SEVENTH EDITION and EXPANDED SEVENTH EDITION
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1 SEVENTH EDITION and EXPANDED SEVENTH EDITION Slide 5-1
2 Chapter 5 Number Theory and the Real Number System
3 5.1 Number Theory
4 Number Theory The study of numbers and their properties. The numbers we use to count are called the Natural Numbers or Counting Numbers. = {1,2,3,4,5,...} Slide 5-4
5 Factors The natural numbers that are multiplied together to equal another natural number are called factors of the product. Example: The factors of 24 are 1, 2, 3, 4, 6, 8, 12 and 24. Slide 5-5
6 Divisors If a and b are natural numbers and the quotient of b divided by a has a remainder of 0, then we say that a is a divisor of b or a divides b. Slide 5-6
7 Prime and Composite Numbers A prime number is a natural number greater than 1 that has exactly two factors (or divisors), itself and 1. A composite number is a natural number that is divisible by a number other than itself and 1. The number 1 is neither prime nor composite, it is called a unit. Slide 5-7
8 Rules of Divisibility Divisible by Test Example 2 3 The number is even. The sum of the digits of the number is divisible by since = The number formed by the last two digits of the number is divisible by 4. The number ends in 0 or since Slide 5-8
9 Divisibility Rules, continued Divisible by Test Example The number is divisible by both 2 and 3. The number formed by the last three digits of the number is divisible by 8. The sum of the digits of the number is divisible by since since = The number ends in Slide 5-9
10 The Fundamental Theorem of Arithmetic Every composite number can be written as a unique product of prime numbers. This unique product is referred to as the prime factorization of the number. Slide 5-10
11 Finding Prime Factorizations Branching Method: Select any two numbers whose product is the number to be factored. If the factors are not prime numbers, then continue factoring each number until all numbers are prime. Slide 5-11
12 Example of branching method Therefore, the prime factorization of 3190 = Slide 5-12
13 Division Method 1. Divide the given number by the smallest prime number by which it is divisible. 2. Place the quotient under the given number. 3. Divide the quotient by the smallest prime number by which it is divisible and again record the quotient. 4. Repeat this process until the quotient is a prime number. Slide 5-13
14 Example of division method Write the prime factorization of The final quotient 17, is a prime number, so we stop. The prime factorization of 663 is Slide 5-14
15 Greatest Common Divisor The greatest common divisor (GCD) of a set of natural numbers is the largest natural number that divides (without remainder) every number in that set. Slide 5-15
16 Finding the GCD Determine the prime factorization of each number. Find each prime factor with smallest exponent that appears in each of the prime factorizations. Determine the product of the factors found in step 2. Slide 5-16
17 Example (GCD) Find the GCD of 63 and = = Smallest exponent of each factor: 3 and 7 So, the GCD is 3 7 = 21 Slide 5-17
18 Least Common Multiple The least common multiple (LCM) of a set of natural numbers is the smallest natural number that is divisible (without remainder) by each element of the set. Slide 5-18
19 Finding the LCM Determine the prime factorization of each number. List each prime factor with the greatest exponent that appears in any of the prime factorizations. Determine the product of the factors found in step 2. Slide 5-19
20 Example (LCM) Find the LCM of 63 and = = Greatest exponent of each factor: 3 2, 5 and 7 So, the GCD is = 315 Slide 5-20
21 Example of GCD and LCM Find the GCD and LCM of 48 and 54. Prime factorizations of each: 48 = = = = GCD = 2 3 = 6 LCM = = 432 Slide 5-21
22 5.2 The Integers
23 Whole Numbers The set of whole numbers contains the set of natural numbers and the number 0. Whole numbers = {0,1,2,3,4, } Slide 5-23
24 Integers The set of integers consists of 0, the natural numbers, and the negative natural numbers. Integers = { -4,-3,-2,-1,0,1,2,3,4, } On a number line, the positive numbers extend to the right from zero; the negative numbers extend to the left from zero. Slide 5-24
