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Systems of Equations 10-6 Warm Up Problem of the Day
Course 3 Warm Up Problem of the Day Lesson Presentation
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Systems of Equations 10-6 Warm Up Solve for the indicated variable.
Course 3 10-6 Systems of Equations Warm Up Solve for the indicated variable. 1. P = R – C for R 2. V = Ah for A 3. R = for C R = P + C 1 3 = h 3V A C – S t Rt + S = C
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Systems of Equations 10-6 Problem of the Day
Course 3 10-6 Systems of Equations Problem of the Day At an audio store, stereos have 2 speakers and home-theater systems have 5 speakers. There are 30 sound systems with a total of 99 speakers. How many systems are stereo systems and how many are home-theater systems? 17 stereo systems, 13 home-theater systems
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Systems of Equations Learn to solve systems of equations. 10-6
Course 3 10-6 Systems of Equations Learn to solve systems of equations.
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Insert Lesson Title Here
Course 3 10-6 Systems of Equations Insert Lesson Title Here Vocabulary system of equations solution of a system of equations
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Course 3 10-6 Systems of Equations A system of equations is a set of two or more equations that contain two or more variables. A solution of a system of equations is a set of values that are solutions of all of the equations. If the system has two variables, the solutions can be written as ordered pairs.
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Additional Example 1A: Identifying Solutions of a System of Equations
Course 3 10-6 Systems of Equations Additional Example 1A: Identifying Solutions of a System of Equations Determine if the ordered pair is a solution of the system of equations below. 5x + y = 7 x – 3y = 11 A. (1, 2) 5x + y = 7 x – 3y = 11 Substitute for x and y. 5(1) + 2 = 7 ? 1 – 3(2) = 11 ? 7 = 7 –5 11 The ordered pair (1, 2) is not a solution of the system of equations.
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Additional Example 1B: Identifying Solutions of a System of Equations
Course 3 10-6 Systems of Equations Additional Example 1B: Identifying Solutions of a System of Equations Determine if the ordered pair is a solution of the system of equations below. 5x + y = 7 x – 3y = 11 B. (2, –3) 5x + y = 7 x – 3y = 11 5(2) + –3 = 7 ? Substitute for x and y. 2 – 3(–3) = 11 ? 7 = 7 11 = 11 The ordered pair (2, –3) is a solution of the system of equations.
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Additional Example 1C: Identifying Solutions of a System of Equations
Course 3 10-6 Systems of Equations Additional Example 1C: Identifying Solutions of a System of Equations Determine if the ordered pair is a solution of the system of equations below. 5x + y = 7 x – 3y = 11 C. (20, 3) 5x + y = 7 x – 3y = 11 Substitute for x and y. 5(20) + (3) = 7 ? 20 – 3(3) = 11 ? 103 7 11 = 11 The ordered pair (20, 3) is not a solution of the system of equations.
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Systems of Equations 10-6 Try This: Example 1A
Course 3 10-6 Systems of Equations Try This: Example 1A Determine if each ordered pair is a solution of the system of equations below. 4x + y = 8 x – 4y = 12 A. (1, 2) 4x + y = 8 x – 4y = 12 Substitute for x and y. 4(1) + 2 = 8 ? 1 – 4(2) = 12 ? 6 8 –7 12 The ordered pair (1, 2) is not a solution of the system of equations.
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Systems of Equations 10-6 Try This: Example 1B
Course 3 10-6 Systems of Equations Try This: Example 1B Determine if each ordered pair is a solution of the system of equations below. 4x + y = 8 x – 4y = 12 B. (2, –3) 4x + y = 8 x – 4y = 12 Substitute for x and y. 4(2) + –3 = 8 ? 2 – 4(–3) = 12 ? 5 8 14 12 The ordered pair (2, –3) is not a solution of the system of equations.
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Systems of Equations 10-6 Try This: Example 1C
Course 3 10-6 Systems of Equations Try This: Example 1C Determine if each ordered pair is a solution of the system of equations below. 4x + y = 8 x – 4y = 12 C. (1, 4) 4x + y = 8 x – 4y = 12 Substitute for x and y. 4(1) + 4 = 8 ? 1 – 4(4) = 12 ? 8 = 8 –15 12 The ordered pair (1, 4) is not a solution of the system of equations.
