Module 40: Use the Rectangular Coordinate System
Learning Objectives
By the end of this section, you will be able to:
 Plot points in a rectangular coordinate system
 Verify solutions to an equation in two variables
 Complete a table of solutions to a linear equation
 Find solutions to a linear equation in two variables
Plot Points on a Rectangular Coordinate System
Just like maps use a grid system to identify locations, a grid system is used in algebra to show a relationship between two variables in a rectangular coordinate system. The rectangular coordinate system is also called the xyplane or the ‘coordinate plane.’
The horizontal number line is called the xaxis. The vertical number line is called the yaxis. The xaxis and the yaxis together form the rectangular coordinate system. These axes divide a plane into four regions, called quadrants. The quadrants are identified by Roman numerals, beginning on the upper right and proceeding counterclockwise. See (Figure 1).
‘Quadrant’ has the root ‘quad,’ which means ‘four.’
In the rectangular coordinate system, every point is represented by an ordered pair. The first number in the ordered pair is the xcoordinate of the point, and the second number is the ycoordinate of the point.
Ordered pair
An ordered pair, , gives the coordinates of a point in a rectangular coordinate system.
The first number is the xcoordinate.
The second number is the ycoordinate.
The phrase ‘ordered pair’ means the order is important. What is the ordered pair of the point where the axes cross? At that point both coordinates are zero, so its ordered pair is . The point has a special name. It is called the origin.
The origin
The point is called the origin. It is the point where the xaxis and yaxis intersect.
We use the coordinates to locate a point on the xyplane. Let’s plot the point as an example. First, locate 1 on the xaxis and lightly sketch a vertical line through . Then, locate 3 on the yaxis and sketch a horizontal line through . Now, find the point where these two lines meet—that is the point with coordinates .
Notice that the vertical line through and the horizontal line through are not part of the graph. We just used them to help us locate the point .
EXAMPLE 1
Plot each point in the rectangular coordinate system and identify the quadrant in which the point is located:
A B C D E .
Solution
The first number of the coordinate pair is the xcoordinate, and the second number is the ycoordinate.
 Since , the point is to the left of the yaxis. Also, since , the point is above the xaxis. The point is in Quadrant II.
 Since , the point is to the left of the yaxis. Also, since , the point is below the xaxis. The point is in Quadrant III.
 Since , the point is to the right of the yaxis. Since , the point is below the xaxis. The point is in Quadrant lV.
 Since , the point is to the left of the yaxis. Since , the point is above the xaxis. The point is in Quadrant II.
 Since , the point is to the right of the yaxis. Since , the point is above the xaxis. (It may be helpful to write as a mixed number or decimal.) The point is in Quadrant I.
TRY IT 1.1
Plot each point in a rectangular coordinate system and identify the quadrant in which the point is located:
A B C D E .
Show answer
TRY IT 1.2
Plot each point in a rectangular coordinate system and identify the quadrant in which the point is located:
A B C D E
Show answer
How do the signs affect the location of the points? You may have noticed some patterns as you graphed the points in the previous example.
For the point in (Figure 2) in Quadrant IV, what do you notice about the signs of the coordinates? What about the signs of the coordinates of points in the third quadrant? The second quadrant? The first quadrant?
Can you tell just by looking at the coordinates in which quadrant the point is located? In which quadrant is located?
Quadrants
We can summarize sign patterns of the quadrants in this way.
What if one coordinate is zero as shown in (Figure 3)? Where is the point located? Where is the point located?
The point is on the yaxis and the point is on the xaxis.
Points on the axes
Points with a ycoordinate equal to 0 are on the xaxis, and have coordinates .
Points with an xcoordinate equal to 0 are on the yaxis, and have coordinates .
EXAMPLE 2
Plot each point:A B C D E .
Solution
 Since , the point whose coordinates are is on the yaxis.
 Since , the point whose coordinates are is on the xaxis.
 Since , the point whose coordinates are is on the xaxis.
 Since and , the point whose coordinates are is the origin.
 Since , the point whose coordinates are is on the yaxis.
TRY IT 2.1
Plot each point: A B C D E .
Show answer
TRY IT 2.2
Plot each point: A B C D E .
Show answer
In algebra, being able to identify the coordinates of a point shown on a graph is just as important as being able to plot points. To identify the xcoordinate of a point on a graph, read the number on the xaxis directly above or below the point. To identify the ycoordinate of a point, read the number on the yaxis directly to the left or right of the point. Remember, when you write the ordered pair use the correct order, .
EXAMPLE 3
Name the ordered pair of each point shown in the rectangular coordinate system.
Solution
Point A is above on the xaxis, so the xcoordinate of the point is .
 The point is to the left of 3 on the yaxis, so the ycoordinate of the point is 3.
 The coordinates of the point are .
Point B is below on the xaxis, so the xcoordinate of the point is .
 The point is to the left of on the yaxis, so the ycoordinate of the point is .
 The coordinates of the point are .
Point C is above 2 on the xaxis, so the xcoordinate of the point is 2
 The point is to the right of 4 on the yaxis, so the ycoordinate of the point is 4.
 The coordinates of the point are .
Point D is below 4 on the xaxis, so the xcoordinate of the point is 4
 The point is to the right of on the yaxis, so the ycoordinate of the point is .
 The coordinates of the point are .
Point E is on the yaxis at . The coordinates of point E are .
Point F is on the xaxis at . The coordinates of point F are .
TRY IT 3.1
Name the ordered pair of each point shown in the rectangular coordinate system.
Show answer
A: B: C: D: E: F:
TRY IT 3.2
Name the ordered pair of each point shown in the rectangular coordinate system.
Show answer
A: B: C: D: E: F:
Verify Solutions to an Equation in Two Variables
Up to now, all the equations you have solved were equations with just one variable. In almost every case, when you solved the equation you got exactly one solution. The process of solving an equation ended with a statement like . (Then, you checked the solution by substituting back into the equation.)
Here’s an example of an equation in one variable, and its one solution.
But equations can have more than one variable. Equations with two variables may be of the form . Equations of this form are called linear equations in two variables.
Linear equation
An equation of the form , where and are not both zero, is called a linear equation in two variables.
