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Section 5

Chapter 8. Section 5. Multiplying and Dividing Radical Expressions. Multiply radical expressions. Rationalize denominators with one radical term. Rationalize denominators with binomials involving radicals. Write radical quotients in lowest terms. 8.5. Multiply radical expressions.

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Section 5

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  1. Chapter 8 Section 5

  2. Multiplying and Dividing Radical Expressions Multiply radical expressions. Rationalize denominators with one radical term. Rationalize denominators with binomials involving radicals. Write radical quotients in lowest terms. 8.5

  3. Multiply radical expressions. Objective 1 Slide 8.5- 3

  4. We multiply binomial expressions involving radicals by using the FOILmethod from Section 5.4. Recall that this method refers to multiplying the First terms, Outer terms, Inner terms, and Last terms of the binomials. Multiply radical expressions. Slide 8.5- 4

  5. Multiply, using the FOIL method. CLASSROOM EXAMPLE 1 Multiplying Binomials Involving Radical Expressions Solution: F O I L This is a difference of squares. Slide 8.5- 5

  6. CLASSROOM EXAMPLE 1 Multiplying Binomials Involving Radical Expressions (cont’d) Multiply, using the FOIL method. Solution: Difference of squares Slide 8.5- 6

  7. Rationalize denominators with one radical term. Objective 2 Slide 8.5- 7

  8. Rationalizing the Denominator A common way of “standardizing” the form of a radical expression is to have the denominator contain no radicals. The process of removing radicals from a denominator so that the denominator contains only rational numbers is called rationalizing the denominator. This is done by multiplying y a form of 1. Rationalize denominators with one radical. Slide 8.5- 8

  9. Rationalize each denominator. CLASSROOM EXAMPLE 2 Rationalizing Denominators with Square Roots Solution: Multiply the numerator and denominator by the denominator. This is in effect multiplying by 1. Slide 8.5- 9

  10. CLASSROOM EXAMPLE 2 Rationalizing Denominators with Square Roots (cont’d) Rationalize the denominator. Solution: Slide 8.5- 10

  11. Simplify the radical. CLASSROOM EXAMPLE 3 Rationalizing Denominators in Roots of Fractions Solution: Product Rule Factor. Product Rule Multiply by radical in denominator. Slide 8.5- 11

  12. CLASSROOM EXAMPLE 3 Rationalizing Denominators in Roots of Fractions (cont’d) Simplify the radical. Solution: Slide 8.5- 12

  13. Simplify. CLASSROOM EXAMPLE 4 Rationalizing Denominators with Cube and Fourth Roots Solution: Slide 8.5- 13

  14. Rationalize denominators with binomials involving radicals. Objective 3 Slide 8.5- 14

  15. To rationalize a denominator that contains a binomial expression (one that contains exactly two terms) involving radicals, such as we must use conjugates. The conjugate of In general, x + y and x − y are conjugates. Rationalize denominators with binomials involving radicals. Slide 8.5- 15

  16. Rationalize denominators with binomials involving radicals. Slide 8.5- 16

  17. Rationalize the denominator. CLASSROOM EXAMPLE 5 Rationalizing Binomial Denominators Solution: Slide 8.5- 17

  18. Rationalize the denominator. CLASSROOM EXAMPLE 5 Rationalizing Binomial Denominators (cont’d) Solution: Slide 8.5- 18

  19. CLASSROOM EXAMPLE 5 Rationalizing Binomial Denominators (cont’d) Rationalize the denominator. Solution: Slide 8.5- 19

  20. CLASSROOM EXAMPLE 5 Rationalizing Binomial Denominators (cont’d) Rationalize the denominator. Solution: Slide 8.5- 20

  21. Write radical quotients in lowest terms. Objective 4 Slide 8.5- 21

  22. Write the quotient in lowest terms. Be careful to factor before writing a quotient in lowest terms. CLASSROOM EXAMPLE 6 Writing Radical Quotients in Lowest Terms Solution: Factor the numerator and denominator. Divide out common factors. Slide 8.5- 22

  23. CLASSROOM EXAMPLE 6 Writing Radical Quotients in Lowest Terms (cont’d) Write the quotient in lowest terms. Solution: Product rule Factor the numerator. Divide out common factors. Slide 8.5- 23

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