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Section 7.2 MA Systems of Linear Equation.ppt

The document explains the method of elimination to solve systems of linear equations in two variables, emphasizing the importance of obtaining coefficients that differ only in sign for effective elimination. It also describes how to graphically interpret solutions, identifying scenarios of one, infinite, or no solutions based on the graphical representation of linear equations. Furthermore, it highlights applications of these systems in real-life problem-solving, illustrated by an example involving the speeds of an airplane and wind.

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Copyright © Cengage Learning. All rights reserved. 7.2 Systems of Linear Equations in Two Variables
2 What You Should Learn • Use the method of elimination to solve systems of linear equations in two variables. • Graphically interpret the number of solutions of a system of linear equations in two variables. • Use systems of linear equations in two variables to model and solve real-life problems. • Please read all slides, but focus on 11-20 for the number of solutions and word problems!!!
3 The Method of Elimination
4 The Method of Elimination Now we will study the method of elimination to solve a system of linear equations in two variables. The key step in this method is to obtain, for one of the variables, coefficients that differ only in sign so that adding the equations eliminates the variable. 3x + 5y = 7 – 3x – 2y = – 1 3y = 6 Equation 1 Equation 2 Add equations.
5 The Method of Elimination Note that by adding the two equations, you eliminate the x-terms and obtain a single equation in y. Solving this equation for y produces y = 2 which you can then back-substitute into one of the original equations to solve for x.
6 Example 1 – Solving a System by Elimination Solve the system of linear equations. Solution: Because the coefficients of y differ only in sign, you can eliminate the y-terms by adding the two equations. 3x + 2y = 4 5x – 2y = 8 8x = 12 x = Equation 1 Equation 2 Write Equation 1. Write Equation 2. Add equations Solve for x
7 Example 1 – Solution So, x = . By back-substituting into Equation 1, you can solve for y. 3x + 2y = 4 3 + 2y = 4 y = The solution is You can check the solution algebraically by substituting into the original system. cont’d Write Equation 1 Substitute for x Solve for y
8 Example 1 – Solution Check cont’d Substitute into Equation 1 Equation 1 checks Substitute into Equation 2 Equation 2 checks
9 The Method of Elimination
10 Graphical Interpretation of Two-Variable Systems
11 Graphical Interpretation of Two-Variable Systems It is possible for any system of equations to have exactly one solution, two or more solutions, or no solution. If a system of linear equations has two different solutions, then it must have an infinite number of solutions. To see why this is true, consider the following graphical interpretations of a system of two linear equations in two variables.
12 Graphical Interpretation of Two-Variable Systems A system of linear equations is consistent when it has at least one solution. It is inconsistent when it has no solution.
13 Example 3 – Recognizing Graphs of Linear Systems Match each system of linear equations (a, b, c) with its graph (i, ii, iii) in Figure 7.10. Describe the number of solutions. Then state whether the system is consistent or inconsistent. iii. ii. i. Figure 7.10
14 Example 3 – Solution Begin by rewriting each system of equations in slope- intercept form. a. The graph of system (a) is a pair of parallel lines (ii). The lines have no point of intersection, so the system has no solution. The system is inconsistent. b. The graph of system (b) is a pair of intersecting lines (iii). The lines have one point of intersection, so the system has exactly one solution.
15 Example 3 – Solution The system is consistent. c. The graph of system (c) is a pair of lines that coincide (i). The lines have infinitely many points of intersection, so the system has infinitely many solutions. The system is consistent. cont’d
16 Application
17 Application At this point, we may be asking the question “How can I tell which application problems can be solved using a system of linear equations?” The answer comes from the following considerations. 1. Does the problem involve more than one unknown quantity? 2. Are there two (or more) equations or conditions to be satisfied? When one or both of these conditions are met, the appropriate mathematical model for the problem may be a system of linear equations.
18 Example 6 – Aviation An airplane flying into a headwind travels the 2000-mile flying distance between Cleveland, Ohio and Fresno, California in 4 hours and 24 minutes. On the return flight, the same distance is traveled in 4 hours. Find the airspeed of the plane and the speed of the wind, assuming that both remain constant. Solution: The two unknown quantities are the speeds of the wind and the plane. If r1 is the speed of the plane and r2 is the speed of the wind, then r1 – r2 = speed of the plane against the wind
19 Example 6 – Solution r1 + r2 = speed of the plane with the wind as shown in Figure 7.13. cont’d Figure 7.13
20 Example 6 – Solution Using the formula distance = (rate) (time) for these two speeds, you obtain the following equations. 2000 = (r1+ r2 )(4) These two equations simplify as follows. cont’d Equation 1 Equation 2
21 Example 6 – Solution To solve this system by elimination, multiply Equation 2 by 11. So, and cont’d Write Equation 1 Multiply Equation 2 by 11 Add Equations Speed of plane Speed of wind

