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Graphing Linear Equations

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Presentation on theme: "Graphing Linear Equations"— Presentation transcript:

1 Graphing Linear Equations
Dr. Fowler  CCM Graphing Linear Equations Point slope x & y intercepts Pick 3 points

2 Linear means of a line. So a linear equation is the equation of a line
Linear means of a line. So a linear equation is the equation of a line. In linear equations, all variables are to the first power. is linear.

3 Parts of a Coordinate Plane
QUADRANT II (-x, y) QUADRANT I (x, y) Origin QUADRANT III (-x, -y) QUADRANT IV (x, -y) X-Axis Y-Axis

4 Graphing Ordered Pairs on a Cartesian Plane
Write the Steps: 1) Begin at the origin y-axis 2) Use the x-coordinate to move right (+) or left (-) on the x-axis 3) From that position move either up(+) or down(-) according to the y-coordinate Origin (6,0) x- axis 4) Place a dot to indicate a point on the plane Examples: (0,-4) (6, 0) (-3,-6) (0,-4) (-3, -6)

5 Graph using slope & y-intercept
Slope-Intercept Form y = mx + b m = slope b = y-intercept Graph using slope & y-intercept

6 Standard Form ax + by = c Graph using x & y intercepts

7 Graphing with slope-intercept
Start by graphing the y-intercept (b = 2). From the y-intercept, apply “rise over run” using your slope. rise = 1, run = -3 Repeat this again from your new point. Draw a line through your points. -3 1 -3 1 Start here

8 Review: Graphing with intercepts: -2x + 3y = 12
Find your x-intercept: Let y = 0 -2x + 3(0) = 12 x = -6; (-6, 0) Find your y-intercept: Let x = 0 -2(0) + 3y = 12 y = 4; (0, 4) 3. Graph both points and draw a line through them.

9 Function - Input-Output Machines
We can think of equations as input-output machines. The x-values being the “inputs” and the y-values being the “outputs.” Choosing any value for input and plugging it into the equation, we solve for the output. y = -2x + 5 x = 4 y = -2(4) + 5 y = -3 y = y = -3

10 Ex: Graph 6x – 3y = 3 Solve for a variable: y x y = 2x - 1 y
y = 2(0) - 1 -1 -6x x 1 y = 2(1) - 1 1 - 3y = 3 – 6x y = 2(½) - 1 y = x y = 2x - 1 We have identified 3 solutions to the equation: (0, -1) (1, 1) ( ½ , 0)

11 Plotting the three solutions/points we get:
(0, -1) (1, 1) ( ½ , 0) The solution points lie on a straight line. Every point on this line is a solution to the equation 6x – 3y = 3! 1 1

12 Special Cases for Lines:
Special Case 1): Graph 7x + 63 = 0 7x = - 63 x = - 9 x is always – 9  this is a vertical line 3 3 12

13 y is always 4 * this is a  horizontal line
Special Case 2) Graph 12y = 48 12y = 48 y = 4 y is always 4 * this is a  horizontal line 3 3 13

14 Excellent Job !!! Well Done

15 Stop Notes Do Worksheet

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