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NYS COMMON CORE MATHEMATICS CURRICULUM Lesson 12 M1 ALGEBRA I Lesson 12: Solving Equations Classwork Opening Exercise Answer the following questions. a. Why should the equations solution set? – 1 3 17 and – 1 – 1 3 17 and 3 17 have the same b. Why should the equations solution set? 3 – 1 17 have the same c. Do you think the equations – 1 have the same solution set? Why? 3 17 and – 1 3 500 3 51 517 should d. Do you think the equations x– 1 x same solution set? Explain why. 3 17 x and 3 x– 1 x 3x should have the Exercise 1 a. b. c. Use the commutative property to write an equation that has the same solution set as – 3 4 7 – 12 5 Use the associative property to write an equation that has the same solution set as – 3 4 7 – 12 5 Does this reasoning apply to the distributive property as well? Lesson 12: Date: © 2013 Common Core, Inc. Some rights reserved. commoncore.org Solving Equations 4/7/14 S.66 This work is licensed under a Creative Commons Attribution‐NonCommercial‐ShareAlike 3.0 Unported License. NYS COMMON CORE MATHEMATICS CURRICULUM Lesson 12 M1 ALGEBRA I Exercise 2 Consider the equation 1 7 . Verify that this has the solution set 2, 3 . Draw this solution set as a graph on the number line. We will later learn how to show that these happen to be the ONLY solutions to this equation. a. b. Let’s add four to both sides of the equation and consider the new equation are still solutions. 5 11– . Verify 2 and ‐3 c. Let’s now add to both sides of the equation and consider the new equation still solutions? 5 11. Are 2 and ‐3 Let’s add 5 to both sides of the equation and consider the new equation solutions? d. 6. Are 2 and 3 still Let’s multiply both sides by to get e. 1. Are 2 and 3 still solutions? f. Let’s go back to part d) and add 3 3 6 3 to both sides of the equation and consider the new equation . Are 2 and 3 still solutions? Lesson 12: Date: © 2013 Common Core, Inc. Some rights reserved. commoncore.org Solving Equations 4/7/14 S.67 This work is licensed under a Creative Commons Attribution‐NonCommercial‐ShareAlike 3.0 Unported License. NYS COMMON CORE MATHEMATICS CURRICULUM Lesson 12 M1 ALGEBRA I Exercise 3 a. Solve for : b. Solve for : 5 30 c. Solve for : 4 3 5 8 Exercise 4 Consider the equation 3 4 8 – 16. Solve for using the given starting point. Group 1 Group 2 Group 3 Subtract 3 from both sides Subtract 4 from both sides Subtract 8 from both sides Group 4 Add 16 to both sides Lesson 12: Date: © 2013 Common Core, Inc. Some rights reserved. commoncore.org Solving Equations 4/7/14 S.68 This work is licensed under a Creative Commons Attribution‐NonCommercial‐ShareAlike 3.0 Unported License. NYS COMMON CORE MATHEMATICS CURRICULUM Lesson 12 M1 ALGEBRA I Closing Exercise Consider the equation 3 – 2 5 . a. Use the commutative property to create an equation with the same solution set. b. Using the result from (a), use the associative property to create an equation with the same solution set. c. Using the result from (b), use the distributive property to create an equation with the same solution set. d. Using the result from (c), add a number to both sides of the equation. e. Using the result from (d), subtract a number from both sides of the equation. f. Using the result from (e), multiply both sides of the equation by a number. g. Using the result from (f), divide both sides of the equation by a number. h. What do all 7 equations have in common? Justify your answer. Lesson 12: Date: © 2013 Common Core, Inc. Some rights reserved. commoncore.org Solving Equations 4/7/14 S.69 This work is licensed under a Creative Commons Attribution‐NonCommercial‐ShareAlike 3.0 Unported License. NYS COMMON CORE MATHEMATICS CURRICULUM M1 Lesson 12 ALGEBRA I Lesson Summary If is a solution to an equation, it will also be a solution to the new equation formed when the same number is added to (or subtracted from) each side of the original equation, or when the two sides of the original equation are multiplied by (or divided by) the same non‐zero number. These are referred to as the Properties of Equality. If one is faced with the task of solving an equation, that is, finding the solution set of the equation: Use the commutative, associative, distributive properties, AND use the properties of equality (adding, subtracting, multiplying by non‐zeros, dividing by non‐zeros) to keep rewriting the equation into one whose solution set you easily recognize. (We believe that the solution set will not change under these operations.) Problem Set 1. Which of the following equations have the same solution set? Give reasons for your answers that do not depend on solving the equations. I. – 5 3 7 II. 3 – 6 V. 9 7 8 III. 15 – 9 3 – 15 VI. 0.05 6 24 IV.6 – 16 14 12 21 3 100 100 0.07 Solve the following equations, check your solutions, and then graph the solution sets. 2. 16 6 2 8 7 3. 2 6 8 4 6 4. –4 4 0 5. 7– 8 7 1 7 6. 39 8 8 3 4 3 1 7. 5 4 2 8. 7 6 7 9. 7 6 5 3 5 10. 7– 2 1– 5 11. 4 2 2 8 3 12 12. 3 1 6 6 13. 21 8 5 6 14. 11 2 6 5 3 16. 2 4 15. 9 3 3 17. 5 5 6 22 18. 19. 5 2 0.3 0.5 4 3 64 Lesson 12: Date: © 2013 Common Core, Inc. Some rights reserved. commoncore.org Solving Equations 4/7/14 S.70 This work is licensed under a Creative Commons Attribution‐NonCommercial‐ShareAlike 3.0 Unported License.