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Interpreting graphs Linear graphHere you will learn about how to find the equation of a line, including y=mx+b, recognizing the slope and y- intercept of a straight line, and finding the equation of a line given the graph.
Students will first learn about how to find the equation of a line as part of equations and expressions in 8 th grade and will expand on their knowledge in high school.
The equation of a line is the algebraic representation of a straight line using cartesian coordinates.
The slope-intercept form or general form of the equation of a straight line is written as y=mx+b where m is the slope (or gradient) of the straight line and b is the \textbf{y-} intercept of the straight line.
The slope represents the slant of the line and the y- intercept is the point where the line crosses the y- axis.
The coordinate (x,y) lies on the line y=mx+b giving us a linear relationship between x and y. The term linear equation is given to any straight line.
For example,
Look at the line y=3x-4.
Here, you can find any y- coordinate given the value for x by substituting into the equation y=3x-4.
For example, when x=1,
\begin{aligned} y&=3\times{1}-4\\\\ y&=3-4\\\\ y&=-1 \end{aligned}When the x value is 1 and the y value is -1, this gives the coordinate (1,-1) which lies on the line as shown below.
Not all straight lines will appear to be exactly in the form y=mx+b , so you need to understand how we determine the gradient (or slope of the line) m and the y- intercept of the line (the point where the line intersects the y- axis) b from equations that are not in the form y=mx+b.
Examples of linear equations not in the slope-intercept form of general form y=mx+b\text{:}
All of the equations above can be graphed as straight lines but none are explicitly written in the slope-intercept form y=mx+b.
In order to easily determine m and b , we need to rearrange the equation to make y the subject.
For example,
Take the equation above of y+17=6x and make y the subject.
By rearranging the equation into the form y=mx+b, it clearly identifies the slope, m=6, and the y- intercept, b=-17.
From this information, you can sketch the straight line on the cartesian plane or the xy \, - plane.
How does this relate to 8 th grade math?
Use this worksheet to check your 8th grade students’ understanding of equation of a line. 15 questions with answers to identify areas of strength and support!
DOWNLOAD FREEUse this worksheet to check your 8th grade students’ understanding of equation of a line. 15 questions with answers to identify areas of strength and support!
DOWNLOAD FREEIn order to find the equation of a line:
Work out the equation of the straight line given in the diagram below.
Two points that lie on the line are: (0,4) and (2,8). The line passes through these two given points. As you are given two points on the line, use the slope formula to find m.
Slope formula: m=\cfrac{y_{2}-y_{1}}{x_{2}-x_{1}}=\cfrac{8-4}{2-0}=\cfrac{4}{2}=2
m=2The slope of this line is 2.
2State the \textbf{y-} intercept of the straight line.
The y- intercept occurs when x=0. From the graph, you can see that when x=0, y=4.
So, b=4.
3Write the equation of the line in the form \textbf{y = mx + b}.
Since the slope m=2 and y- intercept b=4, you can substitute 2 for m and 4 for b, y=2x+4.
Work out the equation of the straight line given in the diagram below.
Find the slope of the line.
Two points that lie on the line are: (1,-4) and (3,2). As you are given two points on the line, use the slope formula to find m.
m=\cfrac{y_{2}-y_{1}}{x_{2}-x_{1}}=\cfrac{2--4}{3-1}=\cfrac{6}{2}=3
m=3
State the \textbf{y-} intercept of the straight line.
The y- intercept is the point where x=0. From the graph, when x=0, you can see that y=-7. So, the y- intercept is -7, \, b=-7.
Write the equation of the line in the form \textbf{y = mx + b}.
Since, m=3 and b=-7, you can substitute 3 for m and -7 for b, \, y=3x-7.
Work out the equation of the straight line given in the diagram below.
Find the slope of the line.
Two points that lie on the line are: (1,-2) and (-1,8). As you are given two points on the line, use the slope formula to find m.
m=\cfrac{y_{2}-y_{1}}{x_{2}-x_{1}}=\cfrac{8--2}{-1-1}=\cfrac{10}{-2}=-5
m=-5
State the \textbf{y-} intercept of the straight line.
The y- intercept occurs when x=0. From the graph you can see that when x=0, y=3. So the y- intercept is 3, \, b=3.
Write the equation of the line in the form \textbf{y = mx + b}.
Since, m=-5 and b=3, you can substitute -5 for m and 3 for b, \, y=-5x+3.
Work out the equation of the straight line given in the diagram below.