25 Writing an Inequality Insert either > or < in the box between the paired numbers to make the statement correct. a) 3 1 b) < 1 9 < 7 c) 0 4 d) > 4 6 < 8 Slide 5-25
26 Subtraction of Integers a b = a + ( b) Evaluate: a) 7 3 = 7 + ( 3) = 10 b) 7 ( 3) = = 4 Slide 5-26
27 Properties Multiplication Property of Zero a 0 = 0 a = 0 Division For any a, b, and c where b 0, = c means b that c b = a. a Slide 5-27
28 Rules for Multiplication The product of two numbers with like signs (positive positive or negative negative) is a positive number. The product of two numbers with unlike signs (positive negative or negative positive) is a negative number. Slide 5-28
29 Examples Evaluate: a) (3)( 4) b) ( 7)( 5) c) 8 7 d) ( 5)(8) Solution: a) (3)( 4) = 12 b) ( 7)( 5) = 35 c) 8 7 = 56 d) ( 5)(8) = 40 Slide 5-29
30 Rules for Division The quotient of two numbers with like signs (positive positive or negative negative) is a positive number. The quotient of two numbers with unlike signs (positive negative or negative positive) is a negative number. Slide 5-30
31 Example Evaluate: 72 9 a) b) = = 8 c) 72 d) 8 = 72 9 = 9 8 Slide 5-31
32 5.3 The Rational Numbers
33 The Rational Numbers The set of rational numbers, denoted by Q, is the set of all numbers of the form p/q, where p and q are integers and q 0. Slide 5-33
34 Fractions Fractions are numbers such as: 1 2 9,, and The numerator is the number above the fraction line. The denominator is the number below the fraction line. Slide 5-34
35 Reducing Fractions In order to reduce a fraction, we divide both the numerator and denominator by the greatest common divisor. 72 Example: Reduce to its lowest terms. 81 Solution: 72 = 72 9 = Slide 5-35
36 Mixed Numbers A mixed number consists of an integer and a fraction. For example, 3 ½ is a mixed number. 3 ½ is read three and one half and means 3 + ½. Slide 5-36
37 Improper Fractions Rational numbers greater than 1 or less than -1 that are not integers may be written as mixed numbers, or as improper fractions. An improper fraction is a fraction whose numerator is greater than its denominator. An example of an improper fraction is 12/5. Slide 5-37
38 Converting a Positive Mixed Number to an Improper Fraction Multiply the denominator of the fraction in the mixed number by the integer preceding it. Add the product obtained in step 1 to the numerator of the fraction in the mixed number. This sum is the numerator of the improper fraction we are seeking. The denominator of the improper fraction we are seeking is the same as the denominator of the fraction in the mixed Slide 5-38
39 Example Convert to an improper fraction ( ) = = = Slide 5-39
40 Converting a Positive Improper Fraction to a Mixed Number Divide the numerator by the denominator. Identify the quotient and the remainder. The quotient obtained in step 1 is the integer part of the mixed number. The remainder is the numerator of the fraction in the mixed number. The denominator in the fraction of the mixed number will be the same as the denominator in the original fraction. Slide 5-40
41 Example Convert to a mixed number The mixed number is Slide 5-41
42 Terminating or Repeating Decimal Numbers Every rational number when expressed as a decimal number will be either a terminating or repeating decimal number. Examples of terminating decimal numbers 0.7, 2.85, Examples of repeating decimal numbers which may be written 0.4, and which may be written Slide 5-42
43 Multiplication of Fractions a c a c ac = =, b 0, d 0. b d b d bd Division of Fractions a c a d ad = =, b 0, d 0, c 0. b d b c bc Slide 5-43
44 Example: Multiplying Fractions Evaluate the following. a) = 2 7 = 14 = b) = = = Slide 5-44
45 Example: Dividing Fractions Evaluate the following. a) = = = = b) = = = Slide 5-45
46 Addition and Subtraction of Fractions a b a+ b + =, c 0. c c c a b a b =, c 0. c c c Slide 5-46
47 Example: Add or Subtract Fractions Add: Subtract: = = = = = Slide 5-47
48 Fundamental Law of Rational Numbers If a, b, and c are integers, with b 0, c 0, then a a c a c ac = = = b b c b c bc. Slide 5-48
49 Example: Evaluate: Solution: = = = 60 Slide 5-49
50 5.4 The Irrational Numbers and the Real Number System
