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Graphing Lines Topic 4.2.5
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Graphing Lines 4.2.5 Topic California Standards:
6.0 Students graph a linear equation and compute the x- and y-intercepts (e.g. graph 2x + 6y = 4). They are also able to sketch the region defined by a linear inequality (e.g. they sketch the region defined by 2x + 6y < 4). 7.0 Students verify that a point lies on a line, given an equation of the line. Students are able to derive linear equations by using the point-slope formula. What it means for you: You’ll graph lines by first calculating the x- and y-intercepts. Key words: linear equation intercept
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Topic 4.2.5 Graphing Lines In Topic you learned how to graph a straight line by plotting two points. If you’re not given points on the line, it’s easiest to use the x- and y-intercepts. 2 4 6 y x –2 –4 –6 y-intercept x-intercept
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Graphing Lines 4.2.5 Topic Graphing Lines by Computing the Intercepts
The method below for plotting a straight-line graph is the same as in Topic To graph the line, you plot two points — except this time you use the x-intercept and the y-intercept, then draw a straight line through them. 2 4 6 y x –2 –4 –6 y-intercept x-intercept
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Graphing Lines 4.2.5 Topic Graphing a Line
Find the x-intercept — let y = 0, then solve the equation for x. Find the y-intercept — let x = 0, then solve the equation for y. Draw a set of axes and plot the two intercepts. Draw a straight line through the points. Check your line by plotting a third point.
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Topic 4.2.5 Graphing Lines Example 1 Draw the graph of 5x + 3y = 15 by computing the intercepts. Solution x-intercept y-intercept Let y = 0, then solve for x: Let x = 0, then solve for y: 5x + 3(0) = 15 5(0) + 3y = 15 5x + 0 = 15 0 + 3y = 15 5x = 15 3y = 15 x = 3 y = 5 So, (3, 0) is the x-intercept and (0, 5) is the y-intercept. Solution continues… Solution follows…
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Topic 4.2.5 Graphing Lines Example 1 Draw the graph of 5x + 3y = 15 by computing the intercepts. Solution (continued) –2 2 4 6 8 y x x-intercept – (3, 0) y-intercept – (0, 5) Plot the intercepts… …then draw a straight line. Finally, check the line is correct by finding and plotting a third point. Solution continues…
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Topic 4.2.5 Graphing Lines Example 1 Draw the graph of 5x + 3y = 15 by computing the intercepts. Solution (continued) –2 2 4 6 8 y x Check the line using x = 1. 5x + 3y = 15, so y = 5 – x 5 3 Þ y = 5 – 5 × 1 3 (1, 3 ) 1 3 15 – 5 3 Þ y = = = 3 10 1 (1 , 3 ) lies on the line — which means the line is correct. 1 3
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Topic 4.2.5 Graphing Lines Finding the intercepts is the quickest way of finding two points. When you substitute 0 for y to solve for x, the y-term disappears, and vice versa — making the equations easier to solve.
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Topic 4.2.5 Graphing Lines Example 2 Draw the graph of y = –x + 3 by computing the intercepts. Solution x-intercept y-intercept –2 2 4 6 y x 0 = –x + 3 y = –(0) + 3 x = 3 y = 3 So, (3, 0) is the x-intercept and (0, 3) is the y-intercept. Plot the intercepts… …then draw a straight line. Solution continues… Solution follows…
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Topic 4.2.5 Graphing Lines Example 2 Draw the graph of y = –x + 3 by computing the intercepts. Solution (continued) Check the line using x = 1. –2 2 4 6 y x y = –x + 3 (1, 2) Þ y = –1 + 3 = 2 (1, 2) lies on the line — which means the line is correct.
