Section 5 Chapter 11. 1 Copyright © 2012, 2008, 2004 Pearson Education, Inc. Objectives 2 3 4 Formulas and Further Applications Solve formulas for variables.

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Presentation transcript:

Section 5 Chapter 11

1 Copyright © 2012, 2008, 2004 Pearson Education, Inc. Objectives Formulas and Further Applications Solve formulas for variables involving squares and square roots. Solve applied problems using the Pythagorean theorem. Solve applied problems using area formulas. Solve applied problems using quadratic functions as models. 11.5

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Solve formulas for variables involving squares and square roots. Objective 1 Slide

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Solve the formula for the given variable. Keep ± in the answer. Solve for r. Slide CLASSROOM EXAMPLE 1 Solving for Variables Involving Squares or Square Roots Solution:

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Solve for a. Square both sides. Multiply by p. Divide by 900. Slide CLASSROOM EXAMPLE 1 Solving for Variables Involving Squares or Square Roots (cont’d) Solution: Solve the formula for the given variable.

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Solve 2t 2 – 5t + k = 0 for t. Use a = 2, b = –5, and c = k in the quadratic formula. The solutions are and Slide CLASSROOM EXAMPLE 2 Solving for a Variable That Appears in First- and Second-Degree Terms Solution:

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Solve applied problems using the Pythagorean theorem. Objective 2 Slide

Copyright © 2012, 2008, 2004 Pearson Education, Inc. A ladder is leaning against a house. The distance from the bottom of the ladder to the house is 5 ft. The distance from the top of ladder to the ground is 1 ft less than the length of the ladder. How long is ladder? Step 1 Read the problem carefully. Step 2 Assign the variable. Let x = the length of the ladder. Then, x – 1 = the distance from the top of the ladder to the ground. Slide CLASSROOM EXAMPLE 3 Using the Pythagorean Theorem Solution:

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Write an equation. The wall of the house is perpendicular to the ground, so this is a right triangle. Use the Pythagorean formula. Step 3 Step 4 Solve. Slide CLASSROOM EXAMPLE 3 Using the Pythagorean Theorem (cont’d)

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Step 5 State the answer. The length of the ladder is 13 feet and the distance of the top of the ladder to the ground is 12 feet. Step 6 Check = 13 2 and 12 is one less than 13, as required. Slide CLASSROOM EXAMPLE 3 Using the Pythagorean Theorem (cont’d)

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Solve applied problems using area formulas. Objective 3 Slide

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Suppose the pool is 20 ft by 40 ft. The homeowner wants to plant a strip of grass around the edge of the pool. There is enough seed to cover 700 ft 2. How wide should the grass strip be? Step 1Read the problem carefully. Step 2 Assign the variable. Let x = the width of the grass strip x Slide CLASSROOM EXAMPLE 4 Solving an Area Problem Solution:

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Write an equation. The width of the larger rectangle is x, and the length is x. Step 3 Step 4 Solve. Area of the rectangle– area of pool= area of grass Slide CLASSROOM EXAMPLE 4 Solving an Area Problem (cont’d)

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Step 5 State the answer. The width cannot be –35, so the grass strip should be 5 feet wide. Step 6 Check. If x = 5, then the area of the large rectangle is ( ) = = 1500 ft 2. The area of the pool is = 800ft 2. So, the area of the grass strip is 1500 – 800 = 700 ft 2, as required. The answer is correct. Slide CLASSROOM EXAMPLE 4 Solving an Area Problem (cont’d)

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Solve applied problems using quadratic functions as models. Objective 4 Slide

Copyright © 2012, 2008, 2004 Pearson Education, Inc. A ball is projected upward from the ground. Its distance in feet from the ground at t seconds is s(t) = – 16t t. At what time will the ball be 32 feet from the ground? s(t) = –16t t 32 = –16t t 16t 2 – 64t +32 = 0 t 2 – 4t + 2 = 0 Slide CLASSROOM EXAMPLE 5 Solving an Applied Problem Using a Quadratic Function Solution:

Copyright © 2012, 2008, 2004 Pearson Education, Inc. Use a = 1, b = –4, and c = 2 in the quadratic formula. The solutions are The ball will be at a height of 32 ft at about 0.6 seconds and 3.4 seconds. Slide CLASSROOM EXAMPLE 5 Solving an Applied Problem Using a Quadratic Function (cont’d)

Copyright © 2012, 2008, 2004 Pearson Education, Inc. The Consumer Price Index (CPI) is used to measure trends in prices for a “basket” of goods purchased by typical American families. This index uses a base year of 1967, which means that the index number for 1967 is 100. The quadratic function defined by approximates the CPI for the years , where x is the number of years that have elapsed since (Source: Bureau of Labor Statistics.) In what year did the CPI reach 450? (Round down for the year.) Slide CLASSROOM EXAMPLE 6 Using a Quadratic Function to Model the CPI Use the model to approximate the CPI for 2000, to the nearest whole number.

Copyright © 2012, 2008, 2004 Pearson Education, Inc. For 2000, x = 2000 − 1980, so find f (20). Slide CLASSROOM EXAMPLE 6 Using a Quadratic Function to Model the CPI (cont’d) Use the model to approximate the CPI for 2000, to the nearest whole number. Solution: The CPI for 2000 was about 519.

Copyright © 2012, 2008, 2004 Pearson Education, Inc. The CPI first reached 450 in yr = (The second solution is rejected as = 2192, which is far beyond period covered by the model. Slide CLASSROOM EXAMPLE 6 Using a Quadratic Function to Model the CPI (cont’d) In what year did the CPI reach 450? (Round down for the year.)