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Rev.S08 MAC 1105 Module 7 Additional Equations and Inequalities.

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Presentation on theme: "Rev.S08 MAC 1105 Module 7 Additional Equations and Inequalities."— Presentation transcript:

1 Rev.S08 MAC 1105 Module 7 Additional Equations and Inequalities

2 Rev.S08 2 Learning Objectives Upon completing this module, you should be able to: 1. Use properties of rational exponents (rational powers). 2. Understand radical notation. 3. Solve equations involving rational powers. 4. Solve radical equations. 5. Solve absolute value equations 6. Solve inequalities involving absolute values. 7. Solve quadratic inequalities. http://faculty.valenciacc.edu/ashaw/ Click link to download other modules.

3 3 Rev.S08 Let’s Review Some Properties of Rational Exponents http://faculty.valenciacc.edu/ashaw/ Click link to download other modules.

4 4 Rev.S08 Let’s Practice Some Simplification http://faculty.valenciacc.edu/ashaw/ Click link to download other modules. Simplify each expression by hand. 8 2/3 b) (–32) –4/5 Solutions

5 5 Rev.S08 What are Power Functions? http://faculty.valenciacc.edu/ashaw/ Click link to download other modules. Power functions typically have rational exponents. A special type of power function is a root function. Examples of power functions include: f 1 (x) = x 2, f 2 (x) = x 3/4, f 3 (x) = x 0.4, and f 4 (x) =

6 6 Rev.S08 What are Power Functions? (Cont.) http://faculty.valenciacc.edu/ashaw/ Click link to download other modules. Often, the domain of a power function f is restricted to nonnegative numbers. Suppose the rational number p/q is written in lowest terms. The domain of f(x) = x p/q is all real numbers whenever q is odd and all nonnegative numbers whenever q is even. The following graphs show 3 common power functions.

7 7 Rev.S08 How to Solve Equations Involving Rational Powers? http://faculty.valenciacc.edu/ashaw/ Click link to download other modules. Example Solve 4x 3/2 – 6 = 6. Approximate the answer to the nearest hundredth, and give graphical support. Solutions Symbolic SolutionGraphical Solution 4x 3/2 – 6 = 6 4x 3/2 = 12 (x 3/2 ) 2 = 3 2 x 3 = 9 x = 9 1/3 x = 2.08

8 8 Rev.S08 How to Solve an Equation Involving Radical? http://faculty.valenciacc.edu/ashaw/ Click link to download other modules. When solving equations that contain square roots, it is common to square each side of an equation. Example Solve Solution

9 9 Rev.S08 How to Solve an Equation Involving Radical? (Cont.) http://faculty.valenciacc.edu/ashaw/ Click link to download other modules. Check Substituting these values in the original equation shows that the value of 1 is an extraneous solution because it does not satisfy the given equation. Therefore, the only solution is 6.

10 10 Rev.S08 How to Solve Equation Involving Radicals? http://faculty.valenciacc.edu/ashaw/ Click link to download other modules. Some equations may contain a cube root. Solve Solution Both solutions check, so the solution set is

11 Rev.S08 11 Let’s Review the Absolute Value Function The symbol for the absolute value of x isThe symbol for the absolute value of x is The absolute value function is a piecewise-defined function. The output from the absolute value function is never negative. http://faculty.valenciacc.edu/ashaw/ Click link to download other modules.

12 Rev.S08 12 How to Solve an Absolute Value Equation? Example: SolveExample: Solve http://faculty.valenciacc.edu/ashaw/ Click link to download other modules.

13 Rev.S08 13 How to Solve Absolute Value Inequalities? Example: Solve │1 − 2x │ > 3Example: Solve │1 − 2x │ > 3 From the previous example the solutions of the From the previous example the solutions of the equation │1 − 2x │ = 3 are −1 and 2. equation │1 − 2x │ = 3 are −1 and 2. - Thus the solutions for the inequality │1 − 2x │ > 3 are x 2. [Hint: See 2. above.] - Thus the solutions for the inequality │1 − 2x │ > 3 are x 2. [Hint: See 2. above.] - In interval notation this is (−∞, −1) U (2, ∞)- In interval notation this is (−∞, −1) U (2, ∞) http://faculty.valenciacc.edu/ashaw/ Click link to download other modules.

14 Rev.S08 14 How to Solve a Quadratic Inequality? A first step in solving a quadratic inequality is to determine the x-values where equality occurs. These x-values are the boundary numbers. Let’s look at a quadratic inequality graphically. The graph of a quadratic function opens either upward or downward. In this case, a = 1, parabola opens up, and we have x-intercepts: −1 and 2 http://faculty.valenciacc.edu/ashaw/ Click link to download other modules.

15 Rev.S08 15 How to Solve a Quadratic Inequality? (Cont.) Note the parabola lies below the x-axis between the intercepts for the equation x 2 − x − 2 = 0 Solutions to x 2 − x − 2 < 0, is the solution set {x|−1 < x < 2} or (−1, 2) in interval notation. Solutions to x 2 − x − 2 > 0 include x-values either left of x = −1 or right of x = 2, where the parabola is above the x-axis, and thus {x|x 2}. http://faculty.valenciacc.edu/ashaw/ Click link to download other modules.

16 Rev.S08 16 Example Solve the inequality. Write the solution set for each in interval notation. a) 3x 2 + x − 4 = 0b) 3x 2 + x − 4 < 0 c) 3x 2 + x − 4 > 0 Solution a) Factoring (3x + 4)(x – 1) = 0 x = – 4/3 x = 1 The solutions are – 4/3 and 1. http://faculty.valenciacc.edu/ashaw/ Click link to download other modules.

17 Rev.S08 17 Example (Cont.) b) 3x 2 + x − 4 < 0 Parabola opening upward. x-intercepts are −4/3 and 1 Below the x-axis (y < 0) Solution set: (– 4/3, 1) c) 3x 2 + x − 4 > 0 Above the x axis (y > 0) Solution set: (−∞, −4/3)  (1, ∞) http://faculty.valenciacc.edu/ashaw/ Click link to download other modules. y < 0 y > 0

18 Rev.S08 18 Solving Quadratic Inequalities in 4 Steps http://faculty.valenciacc.edu/ashaw/ Click link to download other modules.

19 Rev.S08 19 What have we learned? We have learned to: 1. Use properties of rational exponents (rational powers). 2. Understand radical notation. 3. Solve equations involving rational powers. 4. Solve radical equations. 5. Solve absolute value equations 6. Solve inequalities involving absolute values. 7. Solve quadratic inequalities. http://faculty.valenciacc.edu/ashaw/ Click link to download other modules.

20 Rev.S08 20 Credit Some of these slides have been adapted/modified in part/whole from the slides of the following textbook: Rockswold, Gary, Precalculus with Modeling and Visualization, 3th Edition http://faculty.valenciacc.edu/ashaw/ Click link to download other modules.

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