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Published byAdrian Walker Modified over 9 years ago
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Millhouse squared the numbers 2 and 3, and then added 1 to get a sum of 14. ◦ 2 2 + 3 2 + 1 = 14 Lisa squared the numbers 5 and 6, and then added 1 to get a sum of 62. ◦ 5 2 + 6 2 + 1 = 62 14 and 62 are both divisible by 2, thus the greatest common factor of 14 and 62 is 2.
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A FACTOR is a number that can be expressed as a product of two or more numbers ◦ e.g. a factor of 9 is 3 ◦ a factor of 10 is 2; another factor is 5 The Greatest Common Factor is the largest factor that is common to two numbers ◦ EX. What is the greatest common factor of 15 and 100? Factors of 15: 1, 3, 5, 15 Factors of 100: 1, 2, 4, 5, 10, 20, 25, 100 1 and 5 are common factors, but the greatest common factor is 5.
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EX. Simplify the following expression by factoring: ◦ 12 – 27 ◦ What is common to both terms? 3. ◦ We divide out 3 from both terms ◦ 3(4 – 9) ◦ 3(-5) ◦ -15
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If you were asked to simplify an algebraic expression, you would do the same thing EX. Factor 3x 2 – 6x ◦ What is common to both? 3 and x; divide out 3 first: ◦ 3(x 2 – 2x) ◦ Now we can divide out x as well: ◦ 3x(x – 2) So, starting with the polynomial 3x 2 – 6x, we found its factors to be 3x and (x-2).
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EX. Factor the following expressions. a) 10a 3 – 25a 2 ◦ The GCF to both terms is 5a 2, so divide it out ◦ 5a 2 (2a – 5) b) 9x 4 y 4 + 12x 3 y 2 – 6x 2 y 3 ◦ The GCF of all 3 terms is 3x 2 y 2, so divide it out ◦ 3x 2 y 2 (3x 2 y 2 + 4x – 2y)
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EX. Factor the expression. 5x(x-2) – 3(x-2) (x-2) is common to both terms, so factor it out (x-2)(5x-3)
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Factoring is the opposite of expanding ◦ Expanding – multiplying ◦ Factoring – dividing One way to factor an algebraic expression is to look for the greatest common factor (GCF) of the terms in the expression
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