51 Pythagorean Theorem Pythagoras, a Greek mathematician, is credited with proving that in any right triangle, the square of the length of one side (a 2 ) added to the square of the length of the other side (b 2 ) equals the square of the length of the hypotenuse (c 2 ). a 2 + b 2 = c 2 Slide 5-51
52 Irrational Numbers An irrational number is a real number whose decimal representation is a nonterminating, nonrepeating decimal number. Slide 5-52
53 Radicals 2, 17, 53 are all irrational numbers. The symbol is called the radical sign. The number or expression inside the radical sign is called the radicand. Slide 5-53
54 Principal Square Root The principal (or positive) square root of a number n, written n is the positive number that when multiplied by itself, gives n. Slide 5-54
55 Perfect Square Any number that is the square of a natural number is said to be a perfect square. The numbers 1, 4, 9, 16, 25, 36, and 49 are the first few perfect squares. Slide 5-55
56 Product Rule for Radicals a b = a b, a 0, b 0. Simplify: a) = 4 10 = 2 10 = 2 10 b) = 5 25 = 5 5 = 5 5 Slide 5-56
57 Addition and Subtraction of Irrational Numbers To add or subtract two or more square roots with the same radicand, add or subtract their coefficients. The answer is the sum or difference of the coefficients multiplied by the common radical. Slide 5-57
58 Example: Adding or Subtracting Irrational Numbers Simplify: Simplify: = (4 + 3) 7 = = = = (8 5) 5 = 3 5 Slide 5-58
59 Multiplication of Irrational Numbers Simplify: = 6 54 = 324 = 18 Slide 5-59
60 Division of Irrational Numbers a b a =, a 0, b 0. b Slide 5-60
61 Example: Division Divide: 16 4 Divide: Solution: Solution: = = 4 = = = = 36 2 = 36 2 = 6 2 Slide 5-61
62 Rationalizing the Denominator A denominator is rationalized when it contains no radical expressions. To rationalize the denominator, multiply BOTH the numerator and the denominator by a number that will result in the radicand in the denominator becoming a perfect square. Then simplify the result. Slide 5-62
63 Example: Rationalize Rationalize the denominator of Solution: = = = = = 6 3 Slide 5-63
64 5.5 Real Numbers and their Properties
65 Real Numbers The set of real numbers is formed by the union of the rational and irrational numbers. Slide 5-65
66 Relationships Among Sets Real numbers Rational numbers Integers Whole numbers Natural numbers Irrational numbers Slide 5-66
67 Properties of the Real Number System Closure If an operation is performed on any two elements of a set and the result is an element of the set, we say that the set is closed under that given operation. Slide 5-67
68 Commutative Property Addition a + b = b + a for any real numbers a and b. Multiplication a. b= b. a for any real numbers a and b. Slide 5-68
69 Example = is a true statement. 5 9 = 9 5 is a true statement. Note: The commutative property does not hold true for subtraction or division. Slide 5-69
70 Associative Property Addition (a + b) + c = a + (b + c), Multiplication (a. b). c = a. (b. c), for any real numbers a, b, and c. for any real numbers a, b, and c. Slide 5-70
71 Example (3 + 5) + 6 = 3 + (5 + 6) is true. (4 6) 2 = 4 (6 2) is true. Note: The commutative property does not hold true for subtraction or division. Slide 5-71
72 Distributive Property Distributive property of multiplication over addition a. (b+ c) = a. b+ a. c for any real numbers a, b, and c. Example: 6(r + 12) = 6. r = 6r + 72 Slide 5-72
73 5.6 Rules of Exponents and Scientific Notation
74 Exponents When a number is written with an exponent, there are two parts to the expression: base exponent The exponent tells how many times the base should be multiplied together. 5 4 = Slide 5-74
75 Product Rule Simplify: = = 3 13 m n m+ n a a = a Simplify: = = 6 9 Slide 5-75
76 Quotient Rule Simplify: a a m n a, a 0 m n = Simplify: = = = = 9 9 Slide 5-76
77 Zero Exponent a 0 = 1, a 0 Simplify: (3y) 0 (3y) 0 = 1 Simplify: 3y 0 3y 0 = 3 (y 0 ) = 3(1) = 3 Slide 5-77
78 Negative Exponent m a 1 =, a 0 a m Simplify: = = Slide 5-78
79 Power Rule ( a m ) n = a m n Simplify: (3 2 ) 3 (3 2 ) 3 = = 3 6 Simplify: (2 3 ) 5 (2 3 ) 5 = = 2 15 Slide 5-79
80 Scientific Notation Many scientific problems deal with very large or very small numbers. 93,000,000,000,000 is a very large number is a very small number. Slide 5-80
