we multiply 10,000 by 2 and 1000 by 5? Lesson 5 35

31 reading and writing whole numbers Whole numbers with more than three digits may be written with commas to make the numbers easier to read. Commas help us read large numbers by separating the trillions, billions, millions, and thousands places. We need only to read the three-digit number in front of each comma and then say either trillion, billion, million, or thousand when we reach the comma.,,,, Example 3 trillion billion million thousand We will use the following guidelines when writing numbers as words: 1. Put commas after the words trillion, billion, million, and thousand. 2. Hyphenate numbers between 20 and 100 that do not end in zero. For example, 52, 76, and 95 are written fifty-two, seventy-six, and ninety-five. Use words to write 1,380,000,050,200. One trillion, three hundred eighty billion, fifty thousand, two hundred. Explain Why do we not say the millions when we read this number aloud? Example 4 Use words to write We start on the right and insert a comma every third place as we move to the left: 3,406,521 Three million, four hundred six thousand, five hundred twenty-one. Note: We do not write... five hundred and twenty-one. We never include and when saying or writing whole numbers. Example 5 Use digits to write twenty trillion, five hundred ten million. It may be helpful to first draw a skeleton of the number with places through the trillions. We use abbreviations for trillion, billion, million, and thousand. We will read the number until we reach a comma and then write what we have read. We read twenty trillion, so we write 20 before the trillions comma. 36 Saxon Math Course 2

32 2 0,,,, tr b m th Next we read five hundred ten million. We write 510 before the millions comma. 2 0,, 5 1 0,, tr b m th Since there are no billions, we write zeros in the three places before the billions comma. 2 0, 0 0 0, 5 1 0,, tr b m th To hold place values, we write zeros in the remaining places. Now we omit the dashes and write the number. 20,000,510,000,000 Example 6 Large numbers that end with many zeros are often named using a combination of digits and words, such as $3 billion for $3,000,000,000. Use only digits and commas to write 25 million. 25,000,000 Example 7 Terrell said he and his family traveled twenty-four hundred miles on a summer driving trip. Use digits to write the number of miles they traveled. Reading Math We can read the number 1200 as twelve hundred or as one thousand, two hundred. Counting up by hundreds, some people say eight hundred, nine hundred, ten hundred, eleven hundred, and so on for 800, 900, 1000, 1100,.... In this example Terrell said twenty-four hundred for 2400, which is actually two thousand, four hundred. Four-digit whole numbers are often written without commas, so either of these forms is correct: 2400 or 2,400. Lesson 5 37

33 Practice Set a. In 217,534,896,000,000, which digit is in the ten-billions place? b. In 9,876,543,210,000, what is the place value of the digit 6? c. Write 2500 in expanded notation. Use words to write each number: d e f. Explain How do we know where to place commas when writing the numbers in d and e as words? Use digits to write each number: g. twenty-five million, two hundred six thousand, forty h. fifty billion, four hundred two million, one hundred thousand i. $15 billion j. Explain What is a shorter, easier way to write $15,000,000? Written Practice * 1. (5) * 2. (4, 5) * 3. (5) * 4. (5) * 5. (5) * 6. (4) 7. (4) * 8. (4) 9. (4) Strengthening Concepts What is the sum of six hundred seven and two thousand, three hundred ninety-three? Use digits and other symbols to write One hundred one thousand is greater than one thousand, one hundred. Use words to write 50,574,006. Which digit is in the trillions place in the number 12,345,678,900,000? Use digits to write two hundred fifty million, five thousand, seventy. Replace the circle with the proper comparison symbol. Then write the comparison as a complete sentence, using words to write the numbers Arrange these numbers in order from least to greatest: 1, 4, 7, 0, 5, 7 Model Show this subtraction problem on a number line: 5 4. The rule of a certain sequence is k = 3n. Find the first four terms of the sequence. 38 Saxon Math Course 2

34 Find the value of each variable. * (5) Simplify: n = 960 * 11. b = 50 * d = 10,000 * 15. Write 750,000 in expanded notation. 37,428 59, a 1367 = 2500 $25.00 k = $ f 8 31,014 24, * 27. * 28. (4) * 29. (1, 4) $ $124 + $ (12 3) (500) 24. $10 ($ ) 26. (144 12) Which property can we use to find each unknown number? a. 365n = 365 b = 7m Generalize Use words to describe the rule of the following sequence. Then find the next three terms of the sequence...., 10, 8, 6, 4, 2,... Classify Name each set of numbers illustrated: a. {1, 2, 3, 4,...} b. {0, 1, 2, 3,...} c. {..., 2, 1, 0, 1, 2,...} * 30. (1, 4) Represent Use braces, an ellipsis, and digits to illustrate the set of negative even numbers. Lesson 5 39

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