Preview Warm Up California Standards Lesson Presentation.

Slides:

Advertisements

Similar presentations

Operations on Rational Expressions Review

Advertisements

Multiplying and Dividing Rational Expressions

Warm Up Simplify each expression. Factor the expression.

Chapter 7 - Rational Expressions and Functions

Rational Expressions To add or subtract rational expressions, find the least common denominator, rewrite all terms with the LCD as the new denominator,

Simplifying Rational Expressions

CN #3 Ratio and Proportion

Solving Quadratic Equations by Using Square Roots

9.1 Multiplying and Dividing Rational Expressions

Holt Algebra Simplifying Rational Expressions 12-3 Simplifying Rational Expressions Holt Algebra 1 Warm Up Warm Up Lesson Presentation Lesson Presentation.

Holt Algebra Simplifying Rational Expressions Warm Up Simplify each expression Factor each expression. 3. x 2 + 5x x 2 – 64 (x + 2)(x.

Find the slope of the line through each pair of points.

Chapter 6 Section 6 Objectives 1 Copyright © 2012, 2008, 2004 Pearson Education, Inc. Solving Equations with Rational Expressions Distinguish between.

7-1 Integer Exponents Warm Up Warm Up Lesson Presentation Lesson Presentation California Standards California StandardsPreview.

Lesson 8-1: Multiplying and Dividing Rational Expressions

21(x * x *x) ÷ 7 (x*x) Otcq. Aim 2-1: How do we define and simplify rational expressions? HWk read 2-1 p 67# 1-10 Objective: SWBAT Simplify a Rational.

11-1 Square-Root Functions Warm Up Warm Up Lesson Presentation Lesson Presentation California Standards California StandardsPreview.

Multiplying and Dividing Rational Expressions

EXAMPLE 2 Rationalize denominators of fractions Simplify

7-1 Ratio and Proportion Warm Up Lesson Presentation Lesson Quiz

6.1 The Fundamental Property of Rational Expressions Rational Expression – has the form: where P and Q are polynomials with Q not equal to zero. Determining.

RATIONAL EXPRESSIONS. EVALUATING RATIONAL EXPRESSIONS Evaluate the rational expression (if possible) for the given values of x: X = 0 X = 1 X = -3 X =

RATIONAL EXPRESSIONS. Definition of a Rational Expression A rational number is defined as the ratio of two integers, where q ≠ 0 Examples of rational.

Vocabulary  Rational Expression – a ratio of 2 polynomial expressions.  Operations with rational numbers and rational expressions are similar.  Just.

1/29/13. Find the slope of the line through each pair of points. 1. (1, 5) and (3, 9) 2. (–6, 4) and (6, –2) Solve each equation x + 5 x + 6 x =

10-6 Dividing Polynomials Warm Up Warm Up Lesson Presentation Lesson Presentation California Standards California StandardsPreview.

3.8 Warm Up 1. (18x³ - 24x² + 12x) ∕ 6x 2. (5x² + 7x – 6) ∕ (x + 2) 3. (9x² + 5x – 6) ∕ (x + 1)

Chapter 12 Final Exam Review. Section 12.4 “Simplify Rational Expressions” A RATIONAL EXPRESSION is an expression that can be written as a ratio (fraction)

P.4 Rational Expressions. 2 What You Should Learn Find domains of algebraic expressions. Simplify rational expressions. Add, subtract, multiply, and divide.

11-9 Rational Equations and Functions Algebra 1 Glencoe McGraw-HillLinda Stamper.

10-7 Solving Rational Equations Warm Up Warm Up Lesson Presentation Lesson Presentation California Standards California StandardsPreview.

Holt CA Course Multiplying Polynomials by Monomials Warm Up Warm Up California Standards California Standards Lesson Presentation Lesson PresentationPreview.

7-5 Fractional Exponents Warm Up Warm Up Lesson Presentation Lesson Presentation California Standards California StandardsPreview.

Multiplying and Dividing Rational Expressions

2-7 Solving Equations with Rational Numbers Learn to solve equations with rational numbers.

Multiplying and Dividing Rational Expressions

Algebra 11-3 and Simplifying Rational Expressions A rational expression is an algebraic fraction whose numerator and denominator are polynomials.

Copyright © Cengage Learning. All rights reserved. Rational Expressions and Equations; Ratio and Proportion 6.

Over Lesson 11–2 5-Minute Check 1. Over Lesson 11–2 5-Minute Check 2.

Holt McDougal Algebra Multiplying and Dividing Rational Expressions Simplify rational expressions. Multiply and divide rational expressions. Objectives.

Holt Algebra Division Properties of Exponents 7-4 Division Properties of Exponents Holt Algebra 1 Warm Up Warm Up Lesson Quiz Lesson Quiz Lesson.

