Splash Screen. Lesson Menu Five-Minute Check (over Lesson 9–1) CCSS Then/Now New Vocabulary Key Concept: Solutions of Quadratic Equations Example 1: Two.

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Splash Screen

Lesson Menu Five-Minute Check (over Lesson 9–1) CCSS Then/Now New Vocabulary Key Concept: Solutions of Quadratic Equations Example 1: Two Roots Example 2: Double Root Example 3: No Real Roots Example 4: Approximate Roots with a Table Example 5: Real-World Example: Approximate Roots with a Calculator

Over Lesson 9–1 5-Minute Check 1 A.D = {all real numbers}, R = {y | y ≤ –2} B.D = {all real numbers}, R = {y | y ≥ –2} C.D = {all real numbers}, R = {y | y ≥ –1} D.D = {x | x > 1}, R = {y | y > 1} Use a table of values to graph y = x 2 + 2x – 1. State the domain and range.

Over Lesson 9–1 5-Minute Check 2 A.x = 2 B.x = 0 C.x = –2 D.y = 2 What is the equation of the axis of symmetry for y = –x 2 + 2?

Over Lesson 9–1 5-Minute Check 3 A.(–1.5, 6); maximum B.(2, –4); minimum C.(2, 4); maximum D.(2.5, –6.25); minimum What are the coordinates of the vertex of the graph of y = x 2 – 5x? Is the vertex a maximum or minimum?

Over Lesson 9–1 5-Minute Check 4 A.65 ft B.61 ft C.54 ft D.43 ft What is the maximum height of a rocket fired straight up if the height in feet is described by h = –16t t + 1, where t is time in seconds?

CCSS Content Standards A.REI.4b Solve quadratic equations by inspection (e.g., for x 2 = 49), taking square roots, completing the square, the quadratic formula and factoring, as appropriate to the initial form of the equation. Recognize when the quadratic formula gives complex solutions and write them as a ± bi for real numbers a and b. F.IF.7a Graph linear and quadratic functions and show intercepts, maxima, and minima. Mathematical Practices 3 Construct viable arguments and critique the reasoning of others. 6 Attend to precision. Common Core State Standards © Copyright National Governors Association Center for Best Practices and Council of Chief State School Officers. All rights reserved.

Then/Now You solved quadratic equations by factoring. Solve quadratic equations by graphing. Estimate solutions of quadratic equations by graphing.

Vocabulary double root

Concept

Example 1 Two Roots Solve x 2 – 3x – 10 = 0 by graphing. Graph the related function f(x) = x 2 – 3x – 10. The x-intercepts of the parabola appear to be at –2 and 5. So the solutions are –2 and 5.

Example 1 Two Roots CheckCheck each solution in the original equation. Answer: The solutions of the equation are –2 and 5. x 2 – 3x – 10 = 0Original equationx 2 – 3x – 10= 0 0 = 0  Simplify. 0 = 0  ?? (–2) 2 – 3(–2) – 10= 0x = –2 or x = 5(5) 2 – 3(5) – 10=0

Example 1 A.{–2, 4} B.{2, –4} C.{2, 4} D.{–2, –4} Solve x 2 – 2x – 8 = 0 by graphing.

Example 2 Double Root Solve x 2 + 8x = –16 by graphing. Step 1First, rewrite the equation so one side is equal to zero. x 2 + 8x=–16Original equation x 2 + 8x + 16=– Add 16 to each side. x 2 + 8x + 16=0Simplify.

Example 2 Double Root Step 2Graph the related function f(x) = x 2 + 8x + 16.

Example 2 Double Root Step 3Locate the x-intercepts of the graph. Notice that the vertex of the parabola is the only x-intercept. Therefore, there is only one solution, –4. Answer: The solution is –4. CheckSolve by factoring. x 2 + 8x + 16=0Original equation (x + 4)(x + 4)=0Factor. x + 4 = 0 or x + 4 = 0Zero Product Property x = –4 x = –4Subtract 4 from each side.

Example 2 Solve x 2 + 2x = –1 by graphing. A.{1} B.{–1} C.{–1, 1} D.Ø

Example 3 No Real Roots Solve x 2 + 2x + 3 = 0 by graphing. Graph the related function f(x) = x 2 + 2x + 3. The graph has no x-intercept. Thus, there are no real number solutions for the equation. Answer: The solution set is {Ø}.

Example 3 Solve x 2 + 4x + 5 = 0 by graphing. A.{1, 5} B.{–1, 5} C.{5} D.Ø

Example 4 Approximate Roots with a Table Solve x 2 – 4x + 2 = 0 by graphing. If integral roots cannot be found, estimate the roots to the nearest tenth. Graph the related function f(x) = x 2 – 4x + 2.

Example 4 Approximate Roots with a Table The x-intercepts are located between 0 and 1 and between 3 and 4. Make a table using an increment of 0.1 for the x-values located between 0 and 1 and between 3 and 4. Look for a change in the signs of the function values. The function value that is closest to zero is the best approximation for a zero of the function.

Example 4 Approximate Roots with a Table For each table, the function value that is closest to zero when the sign changes is –0.04. Thus, the roots are approximately 0.6 and 3.4. Answer: 0.6, 3.4

Example 4 A.0.4, 5.6 B.0.1, 4.9 C.0.2, 4.8 D.0.3, 4.7 Solve x 2 – 5x + 1 = 0 by graphing. If integral roots cannot be found, estimate the roots to the nearest tenth.

Example 5 Approximate Roots with a Calculator MODEL ROCKETS Consuela built a model rocket for her science project. The equation h = –16t t models the flight of the rocket, launched from ground level at a velocity of 250 feet per second, where h is the height of the rocket in feet after t seconds. Approximately how long was Consuela’s rocket in the air? You need to find the roots of the equation –16t t = 0. Use a graphing calculator to graph the related function h = –16t t.

Example 5 Approximate Roots with a Calculator The x-intercepts of the graph are approximately 0 and 15.6 seconds. Answer: The rocket is in the air approximately 15.6 seconds.

Example 5 A.approximately 3.5 seconds B.approximately 7.5 seconds C.approximately 4.0 seconds D.approximately 6.7 seconds GOLF Martin hits a golf ball with an upward velocity of 120 feet per second. The function h = –16t t models the flight of the golf ball hit at ground level, where h is the height of the ball in feet after t seconds. How long was the golf ball in the air?

End of the Lesson