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3-1 Using Graphs and Tables to Solve Linear Systems Objectives A system of equations is a set of two or more equations containing two or more variables. A linear system is a system of equations containing only linear equations. Recall that a line is an infinite set of points that are solutions to a linear equation. The solution of a system of equations is the set of all points that satisfy each equation. On the graph of the system of two equations, the solution is the set of points where the lines intersect. A point is a solution to a system of equation if the x- and y-values of the point satisfy both equations. Holt Algebra 2 3-1 Using Graphs and Tables to Solve Linear Systems Use substitution to determine if the given ordered pair is an element of the solution set for the system of equations. (1, 3); x – 3y = –8 3x + 2y = 9 x – 3y = –8 3x + 2y = 9 (1) –3(3) –8 3(1) +2(3) 9 –8 –8 Substitute 1 for x and 3 for y in each equation. 9 9 Because the point is a solution for both equations, it is a solution of the system. Holt Algebra 2 Using Graphs and Tables to Solve Linear Systems 3-1 Use substitution to determine if the given ordered pair is an element of the solution set for the system of equations. (–4, ); x + 6 = 4y 2x + 8y = 1 x + 6 = 4y (–4) + 6 2 2 2x + 8y = 1 Substitute –4 for x and for y in each equation. 2(–4) + 1 –4 1x Because the point is not a solution for both equations, it is not a solution of the system. Holt Algebra 2 3-1 Using Graphs and Tables to Solve Linear Systems Use a graph and a table to solve the system. Check your answer. 2x – 3y = 3 y+2=x On the graph, the lines appear to intersect at the ordered pair (3, 1) Holt Algebra 2 3-1 Using Graphs and Tables to Solve Linear Systems Make a table of values for each equation. Notice that when x = 3, the y-value for both equations is 1. The solution to the system is (3, 1). Holt Algebra 2 x 0 x y 0 –2 1 1 –1 2 2 0 3 1 3 y –1 1 3-1 Using Graphs and Tables to Solve Linear Systems Use a graph and a table to solve the system. Check your answer. x–y=2 2y – 3x = –1 Solve each equation for y. Holt Algebra 2 y=x–2 y= Using Graphs and Tables to Solve Linear Systems 3-1 Use your graphing calculator to graph the equations and make a table of values. The lines appear to intersect at (–3, –5). This is the confirmed by the tables of values. The solution to the system is (–3, –5). Check Substitute (–3, –5) in the original equations to verify the solution. x–y = 2 (–3) – (–5) 2 Holt Algebra 2 2y – 3x = –1 2 2 2(–5) – 3(–3) –1 –1 –1 3-1 Using Graphs and Tables to Solve Linear Systems Use a graph and a table to solve the system. Check your answer. 2y + 6 = x 4x = 3 + y On the graph, the lines appear to intersect at the ordered pair (0, –3) Check your answer Holt Algebra 2 3-1 Using Graphs and Tables to Solve Linear Systems Use a graph and a table to solve the system. Check your answer. x+y=8 2x – y = 4 On the graph, the lines appear to intersect at the ordered pair (4, 4). Check your answer Holt Algebra 2 3-1 Using Graphs and Tables to Solve Linear Systems The systems of equations in Example 2 have exactly one solution. However, linear systems may also have infinitely many or no solutions. A consistent system is a set of equations or inequalities that has at least one solution, and an inconsistent system will have no solutions. You can classify linear systems by comparing the slopes and y-intercepts of the equations. An independent system has equations with different slopes. A dependent system has equations with equal slopes and equal y-intercepts. Holt Algebra 2 3-1 Using Graphs and Tables to Solve Linear Systems Holt Algebra 2 3-1 Using Graphs and Tables to Solve Linear Systems Classify the system and determine the number of solutions. x = 2y + 6 3x – 6y = 18 Solve each equation for y. y= x–3 y= x–3 The equations have the same slope and y-intercept and are graphed as the same line. The system is consistent and dependent with infinitely many solutions. Holt Algebra 2 3-1 Using Graphs and Tables to Solve Linear Systems Classify the system and determine the number of solutions. 4x + y = 1 y + 1 = –4x y = –4x + 1 Solve each equation for y. y = –4x – 1 The equations have the same slope but different y-intercepts and are graphed as parallel lines. The system is inconsistent and has no solution. Holt Algebra 2 3-1 Using Graphs and Tables to Solve Linear Systems Kayak Kottage charges $26 to rent a kayak plus $24 per hour for lessons. Power Paddles charges $12 for rental plus $32 per hour for lessons. For what number of hours is the cost of equipment and lessons the same for each company? Holt Algebra 2