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**1. 2. Lesson 8.3, For use with pages 565-571 2 x – . Graph y = ANSWER**

Find the vertical and horizontal asymptotes of y = 4x + 5 x – 1 ANSWER vertical: x = 1; horizontal: y = 4

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**8.4 Rationalize Expressions**

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**Factor numerator and denominator.**

EXAMPLE 1 Simplify a rational expression x2 – 2x – 15 x2 – 9 Simplify : SOLUTION x2 – 2x – 15 x2 – 9 (x +3)(x –5) (x +3)(x –3) = Factor numerator and denominator. (x +3)(x –5) (x +3)(x –3) = Divide out common factor. x – 5 x – 3 = Simplified form ANSWER x – 5 x – 3

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EXAMPLE 2 Solve a multi-step problem A company makes a tin to hold flavored popcorn. The tin is a rectangular prism with a square base. The company is designing a new tin with the same base and twice the height of the old tin. Packaging • Find the surface area and volume of each tin. • Calculate the ratio of surface area to volume for each tin. • What do the ratios tell you about the efficiencies of the two tins?

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**Divide out common factor.**

EXAMPLE 2 Solve a multi-step problem SOLUTION Old tin New tin STEP 1 S = 2s2 + 4sh S = 2s2 + 4s(2h) Find surface area, S. = 2s2 + 8sh V = s2h V = s2(2h) Find volume, V. = 2s2h STEP 2 S V 2s2 + 4sh = s2h S V 2s2 + 8sh = 2s2h Write ratio of S to V. 2s(s + 4h) = 2s(sh) s(22 + 4h) = s(sh) Divide out common factor. 2s + 4h = sh s + 4h = sh Simplified form

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EXAMPLE 2 Solve a multi-step problem STEP 3 2s + 4h sh > s + 4h Because the left side of the inequality has a greater numerator than the right side and both have the same (positive) denominator. The ratio of surface area to volume is greater for the old tin than for the new tin. So, the old tin is less efficient than the new tin.

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**Divide out common factor.**

GUIDED PRACTICE for Examples 1 and 2 Simplify the expression, if possible. 2(x + 1) (x + 1)(x + 3) 1. SOLUTION (x +1)(x + 3) 2(x +1) = 2(x + 1) (x + 1)(x + 3) Divide out common factor. = x + 3 2 Simplified form ANSWER x + 3 2

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**Factor numerator and denominator.**

GUIDED PRACTICE for Examples 1 and 2 2. 40x + 20 10x + 30 SOLUTION 40x + 20 10x + 30 = 20(2x +1) 10(x + 3) Factor numerator and denominator. 20(2x +1) 10(x + 3) = Divide out common factor. = 2(2x +1) x + 3 Simplified form 2(2x +1) x + 3 ANSWER

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**Simplified form GUIDED PRACTICE for Examples 1 and 2 3. 4 x(x + 2)**

SOLUTION x(x + 2) 4 Simplified form x(x + 2) 4 ANSWER

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**Factor numerator and denominator.**

GUIDED PRACTICE for Examples 1 and 2 4. x + 4 x 2 –16 SOLUTION (x + 4)(x – 4) x + 4 x 2 –16 (x + 4) = Factor numerator and denominator. (x + 4) (x + 4)(x – 4) = Divide out common factor. 1 x – 4 = Simplified form ANSWER 1 x – 4

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**Factor numerator and denominator.**

GUIDED PRACTICE for Examples 1 and 2 5. x2 – 2x – 3 x2 – x – 6 SOLUTION (x – 3)(x + 1) (x – 3)(x + 2) x2 – 2x – 3 x2 – x – 6 = Factor numerator and denominator. = (x – 3)(x + 1) (x – 3)(x + 2) Divide out common factor. x + 1 x + 2 = Simplified form x + 1 x + 2 ANSWER

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**Factor numerator and denominator.**

GUIDED PRACTICE for Examples 1 and 2 2x2 + 10x 3x2 + 16x + 5 6. SOLUTION 2x2 + 10x 3x2 + 16x + 5 (3x + 1)(x + 5) 2x(x + 5) = Factor numerator and denominator. (3x + 1)(x + 5) 2x(x + 5) = Divide out common factor. 2x 3x + 1 = Simplified form ANSWER 2x 3x + 1

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**Find surface area, S. Find volume, V. GUIDED PRACTICE**

for Examples 1 and 2 7. What If? In Example 2, suppose the new popcorn tin is the same height as the old tin but has a base with sides twice as long. What is the ratio of surface area to volume for this tin? SOLUTION Old tin New tin STEP 1 S = 2s2 + 4sh S = 2 (2s)2 + 4(2s)h Find surface area, S. = 8s2 + 8sh V = s2h V = (2s)2h Find volume, V. = 4s2h

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**Divide out common factor.**

GUIDED PRACTICE for Examples 1 and 2 STEP 2 S V 2s2 + 4sh = s2h S V 8s2 + 8sh = 2s2h Write ratio of S to V. 4s(2s + 2h) = 4s(sh) s(2s + 4h) = s(sh) Divide out common factor. = 2s + 4h sh 2s + 4h = sh Simplified form 2s + 4h = sh ANSWER

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**Multiply numerators and denominators.**

EXAMPLE 3 Standardized Test Practice SOLUTION 8x 3y 2x y2 7x4y3 4y 56x7y4 8xy3 = Multiply numerators and denominators. x x6 y3 y 8 x y3 = Factor and divide out common factors. 7x6y = Simplified form The correct answer is B. ANSWER

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**Factor numerators and denominators.**

EXAMPLE 4 Multiply rational expressions x2 + x – 20 3x 3x –3x2 x2 + 4x – 5 Multiply: SOLUTION x2 + x – 20 3x 3x –3x2 x2 + 4x – 5 3x(1– x) (x –1)(x +5) = (x + 5)(x – 4) 3x Factor numerators and denominators. 3x(1– x)(x + 5)(x – 4) = (x –1)(x + 5)(3x) Multiply numerators and denominators. 3x(–1)(x – 1)(x + 5)(x – 4) = (x – 1)(x + 5)(3x) Rewrite 1– x as (– 1)(x – 1). 3x(–1)(x – 1)(x + 5)(x – 4) = (x – 1)(x + 5)(3x) Divide out common factors.

