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Graphing Equations: Point-Plotting, Intercepts, and Symmetry

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Presentation on theme: "Graphing Equations: Point-Plotting, Intercepts, and Symmetry"— Presentation transcript:

1 Graphing Equations: Point-Plotting, Intercepts, and Symmetry
Section 2.2 Graphing Equations: Point-Plotting, Intercepts, and Symmetry

2 Graphing Equations by Plotting Points
The graph of an equation in two variables, x and y, consists of all the points in the xy plane whose coordinates (x,y) satisfy the equation.

3 Example Does the point (-1,0) lie on the graph y = x3 – 1? No

4 Graphing an Equation of a Line by Plotting Points
Graph the equation: y = 2x-1 x y=2x-1 (x,y) -2 -1 1 2

5 Graphing a Quadratic Equation by Plotting Points
Graph the equation: y=x²-5 x y=x²-5 (x,y) -2 -1 1 2

6 Graphing a Cubic Equation by Plotting Points
Graph the equation: y=x³ x y=x³ (x,y) -2 -1 1 2

7 X and Y Intercepts An x–intercept of a graph is a point where the graph intersects the x-axis. A y-intercept of a graph is a point where the graph intersects the y-axis.

8 Find the x and y intercepts.
x-intercepts: (1,0) (5,0) y-intercept: (0,5)

9 What are the x and y intercepts of this graph given by the equation:
y=x³-2x²-5x+6 x-intercepts: (-2,0)(1,0)(3,0) y-intercept: (0,6)

10 How do we find the x and y intercepts algebraically
How do we find the x and y intercepts algebraically? First let’s examine the x-intercepts. For example: The graph to the right has the equation y=x²-6x+5. What is the y-coordinate for both x-intercepts? Zero. So to find x intercepts we can plug in zero for y and solve for x: 0=x²-6x+5 0=(x-5)(x-1) x-5=0 x-1=0 x=5,1 The x-intercepts are (1,0) and (5,0)

11 Next, let’s find the y-intercept.
Equation: y=x²-6x+5. What is the x-coordinate for the y-intercept? Zero. So to find the y-intercept we can plug in zero for x and solve for y: y=0²-6(0)+5 y=5 The y-intercept is (0,5)

12 Symmetry The word symmetry conveys balance.
Our graphs can be symmetric with respect to the x-axis, y-axis and origin.

13 Notice the coordinates: (2,1) and (2,-1).
This graph is symmetric with respect to the x-axis. Notice the coordinates: (2,1) and (2,-1). The y values are opposite.

14 This graph is symmetric with respect to the y-axis.
What do you notice about the coordinates of this graph? The x values are opposite.

15 This graph is symmetric with respect to the origin.
What do you notice about the coordinates (2,3) and (-2,-3)? Both the x values and y values are opposite.

16 Summary If a graph is symmetric about the…
X-axis, the y values are opposite Y-axis, the x values are opposite Origin, both the x and y values are opposites

17 Testing for Symmetry with respect to the x-axis
Test the equation y²=x³ Solution: Replace y with –y (-y)²=x³ y²=x³ The equation is the same therefore it is symmetric with respect to the x-axis.

18 Testing from symmetry with respect to the y-axis
Test the equation y²=x³ Solution: Replace x with –x y²=(-x)³ y²=-x³ The equation is NOT the same therefore it is NOT symmetric with respect to the y-axis.

19 Testing for Symmetry with respect to the origin
Test the equation y²=x³ Solution: Replace x with –x and replace y with -y (-y)²=(-x)³ y²=-x³ The equation is NOT the same therefore it is NOT symmetric with respect to the origin.

20 Test for Symmetry: y = x5 + x
Y-axis: x changes to –x Y = (-x)5 + -x y = -(x5 + x) No!

21 X-axis: y changes to –y -y = x5 + x y = -(x5 + x) No!

22 Origin: y changes to –y and x changes to –x
-y = (-x)5 + -x -y = -(x5 + x) y = x5 + x Yes!

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