81 Scientific Notation continued Scientific notation is a shorthand method used to write these numbers. 9.3 x and 4.82 x are two examples of the scientific numbers. Slide 5-81
82 To Write a Number in Scientific Notation: 1. Move the decimal point in the original number to the right or left until you obtain a number greater than or equal to 1 and less than Count the number of places you have moved the decimal point to obtain the number in step 1. If the original decimal point was moved to the left, the count is to be considered positive. If the decimal point was moved to the right, the count is to be considered negative. Slide 5-82
83 To Write a Number in Scientific Notation: continued 3. Multiply the number obtained in step 1 by 10 raised to the count found in step 2. (The count found in step 2 is the exponent on the base 10.) Slide 5-83
84 Example Write each number in scientific notation. a) 1,265,000, b) Slide 5-84
85 To Change a Number in Scientific Notation to Decimal Notation Observe the exponent on the 10. If the exponent is positive, move the decimal point in the number to the right the same number of places as the exponent. Adding zeros to the number might be necessary. If the exponent is negative, move the decimal point in the number to the left the same number of places as the exponent. Adding zeros might be necessary. Slide 5-85
86 Example Write each number in decimal notation. a) ,000 b) Slide 5-86
87 5.7 Arithmetic and Geometric Sequences
88 Sequences A sequence is a list of numbers that are related to each other by a rule. The terms are the numbers that form the sequence. Slide 5-88
89 Arithmetic Sequence An arithmetic sequence is a sequence in which each term after the first term differs from the preceding term by a constant amount. The common difference, d, is the amount by which each pair of successive terms differs. To find the difference, simply subtract any term from the term that directly follows it. Slide 5-89
90 General Term of an Arithmetic Sequence an = a1 + ( n 1) d Find the 5 th term of the arithmetic sequence whose first term is 4 and whose common difference is 8. an = a1 + ( n 1) d a 5 = 4 + (5 1)( 8) = 4 + (4)( 8) = 4 + ( 32) = 28 Slide 5-90
91 Sum of the First n Terms in an Arithmetic Sequence s n = na ( + a ) Find the sum of the first 50 terms in the arithmetic sequence: 2, 4, 6, 8, n s s s s n na ( 1 + an ) = 2 50( ) = 2 50(102) = 2 = 2550 Slide 5-91
92 Geometric Sequences A geometric sequence is one in which the ratio of any term to the term that directly precedes it is a constant. This constant is called the common ratio, r. r can be found by taking any term except the first and dividing it by the preceding term. Slide 5-92
93 General Term of a Geometric Sequence an = ar 1 n 1 Find the 6th term for the geometric sequence with the first term = 3 and the common ratio = 4. a a a a = = = = (3)4 (3) (3) Slide 5-93
94 Sum of the First n Terms in an Geometric Sequence s n n a = 1 (1 r ), r 1 1 r Slide 5-94
95 Example Find the sum of the first 4 terms of the geometric sequence for r = 2 and the first term = 3. s s s s (1 2 ) = 1 2 3(1 16) = 1 3( 15) = 1 45 = = 45 1 Slide 5-95
96 5.8 Fibonacci Sequence
97 The Fibonacci Sequence This sequence is named after Leonardo of Pisa, also known as Fibonacci. He was one of the most distinguished mathematicians of the Middle Ages. He is also credited with introducing the Hindu- Arabic number system into Europe. Slide 5-97
98 Fibonacci Sequence 1, 1, 2, 3, 5, 8, 13, 21, In the Fibonacci sequence, the first two terms are 1. The sum of these two terms gives us the third term (2). The sum of the 2 nd and 3 rd terms give us the 4 th term (3) and so on. Slide 5-98
99 In Nature In the middle of the 19 th century, mathematicians found strong similarities between this sequence and many natural phenomena. The numbers appear in many seed arrangements of plants and petal counts of many flowers. Fibonacci numbers are also observed in the structure of pinecones and pineapples. Slide 5-99
100 Divine Proportions Golden Number : The value obtained when the ratio of any term to the term preceding it in the Fibonacci sequence. Slide 5-100
101 Golden or Divine Proportion AB AC AC = = CB 2 Slide 5-101
102 Golden Rectangle length a + b a + = = = 5 1 width a b 2 Slide 5-102
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