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7.2 Solving Quadratic Equations

7.2 Solving Quadratic Equations. Algebra 2 Mrs. Spitz Spring 2007. Objectives. Solve quadratic equations by graphing, Find the equation of the axis of symmetry and find the coordinates of the vertex of the graph of a quadratic function solve quadratic equations by factoring. Assignment.

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7.2 Solving Quadratic Equations

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  1. 7.2 Solving Quadratic Equations Algebra 2 Mrs. Spitz Spring 2007

  2. Objectives • Solve quadratic equations by graphing, • Find the equation of the axis of symmetry and • find the coordinates of the vertex of the graph of a quadratic function • solve quadratic equations by factoring

  3. Assignment • pp. 319-320 #6-45 odd

  4. Definition of a Quadratic Function • A quadratic function is a function that can be described by an equation of the form y = ax2 + bx + c, where a ≠ 0.

  5. The path of an object when it is thrown or dropped is called the TRAJECTORY of the object. A bouncing object like the tennis ball in the photo will have a trajectory in a general shape called a parabola. Generalities

  6. Equations such as y = 6x – 0.5x2 and y = x2 – 4x +1 describe a type of function known as a quadratic function. Graphs of quadratic functions have common characteristics. For instance, they all have the general shape of a parabola. Generalities

  7. Generalities The table and graph can be used to illustrate other common characteristics of quadratic functions. Notice the matching values in the y-column of the table. y = x2 – 4x + 1 x = 2 (2, -3)

  8. Generalities Notice in the y-column of the table, -3 does not have a matching value. Also notice that -3 is the y-coordinate of the lowest point of the graph. The point (2, -3) is the lowest point, or minimum point, of the graph of y = x2 – 4x + 1. y = x2 – 4x + 1 x = 2 (2, -3)

  9. Maximum/minimum points • For the graph of y = 6x – 0.5x2, the point (6, 18) is the highest point, or maximum point. The maximum point or minimum point of a parabola is also called the vertex of the parabola. • The graph of a quadratic function will have a minimum point or a maximum, BUT NOT BOTH!!!

  10. Axis of Symmetry • The vertical line containing the vertex of the parabola is also called the axis of symmetry for the graph. Thus, the equation of the axis of symmetry for the graph of y = x2 – 4x + 1 is x = 2 • In general, the equation of the axis of symmetry for the graph of a quadratic function can be found by using the rule following.

  11. Equation of the Axis of Symmetry • The equation of the axis of symmetry for the graph of y = ax2 + bx + c, where a ≠ 0, is

  12. First, find the axis of symmetry. NOTE: for y = x2 – x – 6 a = 1 b = -1 c = -6 Ex. 1: Find the equation of the axis of symmetry and the coordinates of the vertex of the graph of y = x2 – x – 6. Then use the information to draw the graph.

  13. Next, find the vertex. Since the equation of the axis of symmetry is x = ½ , the x-coordinate of the vertex must be ½ . You can find the y-coordinate by substituting ½ for x in y = x2 – x – 6 . Ex. 1: Find the equation of the axis of symmetry and the coordinates of the vertex of the graph of y = x2 – x – 6. Then use the information to draw the graph. The point ( ½, -25/4) is the vertex of the graph. This point is a minimum.

  14. Generalities The table and graph can be used to illustrate other common characteristics of quadratic functions. Notice the matching values in the y-column of the table. y = x2 – x – 6 x = ½ This point is a minimum! ½, -25/4)

  15. SOLVING QUADRATIC EQUATIONS USING GRAPHS STEP 1 STEP 2 STEP 3 Solving Quadratic Equations Graphically The solution of a quadratic equation in one variable x can be solved or checked graphically with the following steps: Write the equation in the form ax2+ bx + c = 0. Write the related function y = ax2+ bx + c. Sketch the graph of the function y = ax2+ bx + c. The solutions, or roots, ofax2+ bx + c = 0are the x-intercepts.

  16. Checking a Solution Using a Graph 1 Solvex2 = 8 algebraically. 2 1 x2 = 8 2 CHECK Check your solution graphically. SOLUTION Write original equation. Multiply each side by 2. x2 = 16 x =  4 Find the square root of each side. Check these solutions using a graph.

  17. Checking a Solution Using a Graph 1 1 x2 = 8 2 1 x2– 8 = 0 2 CHECK Write the related function y =ax2 + bx + c. 2 1 y = x2– 8 2 Check these solutions using a graph. Write the equation in the form ax2 + bx + c = 0 Rewrite original equation. Subtract 8 from both sides.

  18. Checking a Solution Using a Graph 2 3 –4, 0 4, 0 1 y = x2– 8 2 1 y = Sketch graph of x2– 8. 2 CHECK Check these solutions using a graph. Write the related function y =ax2 + bx + c. The x-intercepts are  4, which agrees with the algebraic solution.

  19. Solving an Equation Graphically Solvex2 – x = 2 graphically. 2 1 Write the related function y =ax2 + bx + c. Check your solution algebraically. SOLUTION Write the equation in the form ax2 + bx + c = 0 x2 – x =2 Write original equation. Subtract 2 from each side. x2 – x – 2 = 0 (x-2)(x+1)=0 Factor and set equal to zero. x – 2 = 0 x = 2 x + 1 = 0 x = -1 Solve. These are your x-intercepts. y =x2 – x – 2

  20. Solving an Equation Graphically Write the related function y = ax2 + bx + c. 2 3 – 1, 0 2, 0 y = x2 – x – 2 Sketch the graph of the function y = x2 – x – 2 From the graph, the x-interceptsappear to be x = –1 and x = 2.

  21. Solving an Equation Graphically – 1, 0 2, 0 CHECK ? ? 22– 2 = 2 (–1)2– (–1) 2 = From the graph, the x-interceptsappear to be x = –1 and x =2. You can check this by substitution. Check x = 2: Check x = –1: x2– x = 2 x2– x = 2 4 – 2 = 2 1 + 1 = 2

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