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Section 7.2 MA Systems of Linear Equation.ppt

  • 1.
    Copyright © CengageLearning. All rights reserved. 7.2 Systems of Linear Equations in Two Variables
  • 2.
    2 What You ShouldLearn • Use the method of elimination to solve systems of linear equations in two variables. • Graphically interpret the number of solutions of a system of linear equations in two variables. • Use systems of linear equations in two variables to model and solve real-life problems. • Please read all slides, but focus on 11-20 for the number of solutions and word problems!!!
  • 3.
    3 The Method ofElimination
  • 4.
    4 The Method ofElimination Now we will study the method of elimination to solve a system of linear equations in two variables. The key step in this method is to obtain, for one of the variables, coefficients that differ only in sign so that adding the equations eliminates the variable. 3x + 5y = 7 – 3x – 2y = – 1 3y = 6 Equation 1 Equation 2 Add equations.
  • 5.
    5 The Method ofElimination Note that by adding the two equations, you eliminate the x-terms and obtain a single equation in y. Solving this equation for y produces y = 2 which you can then back-substitute into one of the original equations to solve for x.
  • 6.
    6 Example 1 –Solving a System by Elimination Solve the system of linear equations. Solution: Because the coefficients of y differ only in sign, you can eliminate the y-terms by adding the two equations. 3x + 2y = 4 5x – 2y = 8 8x = 12 x = Equation 1 Equation 2 Write Equation 1. Write Equation 2. Add equations Solve for x
  • 7.
    7 Example 1 –Solution So, x = . By back-substituting into Equation 1, you can solve for y. 3x + 2y = 4 3 + 2y = 4 y = The solution is You can check the solution algebraically by substituting into the original system. cont’d Write Equation 1 Substitute for x Solve for y
  • 8.
    8 Example 1 –Solution Check cont’d Substitute into Equation 1 Equation 1 checks Substitute into Equation 2 Equation 2 checks
  • 9.
    9 The Method ofElimination
  • 10.
  • 11.
    11 Graphical Interpretation ofTwo-Variable Systems It is possible for any system of equations to have exactly one solution, two or more solutions, or no solution. If a system of linear equations has two different solutions, then it must have an infinite number of solutions. To see why this is true, consider the following graphical interpretations of a system of two linear equations in two variables.
  • 12.
    12 Graphical Interpretation ofTwo-Variable Systems A system of linear equations is consistent when it has at least one solution. It is inconsistent when it has no solution.
  • 13.
    13 Example 3 –Recognizing Graphs of Linear Systems Match each system of linear equations (a, b, c) with its graph (i, ii, iii) in Figure 7.10. Describe the number of solutions. Then state whether the system is consistent or inconsistent. iii. ii. i. Figure 7.10
  • 14.
    14 Example 3 –Solution Begin by rewriting each system of equations in slope- intercept form. a. The graph of system (a) is a pair of parallel lines (ii). The lines have no point of intersection, so the system has no solution. The system is inconsistent. b. The graph of system (b) is a pair of intersecting lines (iii). The lines have one point of intersection, so the system has exactly one solution.
  • 15.
    15 Example 3 –Solution The system is consistent. c. The graph of system (c) is a pair of lines that coincide (i). The lines have infinitely many points of intersection, so the system has infinitely many solutions. The system is consistent. cont’d
  • 16.
  • 17.
    17 Application At this point,we may be asking the question “How can I tell which application problems can be solved using a system of linear equations?” The answer comes from the following considerations. 1. Does the problem involve more than one unknown quantity? 2. Are there two (or more) equations or conditions to be satisfied? When one or both of these conditions are met, the appropriate mathematical model for the problem may be a system of linear equations.
  • 18.
    18 Example 6 –Aviation An airplane flying into a headwind travels the 2000-mile flying distance between Cleveland, Ohio and Fresno, California in 4 hours and 24 minutes. On the return flight, the same distance is traveled in 4 hours. Find the airspeed of the plane and the speed of the wind, assuming that both remain constant. Solution: The two unknown quantities are the speeds of the wind and the plane. If r1 is the speed of the plane and r2 is the speed of the wind, then r1 – r2 = speed of the plane against the wind
  • 19.
    19 Example 6 –Solution r1 + r2 = speed of the plane with the wind as shown in Figure 7.13. cont’d Figure 7.13
  • 20.
    20 Example 6 –Solution Using the formula distance = (rate) (time) for these two speeds, you obtain the following equations. 2000 = (r1+ r2 )(4) These two equations simplify as follows. cont’d Equation 1 Equation 2
  • 21.
    21 Example 6 –Solution To solve this system by elimination, multiply Equation 2 by 11. So, and cont’d Write Equation 1 Multiply Equation 2 by 11 Add Equations Speed of plane Speed of wind