Answer:
- Lydia's equation does not work for x=4: 3(4)+4 ≠ 15
- correct equation: y = 4x -1
Explanation:
You want an equation that matches the given x-y table:
x = 5, 4, 10, 7
y = 19, 15, 39, 27
Lydia's solution
Lydia's equation works for the first point in this table, (x, y) = (5, 19):
3(5) +4 = 19
However, it does not work for any other points in the table. For example, (x, y) = (4, 15):
3(4) +4 ≠ 15.
This is also shown in the attached graph, where we have graphed the table values along with Lydia's equation.
Equation
We like to graph points in a table as a way to see what kind of relation we're dealing with. Here, the points lie on a straight line, so a linear equation is needed. It will be different from Lydia's, which does not match the data.
The slope of the line can be found using the slope equation:
m = (y2 -y1)/(x2 -x)
Using points (x, y) = (4, 15) and (5, 19) we have ...
m = (19 -15)/(5 -4) = 4
The y-intercept of the line can be found using the slope-intercept equation, solved for "b".
b = y -mx
b = 15 -4(4) = -1 . . . . . . . using (x, y) = (4, 15) and m=4
The slope-intercept equation for the line is ...
y = mx +b
y = 4x -1
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Additional comment
We can see on the graph that each point is 1 unit below 4 times the x-value. This confirms our equation is correct.
This graphing calculator can also write a linear regression equation for the data points. That will give the same result.
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