1. Chapter 9
Section 2

2. Solving Quadratic Equations by Completing the Square
9.2
Solving Quadratic Equations by Completing the Square
Solve quadratic equations by completing the square when the coefficient of the second-degree term is 1.
Solve quadratic equations by completing the square when the coefficient of the second-degree term is not 1.
Simplify the terms of an equation before solving.
Solve applied problems that require quadratic equations. 2 3 4

3. Objective 1
Solve quadratic equations by completing the square when the coefficient of the second-degree term is 1.
Slide 9.2-3

4. Solve quadratic equations by completing the square when the coefficient of the second-degree term is 1.
The methods studied so far are not enough to solve the equation
x2 + 6x + 7 = 0.
If we could write the equation in the form (x + 3)2 equals a constant, we could solve it with the square root property discussed in Section 9.1. To do that, we need to have a perfect square trinomial on one side of the equation.
Recall from Section 6.4 that a perfect square trinomial has the form
x2 + 2kx + k2 or x2 – 2kx + k2,
where k represents a number.
Slide 9.2-4

5. Creating Perfect Square Trinomials
EXAMPLE 1
Creating Perfect Square Trinomials
Complete each trinomial so that it is a perfect square. Then factor the trinomial.
x2 + 12x + ______ x2 – 14x + ______
Solution:
Factored as:
Factored as:
Slide 9.2-5

6. Solve quadratic equations by completing the square when the coefficient of the second-degree term is 1. (cont’d)
The process of changing the form of the equation from
x2 + 6x + 7 = 0 to (x + 3)2 = 2
is called completing the square. Completing the square changes only the form of the equation.
Completing the square not only provides a method for solving quadratic equations, but also is used in other ways in algebra (finding the coordinates of the center of a circle, finding the vertex of a parabola, and so on).
Slide 9.2-6

7. Rewriting an Equation to Use the Square Root Property
EXAMPLE 2
Rewriting an Equation to Use the Square Root Property
Solve x2 – 20x + 34 = 0.
Solution:
Slide 9.2-7

8. Completing the Square to Solve a Quadratic Equation
EXAMPLE 3
Completing the Square to Solve a Quadratic Equation
Solve x2 + 4x = 1.
Solution:
Slide 9.2-8

9. Objective 2
Solve quadratic equations by completing the square when the coefficient of the second-degree term is not 1.
Slide 9.2-9

10. Solving a Quadratic Equation by Completing the Square
Solve quadratic equations by completing the square when the coefficient of the second-degree term is not 1.
Solving a Quadratic Equation by Completing the Square
Step 1: Be sure the second-degree term has a coefficient of 1. If the coefficient of the second-degree term is 1, go to Step 2. If it is not 1, but some other nonzero number a, divide each side of the equation by a.
Step 2: Write in correct form. Make sure that all variable terms are on the one side of the equation and that all constant terms are on the other.
Step 3: Complete the square. Take half of the coefficient of the first degree term, and square it. Add the square to both sides of the equation. Factor the variable side and combine like terms on the other side.
Step 4: Solve the equation by using the square root property.
If the solutions to the completing the square method are rational numbers, the equations can also be solved by factoring. However, the method of completing the square is a more powerful method than factoring because it allows us to solve any quadratic equation.
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11. EXAMPLE 4 Solve 4x2 + 8x -21 = 0. Solution:
Solving a Quadratic Equation by Completing the Square
Solve 4x2 + 8x -21 = 0.
Solution:
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12. EXAMPLE 5 Solve 3x2 + 5x − 2 = 0. Solution:
Solving a Quadratic Equation by Completing the Square
Solve 3x2 + 5x − 2 = 0.
Solution:
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13. No solution, because the square root of a negative number is
EXAMPLE 6
Solving a Quadratic Equation by Completing the Square
Solve 5v2 + 3v + 1 = 0.
Solution:
No solution, because the square root of a negative number is
not a real number, therefore the solution set is Ø.
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14. Simplify the terms of an equation before solving.
Objective 3
Simplify the terms of an equation before solving.
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15. Simplifying the Terms of an Equation before Solving
EXAMPLE 7
Simplifying the Terms of an Equation before Solving
Solve (x + 6)(x + 2) = 1.
Solution:
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16. Solve applied problems that require quadratic equations.
Objective 4
Solve applied problems that require quadratic equations.
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17. Solving a Velocity Problem
EXAMPLE 8
Solving a Velocity Problem
Suppose a ball is projected upward with an initial velocity of 128 ft per sec. Its height at time t (in seconds) is given by s = –16t t, where s is in feet. At what times will the ball be 48 ft above the ground? Give answers to the nearest tenth.
Solution: Let s = 48 ft.
The ball will be at a height of 48 ft from the ground at the times of 0.4 seconds and 7.6 seconds.
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