9.1 Simplifying Rational Expressions Objectives 1. simplify rational expressions. 2. simplify complex fractions.

Holt Algebra Dividing Polynomials Warm Up Divide. 1. m 2 n ÷ mn x 3 y 2 ÷ 6xy 3. (3a + 6a 2 ) ÷ 3a 2 b Factor each expression. 4. 5x x.

Simplifying Rational Expressions. Warm Up Simplify each expression Factor each expression. 3. x 2 + 5x x 2 – 64 (x + 2)(x + 3) 5. 2x 2 +

You have seen positive exponents

Holt Algebra Solving Rational Equations Warm Up 1. Find the LCM of x, 2x 2, and Find the LCM of p 2 – 4p and p 2 – 16. Multiply. Simplify.

Simplify Rational Expression Lesson Warm Up Simplify each expression Factor each expression. 3. x 2 + 5x x 2 – 64 (x + 2)(x + 3) 5.

Chapter 6 Rational Expressions and Equations

Objectives Add and subtract rational expressions.

Chapter 8 Rational Expressions.

Simplifying Rational Expressions

Factor Polynomials Completely

EXAMPLE 2 Rationalize denominators of fractions Simplify

8.1 Multiplying and Dividing Rational Expressions

Factor x2 + bx + c Warm Up Lesson Presentation Lesson Quiz.

Rational Expressions and Equations

Multiplying and Dividing Rational Expressions

Multiplying and Dividing Rational Expressions

(x + 2)(x2 – 2x + 4) Warm-up: Factor: x3 + 8

Have out to be checked: P. 680/14-23 all, 29; Don't graph 22 and 23.

Without a calculator, simplify the expressions:

Warm Up Simplify each expression. 1. Factor each expression.

Look for common factors.

Algebra Section 11-1 : Rational Expressions and Functions

Multiplying and Dividing Rational Expressions

A rational expression is a quotient of two polynomials

Unit 12 Rationals (Algebraic)

Presentation transcript:

Preview Warm Up California Standards Lesson Presentation

Warm Up Simplify each expression. 1. 2. Factor each expression. 3. x2 + 5x + 6 4. 4x2 – 64 (x + 2)(x + 3) 5. 2x2 + 3x + 1 6. 9x2 + 60x + 100 (2x + 1)(x + 1) 4(x + 4)(x – 4) (3x +10)2

California Standards 12.0 Students simplify fractions with polynomials in the numerator and denominator by factoring both and reducing them to the lowest terms.

Vocabulary rational expression

A rational expression is an algebraic expression whose numerator and denominator are polynomials. The value of the polynomial expression in the denominator cannot be zero since division by zero is undefined. This means that rational expressions, like rational functions, may have excluded values.

Additional Example 1A: Identifying Excluded Values Find any excluded values of each rational expression. g + 4 = 0 Set the denominator equal to 0. g = –4 Solve for g by subtracting 4 from each side. The excluded value is –4.

Additional Example 1B: Identifying Excluded Values Find any excluded values of each rational expression. x2 – 15x = 0 Set the denominator equal to 0. x(x – 15) = 0 Factor. x = 0 or x – 15 = 0 Use the Zero Product Property. x = 0 or x = 15 Solve for x. The excluded values are 0 and 15.

Additional Example 1C: Identifying Excluded Values Find any excluded values of each rational expression. y2 + 5y + 4 = 0 Set the denominator equal to 0. (y + 4)(y + 1) = 0 Factor. y + 4 = 0 or y + 1 = 0 Use the Zero Product Property. y = –4 or y = –1 Solve each equation for y. The excluded values are –4 and –1.

To review the Zero Product Property, see Lesson 9-5. To review factoring trinomials, see Chapter 8. Remember!

Check It Out! Example 1a Find any excluded values of each rational expression. Set the denominator equal to 0. t2 + 5 = 0 There are no values of t that make the denominator equal to 0. There are no excluded values.

Check It Out! Example 1b Find any excluded values of each rational expression. b2 + 5b = 0 Set the denominator equal to 0. b(b + 5) = 0 Factor. b = 0 or b + 5 = 0 Use the Zero Product Property. b = –5 b = 0 or Solve for b. The excluded values are 0 and –5.

Check It Out! Example 1c Find any excluded values of each rational expression. k2 + 7k + 12 = 0 Set the denominator equal to 0. (k + 4)(k + 3) = 0 Factor. k + 4 = 0 or k + 3 = 0 Use the Zero Product Property. k = –4 or k = –3 Solve each equation for k. The excluded values are –4 and –3.