Notice the word line in linear. Here is an example of a linear equation in two variables, and .
The equation is also a linear equation. But it does not appear to be in the form . We can use the Addition Property of Equality and rewrite it in form.
Add to both sides.  
Simplify.  
Use the Commutative Property to put it in form. 
By rewriting as , we can easily see that it is a linear equation in two variables because it is of the form . When an equation is in the form , we say it is in standard form.
Standard Form of Linear Equation
A linear equation is in standard form when it is written .
Most people prefer to have , , and be integers and when writing a linear equation in standard form, although it is not strictly necessary.
Linear equations have infinitely many solutions. For every number that is substituted for there is a corresponding value. This pair of values is a solution to the linear equation and is represented by the ordered pair . When we substitute these values of and into the equation, the result is a true statement, because the value on the left side is equal to the value on the right side.
Solution of a Linear Equation in Two Variables
An ordered pair is a solution of the linear equation , if the equation is a true statement when the x– and yvalues of the ordered pair are substituted into the equation.
EXAMPLE 4
Determine which ordered pairs are solutions to the equation .
A B C
Solution
Substitute the x and yvalues from each ordered pair into the equation and determine if the result is a true statement.
TRY IT 4.1
Which of the following ordered pairs are solutions to ?
A B C
Show answer
A, C
TRY IT 4.2
Which of the following ordered pairs are solutions to the equation ? A B C
Show answer
B, C
EXAMPLE 5
Which of the following ordered pairs are solutions to the equation ?
A B C
Solution
Substitute the x– and yvalues from each ordered pair into the equation and determine if it results in a true statement.
TRY IT 5.1
Which of the following ordered pairs are solutions to the equation ? A B C
Show answer
B
TRY IT 5.2
Which of the following ordered pairs are solutions to the equation ? A B C
Show answer
A, B
Complete a Table of Solutions to a Linear Equation in Two Variables
In the examples above, we substituted the x– and yvalues of a given ordered pair to determine whether or not it was a solution to a linear equation. But how do you find the ordered pairs if they are not given? It’s easier than you might think—you can just pick a value for and then solve the equation for . Or, pick a value for and then solve for .
We’ll start by looking at the solutions to the equation that we found in (Example 5). We can summarize this information in a table of solutions, as shown in (Table 1).
0  
1  4 
To find a third solution, we’ll let and solve for .
The ordered pair is a solution to . We will add it to (Table 2).
0  
1  4  
2  9 
We can find more solutions to the equation by substituting in any value of or any value of and solving the resulting equation to get another ordered pair that is a solution. There are infinitely many solutions of this equation.
EXAMPLE 6
Complete the table to find three solutions to the equation .
0  
2 
Substitute , , and into .
The results are summarized in the table below.
0  
2  6 
TRY IT 6.1
Complete the table to find three solutions to this equation: .
0  
2 
Show answer
0  
2  5 
TRY IT 6.2
Complete the table to find three solutions to this equation: .
0  
1  
Show answer
0  1  
1  7  
EXAMPLE 7
Complete the table to find three solutions to the equation .
0  
0  
5 
Substitute the given value into the equation and solve for the other variable. Then, fill in the values in the table.
The results are summarized in the table below.
0  
4  0  
8  5 
TRY IT 7.1
Complete the table to find three solutions to this equation: .
0  
0  
Show answer
0  
10  0  
TRY IT 7.2
Complete the table to find three solutions to this equation: .
0  
0  
Show answer
0  
4  0  
Find Solutions to a Linear Equation
To find a solution to a linear equation, you really can pick any number you want to substitute into the equation for or . But since you’ll need to use that number to solve for the other variable it’s a good idea to choose a number that’s easy to work with.
When the equation is in yform, with the y by itself on one side of the equation, it is usually easier to choose values of and then solve for .
EXAMPLE 8
Find three solutions to the equation .
We can substitute any value we want for or any value for . Since the equation is in yform, it will be easier to substitute in values of . Let’s pick , , and .
Substitute the value into the equation.  
Simplify.  
Simplify.  
Write the ordered pair.  
Check.  (0, 2)  (1, −1)  (−1, 5)  
So, , and are all solutions to . We show them in table below.
0  2  
1  
5 
TRY IT 8.1
Find three solutions to this equation: .
Show answer
Answers will vary.
TRY IT 8.2
Find three solutions to this equation: .
Show answer
Answers will vary
We have seen how using zero as one value of makes finding the value of easy. When an equation is in standard form, with both the and on the same side of the equation, it is usually easier to first find one solution when find a second solution when , and then find a third solution.
EXAMPLE 9
Find three solutions to the equation .
We can substitute any value we want for or any value for . Since the equation is in standard form, let’s pick first , then , and then find a third point.
Substitute the value into the equation.  
Simplify.  
Solve.  
Write the ordered pair.  (0, 3)  (2, 0)  
Check.  
✓  ✓  
So , , and are all solutions to the equation . We can list these three solutions in the table below.
0  3  
2  0  
1 
EXAMPLE 9.1
Find three solutions to the equation .
Show answer
Answers will vary.
TRY IT 9.2
Find three solutions to the equation .
Show answer
Answers will vary.
Glossary
 linear equation
 A linear equation is of the form , where A and B are not both zero, is called a linear equation in two variables.
 ordered pair
 An ordered pair gives the coordinates of a point in a rectangular coordinate system.
 origin
 The point is called the origin. It is the point where the xaxis and yaxis intersect.
 quadrant
 The xaxis and the yaxis divide a plane into four regions, called quadrants.
 rectangular coordinate system
 A grid system is used in algebra to show a relationship between two variables; also called the xyplane or the ‘coordinate plane.’
 xcoordinate
 The first number in an ordered pair .
 ycoordinate
 The second number in an ordered pair .
Practice Exercises
Exercises
Plot Points in a Rectangular Coordinate System
In the following exercises, plot each point in a rectangular coordinate system and identify the quadrant in which the point is located.
1.A 
2. A B C D E 
3. A B C D E 
4. A B C D E 
In the following exercises, plot each point in a rectangular coordinate system.
5. A B C D E 
6. A B C D E 
7. A B C D E 
8. A B C D E 
In the following exercises, name the ordered pair of each point shown in the rectangular coordinate system.
9.