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Graphing Lines 4.2.5 Topic Guided Practice
Draw the graphs of the following equations by computing the intercepts. 1. 5x + 2y = 10 2. –3x – 3y = 12 3. 6x – y = 3 4. –4x + 5y = 20 5. 2x + y = 3 6. –x – 8y = 2 –6 –4 –2 2 4 6 y x 5 4 6 1 2 3 Intercepts: (2, 0) and (0, 5) Intercepts: (–4, 0) and (0, –4) Intercepts: (0.5, 0) and (0, –3) Intercepts: (–5, 0) and (0, 4) Intercepts: (1.5, 0) and (0, 3) Intercepts: (–2, 0) and (0, –0.25) Solution follows…
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Graphing Lines 4.2.5 Topic Guided Practice
Draw the graphs of the following equations by computing the intercepts. 7. x + y = 10 8. x – y = 4 9. 2x – y = 4 10. x + 5y = 10 11. 3x + y = 9 12. x – 4y = 8 y x –8 –4 4 8 11 10 12 7 8 9 Intercepts: (10, 0) and (0, 10) Intercepts: (4, 0) and (0, –4) Intercepts: (2, 0) and (0, –4) Intercepts: (10, 0) and (0, 2) Intercepts: (3, 0) and (0, 9) Intercepts: (8, 0) and (0, –2) Solution follows…
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Graphing Lines 4.2.5 Topic Guided Practice
Draw the graphs of the following equations by computing the intercepts. 13. y = 2x + 4 14. y = 5x – 10 15. y = 3x + 9 16. y = x – 8 17. y = – x – 2 18. y = x + 4 8 16 24 32 y x –4 4 12 20 28 –8 –12 y x –8 –4 4 8 18 16 17 13 14 15 Intercepts: (–2, 0) and (0, 4) (2, 0) and (0, –10) (–3, 0) and (0, 9) 1 4 (32, 0) and (0, –8) 2 5 (–5, 0) and (0, –2) 4 5 (–5, 0) and (0, 4) Solution follows…
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Graphing Lines 4.2.5 Topic Independent Practice
Draw graphs of the lines using the x- and y-intercepts in Exercises 1–3. 1. x-intercept: (–3, 0) y-intercept: (0, 2) 2. x-intercept: (1, 0) y-intercept: (0, 6) 3. x-intercept: (4, 0) y-intercept: (0, –3) –6 –4 –2 2 4 6 y x 3 2 1 Solution follows…
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Graphing Lines 4.2.5 Topic Independent Practice
Draw graphs of the lines using the x- and y-intercepts in Exercises 4–6. 4. x-intercept: (–6, 0) y-intercept: (0, –4) 5. x-intercept: (–1, 0) y-intercept: (0, 7) 6. x-intercept: (2, 0) y-intercept: (0, –5) –6 –4 –2 2 4 6 y x 6 5 4 Solution follows…
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Graphing Lines 4.2.5 Topic Independent Practice
Draw the graphs of the equations in Exercises 7–12 by computing the intercepts. 7. x + y = 6 8. x + y = –4 9. x – y = –5 10. x – y = 7 11. 3x + y = 6 12. 2x + y = 8 y x –8 –4 4 8 11 10 12 7 8 9 Intercepts: (6, 0) and (0, 6) Intercepts: (–4, 0) and (0, –4) Intercepts: (–5, 0) and (0, 5) Intercepts: (7, 0) and (0, –7) Intercepts: (2, 0) and (0, 6) Intercepts: (4, 0) and (0, 8) Solution follows…
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Graphing Lines 4.2.5 Topic Independent Practice
Draw the graphs of the equations in Exercises 13–18 by computing the intercepts. 13. 2x – y = –4 14. 3x – y = –3 15. 4x + 3y = –12 16. 5x – 2y = 10 17. 6x – 3y = 24 x – 12y = 60 –6 –4 –2 2 4 6 y x y x –8 –4 4 8 17 18 16 13 14 15 Intercepts: (–2, 0) and (0, 4) Intercepts: (–1, 0) and (0, 3) Intercepts: (–3, 0) and (0, –4) Intercepts: (2, 0) and (0, –5) Intercepts: (4, 0) and (0, –8) Intercepts: (6, 0) and (0, –5) Solution follows…
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Graphing Lines 4.2.5 Topic Independent Practice
19. Show that the graphs of x + y = 6 and –6x – 6y = –36 are the same. The intercepts of both graphs are (6, 0) and (0,6), so the graphs will be the same. 20. Explain why the graph of 5x + 8y = 0 cannot be drawn using the intercepts. Both intercepts are at (0, 0). Since you need two different points to draw a line, you can’t draw this line from just the intercepts. Solution follows…
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Graphing Lines 4.2.5 Topic Round Up
This Topic follows on neatly from Topic 4.2.2, where you graphed lines by plotting two points and joining them with a straight line. You can use any two points — the main reason for using the intercepts is that they’re usually easier to calculate.
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