The multiples of an integer are the products that result when that integer is
multiplied by another integer. For example, the multiples of 12 are 12(1) =
12, 12(2) = 24, 12(3) = 36,....Note that multiples and factors are essentially opposites of each other.
Since 6 is a factor of 24, 24 is a multiple of 6.The GRE expresses the preceding relationships in several ways. All of the following
sentences mean the same thing:2 is a factor of 12 12 is a multiple of 2
2 is a divisor of 12 12 is divisible by 2
2 divides evenly into 12 12 divided by 2 yields an integerMany test-takers tend to confuse factors and multiples. If this is the case, think to
yourself that there are finite factors and many multiples. The factors are what create
a number and the multiples are what result from that number.Prime Factors and the Factor Tree
Any number will always have 1 and itself as divisors. If an integer is divisible only
by 1 and itself, then it is a prime number. Examples of prime numbers are 2, 3, 5, 7,
11, 13, and so on.1 is not a prime number, and 2 is the only even prime number!A prime factor is any factor of an integer that is also prime. For example, 2 and
3 are prime factors of 12, but 4 is not. There are two important properties about
prime factors:- Any integer can be expressed as the product of its prime factors. For example:
12 = 2 × 2 × 3. - The factors of any integer will be completely determined by the prime factors
of that integer. For example, 12 = 2 × 2 × 3. The factors of 12 are 1, 2, 3, (2 × 2),
(2 × 3), (2 × 2 × 3).
To determine the prime factors of a number, you should create a factor tree. The
following is the factor tree for 240.176 PART 4 ■ MATH REVIEW03-GRE-Test-2018_173-312.indd 176 12/05/17 11:51 am