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Systems of Equations 10-6 Helpful Hint
Course 3 10-6 Systems of Equations When solving systems of equations, remember to find values for all of the variables. Helpful Hint
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Additional Example 2: Solving Systems of Equations
Course 3 10-6 Systems of Equations Additional Example 2: Solving Systems of Equations y = x – 4 Solve the system of equations. y = 2x – 9 y = y y = x – 4 y = 2x – 9 x – 4 = 2x – 9 Solve the equation to find x. x – 4 = 2x – 9 – x – x Subtract x from both sides. –4 = x – 9 Add 9 to both sides. 5 = x
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Additional Example 2 Continued
Course 3 10-6 Systems of Equations Additional Example 2 Continued To find y, substitute 5 for x in one of the original equations. y = x – 4 = 5 – 4 = 1 The solution is (5, 1). Check: Substitute 5 for x and 1 for y in each equation. y = x – 4 y = 2x – 9 1 = 2(5) – 9 ? 1 = 5 – 4 ? 1 = 1 1 = 1
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Systems of Equations 10-6 Try This: Example 2 y = x – 5
Course 3 10-6 Systems of Equations Try This: Example 2 y = x – 5 Solve the system of equations. y = 2x – 8 y = y y = x – 5 y = 2x – 8 x – 5 = 2x – 8 Solve the equation to find x. x – 5 = 2x – 8 – x – x Subtract x from both sides. –5 = x – 8 Add 8 to both sides. 3 = x
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Try This: Example 2 Continued
Course 3 10-6 Systems of Equations Try This: Example 2 Continued To find y, substitute 3 for x in one of the original equations. y = x – 5 = 3 – 5 = –2 The solution is (3, –2). Check: Substitute 3 for x and –2 for y in each equation. y = x – 5 y = 2x – 8 –2 = 2(3) – 8 ? –2 = 3 – 5 ? –2 = –2 –2 = –2
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Course 3 10-6 Systems of Equations To solve a general system of two equations with two variables, you can solve both equations for x or both for y.
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Additional Example 3A: Solving Systems of Equations
Course 3 10-6 Systems of Equations Additional Example 3A: Solving Systems of Equations Solve the system of equations. A. x + 2y = x – 3y = 13 Solve both equations for x. x + 2y = x – 3y = 13 –2y –2y y y x = 8 – 2y x = y 8 – 2y = y Add 2y to both sides. + 2y y 8 = y
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Additional Example 3A Continued
Course 3 10-6 Systems of Equations Additional Example 3A Continued 8 = y Subtract 13 from both sides. – –13 – = y –5 5 5y = Divide both sides by 5. –1 = y x = 8 – 2y = 8 – 2(–1) Substitute –1 for y. = = 10 The solution is (10, –1).
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Systems of Equations 10-6 Helpful Hint
Course 3 10-6 Systems of Equations You can choose either variable to solve for. It is usually easiest to solve for a variable that has a coefficient of 1. Helpful Hint
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Additional Example 3B: Solving Systems of Equations
Course 3 10-6 Systems of Equations Additional Example 3B: Solving Systems of Equations Solve the system of equations. B. 3x – 3y = x + y = -5 Solve both equations for y. 3x – 3y = – x + y = –5 –3x –3x –2x –2x –3y = –3 – 3x y = –5 – 2x –3 3x –3y = – y = 1 + x 1 + x = –5 – 2x
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Additional Example 3B Continued
Course 3 10-6 Systems of Equations Additional Example 3B Continued 1 + x = –5 – 2x Add 2x to both sides. + 2x x 1 + 3x = –5 Subtract 1 from both sides. – –1 3x = –6 Divide both sides by 3. –6 3 3x = x = –2 y = 1 + x Substitute –2 for x. = 1 + –2 = –1 The solution is (–2, –1).
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Systems of Equations 10-6 Try This: Example 3A
Course 3 10-6 Systems of Equations Try This: Example 3A Solve the system of equations. A. x + y = x + y = –1 Solve both equations for y. x + y = x + y = –1 –x –x – 3x – 3x y = 5 – x y = –1 – 3x 5 – x = –1 – 3x Add x to both sides. + x x = –1 – 2x
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Try This: Example 3A Continued
Course 3 10-6 Systems of Equations Try This: Example 3A Continued = –1 – 2x Add 1 to both sides. = –2x –3 = x Divide both sides by –2. y = 5 – x = 5 – (–3) Substitute –3 for x. = = 8 The solution is (–3, 8).
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Systems of Equations 10-6 Try This: Example 3B
Course 3 10-6 Systems of Equations Try This: Example 3B Solve the system of equations. B. x + y = – –3x + y = 2 Solve both equations for y. x + y = – –3x + y = 2 – x – x x x y = –2 – x y = 2 + 3x –2 – x = 2 + 3x
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Try This: Example 3B Continued
Course 3 10-6 Systems of Equations Try This: Example 3B Continued –2 – x = 2 + 3x Add x to both sides. + x x – = 2 + 4x Subtract 2 from both sides. – –2 – = x Divide both sides by 4. –1 = x y = 2 + 3x Substitute –1 for x. = 2 + 3(–1) = –1 The solution is (–1, –1).
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Insert Lesson Title Here
Course 3 10-6 Systems of Equations Insert Lesson Title Here Lesson Quiz 1. Determine if the ordered pair (2, 4) is a solution of the system. y = 2x; y = –4x + 12 Solve each system of equations. 2. y = 2x + 1; y = 4x 3. 6x – y = –15; 2x + 3y = 5 4. Two numbers have a sum of 23 and a difference of 7. Find the two numbers. yes ( , 2) 1 2 (–2,3) 15 and 8
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