A rational expression is in its simplest form when the numerator and denominator have no common factors except 1. Remember that to simplify fractions, you can divide out common factors that appear in both the numerator and the denominator. You can do the same to simplify rational expressions.

Additional Example 2A: Simplifying Rational Expressions Simplify each rational expression, if possible. Identify any excluded values. 4 Factor 14. Divide out common factors. Note that if r = 0, the expression is undefined. Simplify. The excluded value is 0.

Additional Example 2B: Simplifying Rational Expressions Simplify each rational expression, if possible. Identify any excluded values. Factor 6n² + 3n. Divide out common factors. Note that if n = , the expression is undefined. 3n; n ≠ Simplify. The excluded value is .

Additional Example 2C: Simplifying Rational Expressions Simplify each rational expression, if possible. Identify any excluded values. 3p – 2 = 0 There are no common factors. Add 2 to both sides. 3p = 2 Divide both sides by 3. The excluded value is

Be sure to use the original denominator when finding excluded values Be sure to use the original denominator when finding excluded values. The excluded values may not be “seen” in the simplified denominator. Caution

Check It Out! Example 2a Simplify each rational expression, if possible. Identify any excluded values. Factor 15. Divide out common factors. Note that if m = 0, the expression is undefined. Simplify. The excluded value is 0.

Check It Out! Example 2b Simplify each rational expression, if possible. Identify any excluded values. Factor the numerator. Divide out common factors. Note that the expression is not undefined. Simplify. There is no excluded value.

Check It Out! Example 2c Simplify each rational expression, if possible. Identify any excluded values. The numerator and denominator have no common factors. The excluded value is 2.

From this point forward, you do not need to include excluded values in your answers unless they are asked for.

Additional Example 3: Simplifying Rational Expressions with Trinomials Simplify each rational expression, if possible. A. Factor the numerator and the denominator when possible. B. Divide out common factors. Simplify.

Divide out common factors. Check It Out! Example 3 Simplify each rational expression, if possible. a. b. Factor the numerator and the denominator when possible. Divide out common factors. Simplify.

Recall from Chapter 8 that opposite binomials can help you factor polynomials. Recognizing opposite binomials can also help you simplify rational expressions. Consider The numerator and denominator are opposite binomials. Therefore,

Simplify each rational expression, if possible. Additional Example 4: Simplifying Rational Expressions Using Opposite Binomials Simplify each rational expression, if possible. A. B. Factor. Identify opposite binomials. Rewrite one opposite binomial.

Additional Example 4 Continued Simplify each rational expression, if possible. A. B. Divide out common factors. Simplify.

Simplify each rational expression, if possible. Check It Out! Example 4 Simplify each rational expression, if possible. a. b. Factor. Identify opposite binomials. Rewrite one opposite binomial.

Check It Out! Example 4 Continued Simplify each rational expression, if possible. a. b. Divide out common factors. Simplify.

Check It Out! Example 4 Simplify each rational expression, if possible. c. Factor. Divide out common factors. Simplify.

Additional Example 5: Application A theater at an amusement park is shaped like a sphere. The sphere is held up with support rods. a. What is the ratio of the theater’s volume to its surface area? (Hint: For a sphere, V = and S = 4r2.) Write the ratio of volume to surface area. Divide out common factors.

Additional Example 5 Continued Use properties of exponents. To divide by 4 multiply by the reciprocal of 4. Divide out common factors. Simplify.

Additional Example 5 Continued b. Use this ratio to find the ratio of the theater’s volume to its surface area when the radius is 45 feet. Write the ratio of volume to surface area. Substitute 45 for r. The ratio of volume to surface area of the theater is 15:1.

Check It Out! Example 5 Which barrel cactus has less of a chance to survive in the desert, one with a radius of 6 inches or one with a radius of 3 inches? Explain. Write the ratio of surface to volume twice. Substitute 6 and 3 for r. Compare the ratios. The barrel cactus with a radius of 3 inches has less of a chance to survive. Its surface-area-to-volume ratio is greater than for a cactus with a radius of 6 inches.

For two fractions with the same numerator, the value of the fraction with a greater denominator is less than the value of the other fraction. 9 > 3 Remember!

Lesson Quiz: Part I Find any excluded values of each rational expression. 2. 0, 2 1. Simplify each rational expression, if possible. 3. 4. 5.

Lesson Quiz: Part II 6. Calvino is building a rectangular tree house. The length is 10 feet longer than the width. His friend Fabio is also building a tree house, but his is square. The sides of Fabio’s tree house are equal to the width of Calvino’s tree house. a. What is the ratio of the area of Calvino’s tree house to the area of Fabio’s tree house? b. Use this ratio to find the ratio of the areas if the width of Calvino’s tree house is 14 feet.