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**Simplify. Multiply. EXAMPLE 4 Multiply rational expressions**

ANSWER –x + 4

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**Write polynomial as a rational expression.**

EXAMPLE 5 Multiply a rational expression by a polynomial Multiply: x + 2 x3 – 27 (x2 + 3x + 9) SOLUTION x + 2 x3 – 27 (x2 + 3x + 9) = x + 2 x3 – 27 x2 + 3x + 9 1 Write polynomial as a rational expression. (x + 2)(x2 + 3x + 9) (x – 3)(x2 + 3x + 9) = Factor denominator. (x + 2)(x2 + 3x + 9) (x – 3)(x2 + 3x + 9) = Divide out common factors. = x + 2 x – 3 Simplified form ANSWER x + 2 x – 3

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**Multiply numerators and denominators.**

GUIDED PRACTICE for Examples 3, 4 and 5 Multiply the expressions. Simplify the result. 3x5 y2 8xy 6xy2 9x3y 8. SOLUTION 3x5 y2 2xy 6xy2 9x3y 18x6y4 72x4y2 = Multiply numerators and denominators. 18 x4 y2 x2 y2 x4 y2 = Factor and divide out common factors. = x2y2 4 Simplified form

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**Factor numerators and denominators.**

GUIDED PRACTICE for Examples 3, 4 and 5 2x2 – 10x x + 3 9. x2– 25 2x2 SOLUTION x + 3 2x2 2x2 – 10x x2– 25 2x(x –5) (x –5)(x +5) = x + 3 2x (x) Factor numerators and denominators. 2x(x –5) (x + 3) = (x –5)(x + 5)2x (x) Multiply numerators and denominators. = 2x(x –5) (x + 3) (x –5)(x + 5)2x (x) Divide out common factors. x + 3 = x(x + 5) Simplified form

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**Multiply numerators and denominators.**

GUIDED PRACTICE for Examples 3, 4 and 5 x + 5 10. x2 +x + 1 x3– 1 SOLUTION x2 +x + 1 x + 5 x3– 1 = x2 +x + 1 x + 5 (x – 1) (x2 +x + 1) 1 Factor denominators. = (x + 5) (x2 +x + 1) (x – 1) (x2 +x + 1) Multiply numerators and denominators. (x + 5) (x2 +x + 1) (x – 1) (x2 +x + 1) = Divide out common factors. x + 5 = x – 1 Simplified form

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**Multiply by reciprocal.**

EXAMPLE 6 Divide rational expressions Divide : 7x 2x – 10 x2 – 6x x2 – 11x + 30 SOLUTION 7x 2x – 10 x2 – 6x x2 – 11x + 30 7x 2x – 10 x2 – 6x x2 – 11x + 30 = Multiply by reciprocal. 7x 2(x – 5) = (x – 5)(x – 6) x(x – 6) Factor. = 7x(x – 5)(x – 6) 2(x – 5)(x)(x – 6) Divide out common factors. 7 2 = Simplified form ANSWER 7 2

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**Multiply by reciprocal.**

EXAMPLE 7 Divide a rational expression by a polynomial Divide : 6x2 + x – 15 4x2 (3x2 + 5x) SOLUTION 6x2 + x – 15 4x2 (3x2 + 5x) 6x2 + x – 15 4x2 3x2 + 5x = 1 Multiply by reciprocal. (3x + 5)(2x – 3) 4x2 = x(3x + 5) 1 Factor. (3x + 5)(2x – 3) = 4x2(x)(3x + 5) Divide out common factors. 2x – 3 4x3 = Simplified form ANSWER 2x – 3 4x3

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**Multiply by reciprocal.**

GUIDED PRACTICE for Examples 6 and 7 Divide the expressions. Simplify the result. 4x 5x – 20 x2 – 2x x2 – 6x + 8 11. SOLUTION 4x 5x – 20 x2 – 2x x2 – 6x + 8 4x 5x – 20 x2 – 2x x2 – 6x + 8 = Multiply by reciprocal. 4(x)(x – 4)(x – 2) 5(x – 4)(x)(x – 2) = Factor. 4(x)(x – 4)(x – 2) 5(x – 4)(x)(x – 2) = Divide out common factors. 4 5 = Simplified form

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**Multiply by reciprocal.**

GUIDED PRACTICE for Examples 6 and 7 2x2 + 3x – 5 6x (2x2 + 5x) 12. SOLUTION 2x2 + 3x – 5 6x (2x2 + 5x) = 2x2 + 3x – 5 6x (2x2 + 5x) 1 Multiply by reciprocal. (2x + 5)(x – 1) 6x(x)(2 x + 5) = Factor. (2x + 5)(x – 1) 6x(x)(2 x + 5) = Divide out common factors. x – 1 6x2 = Simplified form

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