10. 
11.

12. 
Exercises
Verify Solutions to an Equation in Two Variables
In the following exercises, which ordered pairs are solutions to the given equations?
13.
A 
14. A 
15. A 
16. A 
17. A 
18. A 
19. A 
20. A 
Complete a Table of Solutions to a Linear Equation
In the following exercises, complete the table to find solutions to each linear equation.
21.

22.


23.

24.


25.

26.


27.

28.


29.

30.


31.

32.

Find Solutions to a Linear Equation
In the following exercises, find three solutions to each linear equation.
33.  34. 
35.  36. 
37.  38. 
39.  40. 
41.  42. 
43.  44. 
45.  46. 
47.  48. 
Exercises
Everyday Math
49. Weight of a baby. Mackenzie recorded her baby’s weight every two months. The baby’s age, in months, and weight, in pounds, are listed in the table below, and shown as an ordered pair in the third column. a) Plot the points on a coordinate plane.
b) Why is only Quadrant I needed?

50. Weight of a child. Latresha recorded her son’s height and weight every year. His height, in inches, and weight, in pounds, are listed in the table below, and shown as an ordered pair in the third column. a) Plot the points on a coordinate plane.
b) Why is only Quadrant I needed?

Writing Exercises
51. Explain in words how you plot the point in a rectangular coordinate system.  52. How do you determine if an ordered pair is a solution to a given equation? 
53. Is the point on the xaxis or yaxis? How do you know?  54. Is the point on the xaxis or yaxis? How do you know? 
Answers
1.

3.


5.

7.


9. A: B: C: D:  11. A: B: C: D:  
13. A, B  15. A, C  
17. B, C  19. A, B  
21.

23.


25.

25.


27.

29.


31.

33. Answers will vary.  
35. Answers will vary.  37. Answers will vary.  
39. Answers will vary.  41. Answers will vary.  
43. Answers will vary.  45. Answers will vary.  
47. Answers will vary.  49.
a)
b) Age and weight are only positive. 

51. Answers will vary.  53. Answers will vary. 
Attributions
This chapter has been adapted from “Use the Rectangular Coordinate System” in Elementary Algebra (OpenStax) by Lynn Marecek and MaryAnne AnthonySmith, which is under a CC BY 4.0 Licence. Adapted by Izabela Mazur. See the Copyright page for more information.