1. Section 1.1
The Distance and Midpoint Formulas; Graphing Utilities; Introduction to Graphing Equations

2. Rectangular or Cartesian Coordinate System
y axis •
(x, y)
Ordered pair
(x-coordinate, y-coordinate)
(abscissa, ordinate)
x axis
origin
Rectangular or Cartesian Coordinate System

3. Let's plot the point (-3,-5) Let's plot the point (0,7)
(6,4)
(-6,0)
(-3,-5)
Let's plot the point (-3,-5)
Let's plot the point (0,7)

4. Quadrant II x < 0, y > 0 Quadrant I x > 0, y > 0
Quadrant III x < 0, y < 0
Quadrant IV x > 0, y < 0

5. All graphing utilities (graphing calculators and computer software graphing packages) graph equations by plotting points on a screen.
The screen of a graphing utility will display the coordinate axes of a rectangular coordinate system.

6. You must set the scale on each axis
You must set the scale on each axis. You must also include the smallest and largest values of x and y that you want included in the graph. This is called setting the viewing rectangle or viewing window.

7. Here are these settings and their relation to the Cartesian coordinate system.

8. Finding the Coordinates of a Point Shown on a Graphing Utility Screen
Find the coordinates of the point shown. Assume the coordinates are integers.
Viewing Window
2 ticks to the left on the horizontal axis (scale = 1) and 1 tick up on the vertical axis (scale = 2), point is (–2, 2)

13. Horizontal or Vertical Segments

14. Find the distance d between the points (2, – 4) and (–1, 3).

21. Find the midpoint of the line segment from P1 = (4, –2) to P2 = (2, –5). Plot the points and their midpoint. P1 P2 M

22. Graph Equations by Hand by Plotting Points

24. Determine if the following points are on the graph of the equation –3x +y = 6
(b) (–2, 0)
(c) (–1, 3)

27. Graph Equations Using a Graphing Utility

28. To graph an equation in two variables x and y using a graphing utility requires that the equation be written in the form y = {expression in x}. If the original equation is not in this form, rewrite it using equivalent equations until the form y = {expression in x} is obtained.
In general, there are four ways to obtain equivalent equations.

30. Expressing an Equation in the Form y = {expression in x}
Solve for y: 2y + 3x – 5 = 4
We replace the original equation by a succession of equivalent equations.

31. Use a graphing utility to graph the equation: 6x2 + 2y = 36
Graphing an Equation Using a Graphing Utility
Use a graphing utility to graph the equation:
6x2 + 2y = 36
Step 1: Solve for y.

32. Step 2: Enter the equation into the graphing utility.
Graphing an Equation Using a Graphing Utility
Step 2: Enter the equation into the graphing utility.
Step 3: Choose an initial viewing window.

33. Step 4: Graph the equation.
Graphing an Equation Using a Graphing Utility
Step 4: Graph the equation.
Step 5: Adjust the viewing window.

34. Use a Graphing Utility to Create Tables

35. Step 1: Solve for y: y = –2x2 + 12
Create a Table Using a Graphing Utility
Create a table that displays the points on the graph of 6x2 + 3y = 36 for x = –3, –2, –1, 0, 1, 2, and 3.
Step 1: Solve for y: y = –2x2 + 12
Step 2: Enter the equation into the graphing utility.

36. Step 3: Set up a table using AUTO mode
Create a Table Using a Graphing Utility
Step 3: Set up a table using AUTO mode
Step 4: Create the table.

39. .

40. Use a Graphing Utility to Approximate Intercepts

41. Here’s the graph of y = x3 – 16.
Approximating Intercepts Using a Graphing Utility
Use a graphing utility to approximate the intercepts of the equation y = x3 – 16.
Here’s the graph of y = x3 – 16.

42. Approximating Intercepts Using a Graphing Utility
The eVALUEate feature of a TI-84 Plus graphing calculator accepts as input a value of x and determines the value of y. If we let x = 0, the y-intercept is found to be –16.

43. Approximating Intercepts Using a Graphing Utility
The ZERO feature of a TI-84 Plus is used to find the x-intercept(s). Rounded to two decimal places, the x-intercept is 2.52.