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Warm Up Write each expression as a trinomial.

Warm Up Write each expression as a trinomial. 1. ( x – 5) 2. 2. (3 x + 5) 2. Factor each expression. 3. x 2 – 18 + 81. 4. 16 x 2 + 24 x + 9. Objectives. Solve quadratic equations by completing the square. Write quadratic equations in vertex form. Vocabulary.

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Warm Up Write each expression as a trinomial.

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  1. Warm Up Write each expression as a trinomial. 1. (x – 5)2 2. (3x + 5)2 Factor each expression. 3.x2 – 18 + 81 4. 16x2 + 24x + 9

  2. Objectives Solve quadratic equations by completing the square. Write quadratic equations in vertex form.

  3. Vocabulary completing the square

  4. Reading Math Read as “plus or minus square root of a.”

  5. Example 1A: Solving Equations by Using the Square Root Property Solve the equation. 4x2 + 11 = 59 Subtract 11 from both sides. Divide both sides by 4 to isolate the square term. Take the square root of both sides. Simplify.

  6. Example 1A Continued Check Use a graphing calculator.

  7. Example 1B: Solving Equations by Using the Square Root Property Solve the equation. x2 + 12x + 36 = 28 Factor the perfect square trinomial Take the square root of both sides. Subtract 6 from both sides. Simplify.

  8. Example 1B Continued Check Use a graphing calculator.

  9. Team Huddle Solve the equation. 4x2 – 20 = 5

  10. Team Huddle CheckUse a graphing calculator.

  11. Team Huddle Solve the equation. x2 + 8x + 16 = 49

  12. Team Huddle CheckUse a graphing calculator.

  13. You can use algebra tiles to model a perfect square trinomial as a perfect square. The area of the square at right is x2 + 2x + 1. Because each side of the square measures x + 1 units, the area is also (x + 1)(x + 1), or (x + 1)2. This shows that (x + 1)2 = x2 + 2x + 1.

  14. If a quadratic expression of the form x2 + bxcannot model a square, you can add a term to form a perfect square trinomial. This is called completing the square.

  15. The model shows completing the square for x2 + 6x by adding 9 unit tiles. The resulting perfect square trinomial is x2 + 6x+ 9. Note that completing the square does not produce an equivalent expression.

  16. Find . Example 2A: Completing the Square Complete the square for the expression. Write the resulting expression as a binomial squared. x2 – 14x + Add. Factor. Check Find the square of the binomial. (x – 7)2 =

  17. Find . Example 2B: Completing the Square Complete the square for the expression. Write the resulting expression as a binomial squared. x2 + 9x + Check Find the square of the binomial. Add. Factor.

  18. x2 + 4x + Team Huddle Complete the square for the expression. Write the resulting expression as a binomial squared. Check

  19. x2 – 4x + Team Huddle Complete the square for the expression. Write the resulting expression as a binomial squared. Check

  20. Team Huddle Complete the square for the expression. Write the resulting expression as a binomial squared. x2 + 3x + Check

  21. You can complete the square to solve quadratic equations.

  22. Add to both sides. Example 3A: Solving a Quadratic Equation by Completing the Square Solve the equation by completing the square. x2= 12x – 20 Collect variable terms on one side. Set up to complete the square. Simplify.

  23. Example 3A Continued Factor. Take the square root of both sides. Simplify. Solve for x.

  24. Add to both sides. Example 3B: Solving a Quadratic Equation by Completing the Square Solve the equation by completing the square. 18x + 3x2 = 45 Divide both sides by 3. Set up to complete the square. Simplify.

  25. Example 3B Continued Factor. Take the square root of both sides. Simplify.

  26. Team Huddle Solve the equation by completing the square. x2 – 2 = 9x

  27. Team Huddle

  28. Team Huddle Solve the equation by completing the square. 3x2 – 24x = 27

  29. Team Huddle Solve the equation by completing the square.

  30. Helpful Hint In Example 3, the equation was balanced by adding to both sides. Here, the equation is balanced by adding and subtracting on one side. Recall the vertex form of a quadratic function from lesson 5-1: f(x) = a(x – h)2 + k, where the vertex is (h, k). You can complete the square to rewrite any quadratic function in vertex form.

  31. Add and subtract . Example 4A: Writing a Quadratic Function in Vertex Form Write the function in vertex form, and identify its vertex. f(x) = x2 + 16x – 12 Set up to complete the square. Simplify and factor.

  32. Example 4A Continued Check Use the axis of symmetry formula to confirm vertex. 

  33. Add . Because is multiplied by 3, you must subtract 3 . Example 4B: Writing a Quadratic Function in Vertex Form Write the function in vertex form, and identify its vertex g(x) = 3x2 – 18x + 7 Factor so the coefficient of x2 is 1. Set up to complete the square.

  34. Example 4B Continued g(x) = 3(x – 3)2 – 20 Simplify and factor. Because h = 3 and k = –20, the vertex is (3, –20). Check A graph of the function on a graphing calculator supports your answer.

  35. Team Huddle Write the function in vertex form, and identify its vertex f(x) = x2 + 24x + 145

  36. Team Huddle Check Use the axis of symmetry formula to confirm vertex.

  37. Team Huddle Write the function in vertex form, and identify its vertex g(x) = 5x2 – 50x + 128

  38. Team Huddle Check A graph of the function on a graphing calculator supports your answer.

  39. Team Mastery 1. Complete the square for the expressionx2 – 15x + . Write the resulting expression as a binomial squared. Solve each equation. 3.x2 – 27 = 4x 2.x2 – 16x + 64 = 20 Write each function in vertex form and identify its vertex. 5.f(x) = 2x2 – 12x – 27 4.f(x)= x2 + 6x – 7

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