- Prime And Composite Numbers
- The Fundamental Principle Of Arithmetic
- The Prime Factorization Of A Whole Number
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Inside Collection (Textbook): Elementary Algebra
Summary: This module is from Elementary Algebra by Denny Burzynski and Wade Ellis, Jr. This chapter contains many examples of arithmetic techniques that are used directly or indirectly in algebra. Since the chapter is intended as a review, the problem-solving techniques are presented without being developed. Therefore, no work space is provided, nor does the chapter contain all of the pedagogical features of the text. As a review, this chapter can be assigned at the discretion of the instructor and can also be a valuable reference tool for the student.
Notice that the only factors of 7 are 1 and 7 itself, and that the only factors of 23 are 1 and 23 itself.
A whole number greater than 1 whose only whole number factors are itself and 1 is called a prime number.
The first seven prime numbers are
2, 3, 5, 7, 11, 13, and 17
The number 1 is not considered to be a prime number, and the number 2 is the first and only even prime number.
Many numbers have factors other than themselves and 1. For example, the factors of 28 are 1, 2, 4, 7, 14, and 28 (since each of these whole numbers and only these whole numbers divide into 28 without a remainder).
A whole number that is composed of factors other than itself and 1 is called a composite number. Composite numbers are not prime numbers.
Some composite numbers are 4, 6, 8, 10, 12, and 15.
Prime numbers are very important in the study of mathematics. We will use them soon in our study of fractions. We will now, however, be introduced to an important mathematical principle.
Except for the order of the factors, every whole number, other than 1, can be factored in one and only one way as a product of prime numbers.
When a number is factored so that all its factors are prime numbers, the factorization is called the prime factorization of the number.
Find the prime factorization of 10.
Both 2 and 5 are prime numbers. Thus,
Find the prime factorization of 60.
The numbers 2, 3, and 5 are all primes. Thus,
Find the prime factorization of 11.
11 is a prime number. Prime factorization applies only to composite numbers.
The following method provides a way of finding the prime factorization of a whole number. The examples that follow will use the method and make it more clear.
Find the prime factorization of 60.
Since 60 is an even number, it is divisible by 2. We will repeatedly divide by 2 until we no longer can (when we start getting a remainder). We shall divide in the following way.
The prime factorization of 60 is the product of all these divisors.
Find the prime factorization of 441.
Since 441 is an odd number, it is not divisible by 2. We’ll try 3, the next largest prime.
The prime factorization of 441 is the product of all the divisors.
For the following problems, determine which whole numbers are prime and which are composite.
25
2
5
9
34
63
1044
339
For the following problems, find the prime factorization of each whole number. Use exponents on repeated factors.
26
54
56
480
2025
148,225
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This work is licensed by Wade Ellis and Denny Burzynski under a Creative Commons Attribution License (CC-BY 3.0), and is an Open Educational Resource.
Last edited by Denny Burzynski on Sep 17, 2009 3:01 pm -0500.
"Reviewer's Comments: 'I recommend this book for courses in elementary algebra. The chapters are fairly clear and comprehensible, making them quite readable. The authors do a particularly nice job […]"