Find the slope of the line.
Two points that lie on the line are: (-3,-2) and (2,-7). As you are given two points on the line, use the slope formula to find m.
m=\cfrac{y_{2}-y_{1}}{x_{2}-x_{1}}=\cfrac{-7--2}{2--3}=\cfrac{-5}{5}=-1
m=-1
State the \textbf{y-} intercept of the straight line.
The y -intercept occurs when x=0. From the graph, you can see that when x=0, \, y=-5. So, the y -intercept is -5, \, b=-5.
Write the equation of the line in the form \textbf{y = mx + b}.
Since m=-1 and b=-5, you can substitute -1 for m and -5 for b, \, y=-x-5.
Work out the equation of the straight line given in the diagram below.
Find the slope of the line.
Two points that lie on the line are: (4,10) and (-2,7). As you are given two points on the line, use the slope formula to find m.
m=\cfrac{y_{2}-y_{1}}{x_{2}-x_{1}}=\cfrac{7-10}{-2-4}=\cfrac{-3}{-6}=\cfrac{1}{2}
m=\cfrac{1}{2}
State the \textbf{y-} intercept of the straight line.
The y- intercept occurs when x=0. From the graph, when x=0, \, y=8, so the y- intercept is 8, \, b=8.
Write the equation of the line in the form \textbf{y = mx + b}.
Since m=\cfrac{1}{2} and b=8, you can substitute \cfrac{1}{2} for m and 8 for b, \, y=\cfrac{1}{2}x+8.
Work out the equation of the straight line given in the diagram below.
Find the slope of the line.
Two points that lie on the line are: (-2,-4) and (2,-5). As you are given two points on the line, use the slope formula to find m.
m=\cfrac{y_{2}-y_{1}}{x_{2}-x_{1}}=\cfrac{-5--4}{2--2}=\cfrac{-1}{4}
m=\cfrac{-1}{4}
State the \textbf{y-} intercept of the straight line.
The y- intercept occurs when x=0. From the graph, when x=0, \, y=-4.5 so the y- intercept is -4.5, \, b=-4.5 or -\cfrac{9}{2}.
Write the equation of the line in the form \textbf{y = mx + b}.
Since m=-\cfrac{1}{4} and b=-\cfrac{9}{2}, you can substitute -\cfrac{1}{4} for m and -\cfrac{9}{2} for b, \, y=-\cfrac{1}{4}x-\cfrac{9}{2}.
1. Find the equation of the line in the form y=mx+b.
Two coordinates: (0,1) and (2,11)
m=\cfrac{11-1}{2-0}=\cfrac{10}{2}=5
b=1
2. Write the equation of the line in slope-intercept form.
Two coordinates: (0,-8) and (1,-2)
m=\cfrac{-2- -8}{1-0}=\cfrac{6}{1}=6
b=-8
3. Find the equation of the line in slope-intercept form.
Two coordinates: (2,0) and (1,5)
m=\cfrac{5-0}{1-2}=\cfrac{5}{-1}=-5
b=10
4. Write the equation of the line in y=mx+b form.
Two coordinates: (3,-3) and (4,-4)
m=\cfrac{-4- -3}{4-3}=\cfrac{-1}{1}=-1
b=0
5. Find the equation of the line in slope intercept form.
Two coordinates: (0,2) and (3,4)
m=\cfrac{4-2}{3-0}=\cfrac{2}{3}
b=2
6. Write the equation of the line in y=mx+b form.
Two coordinates: (3,-8) and (-3,-5)
m=\cfrac{-5- -8}{-3-3}=\cfrac{3}{-6}=-\cfrac{1}{2}
b=-\cfrac{13}{2}
In order to find the slope of a line, you need either two points on the line or have the information needed to find the rise over run between two points on the line.
The point-slope formula is used when you have a point on a line and it’s given slope. The point-slope equation is y-y_{1}=m\left(x-x_1\right), where \left(x_1, y_1\right) is a point on the line and m is the slope.
The x- intercept of a line is a point on a graph that intersects the x- axis. The x- coordinate will be the point that intersects the x- axis, and the y- coordinate will be 0.
Yes, you can find the slope of both parallel lines. Parallel lines will have the same slope, even if they are at different positions on the coordinate plane.
Yes, you can find the slope of both perpendicular lines. Perpendicular lines have slopes that are negative reciprocals of each other. You can determine the slope of two perpendicular lines by using m_{1}\times{m}_{2}=-1.
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