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4.05 Integers in the coordinate plane

Introduction to the coordinate plane

The coordinate plane is a two-dimensional plane used to plot points and graph lines. These points are labeled by an ordered pair of numbers of the form \left(x,\,y\right), called coordinates.

We can think of the coordinate plane as being built from two separate number lines. The first number line we lay down horizontally on the plane. This line is called the x-axis, and for every point in the plane we can talk about its x-coordinate, which is its horizontal position along this axis.

The second number line is placed in a vertical direction, perpendicular to the first number line. This vertical line is called the y-axis, and every point in the plane has a y-coordinate, which is its vertical distance along this axis.

The point at which the x-axis and the y-axis intercept is called the origin. The coordinates of the origin are \left(0,\,0\right).

This image shows the Quadrant 1 of the coordinate plane with labels. Ask your teacher for more information.

Exploration

Use the applet below to see how drawing a coordinate plane over an area can be used to describe the location of different objects.

Loading interactive...
  1. How would you describe the location of each object without the coordinate plane drawn?
  2. How would you describe the location of each object with the coordinate plane drawn?
  3. Which way of describing locations is more clear?

The coordinates of a point are given in relation to the origin. In the image, we can see that the cat is 6 units to the right of the origin, and 2 units above the origin. So we can say the cat has the coordinates \left(6,\,2\right). The x-coordinate is 6 and the y-coordinate is 2.

Coordinate plane where a cat is located at point 6, 2.

Notice that the order of the numbers is important. It would be incorrect to say the cat has the coordinates \left(2,\,6\right). These coordinates refer to the point 2 units to the right of the origin, and 6 units above the origin.

Coordinates are always written with parentheses in the form \left(x,y\right) where the first number, x, is the x-coordinate and the second number, y is the y-coordinate.

Notice that the x-coordinate also tells us how far a point is from the y-axis and the y-coordinate tells us how far a point is from the x-axis.

In the image of the cat, the coordinates \left(6,\,2 \right) tell us the cat is 6 units from the y-axis and 2 units from the x-axis.

Examples

Example 1

Consider the coordinate plane shown:

This image shows a coordinate plane with objects inside it. Ask your teacher for more information.
a

What object has coordinates \left(1,\,4\right)?

Worked Solution
Create a strategy

Use the numbers on the axes in locating the coordinates.

Apply the idea

Start at \left(0,\,0\right). Move 1 space to the right, then 4 spaces up.

The object with coordinates \left(1,\,4\right) is a star.

b

What object has coordinates \left(10,\,1\right)?

Worked Solution
Create a strategy

Use the numbers on the axes in locating the coordinates.

Apply the idea

Start at \left(0,\,0\right). Move 10 space to the right, then 1 space up.

The object with coordinates \left(10,\,1\right) is beach ball.

c

What are the coordinates of the bicycle?

Worked Solution
Create a strategy

Follow the grid line up to the horizontal axis to identify the x-coordinate. Then, follow the grid line across the vertical axis to identify the y-coordinate.

Apply the idea

The number on the horizontal axis directly below the bicycle is 3 and across the vertical axis is 6. So, the coordinates are \left(3,\,6\right).

Example 2

Plot the point \left(6,\,3\right) onto the coordinate plane.

Worked Solution
Create a strategy

Use the numbers on the axes to move on the coordinate plane.

Apply the idea

Start at \left(0,\,0\right). Plot the point 6 space to the right, then 3 spaces up.

This will be the point on the plane described by \left(6,\,3\right).

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Example 3

Consider the point with coordinates \left(9,\,4\right).

a

How far is the point from the x-axis?

Worked Solution
Create a strategy

To find the distance of a point from the x-axis, consider the y-coordinate of the point. The distance to the x-axis is measured vertically, making it equal to the absolute value of the y-coordinate.

Apply the idea

For the point \left(9,\,4\right), the y-coordinate is 4. Thus, the distance from the x-axis is \vert 4 \vert = 4 units.

b

How far is the point from the y-axis?

Worked Solution
Create a strategy

To determine the distance of a point from the y-axis, examine the x-coordinate. This distance is measured horizontally, making it equal to the absolute value of the x-coordinate.

Apply the idea

Given the point \left(9,\,4\right), the x-coordinate is 9. Therefore, the distance from the y-axis is \vert 9\vert = 9 units.

Example 4

Write the coordinates of the point that is 5 units to the right of \left(9,\,6\right).

Worked Solution
Create a strategy

Plot the given coordinates, then move horizontally by the required number of units.

Apply the idea
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Plot \left(9,\,6\right) on the coordinate plane and move 5 units to the right.

The new coordinates are \left(14,\,6\right).

Reflect and check

Another way to find the coordinates of the new point is by realizing that moving right will increase the x-coordinate so we need to add 5 to the x-coordinate.

\displaystyle \text{New coordinates}\displaystyle =\displaystyle \left(9+5\,,\,6\right)Add 5 to 9
\displaystyle =\displaystyle \left(14,\,6\right)Evaluate

Example 5

Point A has the coordinates \left(3,\,6\right), and point B has the coordinates \left(8,6\right). What is the distance between A and B?

Worked Solution
Create a strategy

Plot the points on the coordinate plane and then count the horizontal units from point A to point B.

Apply the idea

Plot the point A and point B. The distance between them is 5 units.

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Reflect and check

Another way to find the distance between the two points is by realizing that point A and point B have the same y-coordinate, therefore the distance between them is the difference in their x-coordinate.

\displaystyle \text{Distance}\displaystyle =\displaystyle \left(8-3\right)Subtract 3 from 8
\displaystyle =\displaystyle 5Evaluate
Idea summary

The coordinate plane is used to describe the location of actual points called coordinates in a two-dimensional space.

The coordinates are pair of numbers that are in the form of

\displaystyle \left(x,y\right)
\bm{x}
is the first number which is found in the x-axis
\bm{y}
is the second number which is found in the y-axis

Quadrants in the coordinate plane

Now that we know how to graph points with positive coordinates, let's see what happens if we extend the axes of a coordinate plane in both directions.

Exploration

Click and drag the point and make some observations.

Loading interactive...

Start with P at the origin.

  1. Drag P into the section labeled 1st quadrant. What do you notice about the coordiantes? Is that true for every point in the 1st quadrant?

  2. Repeat for the other 3 quadrants. What do you notice about the points in each quadrant? Are your observations true for every point in that quadrant?

  3. Drag P along the y-axis. What do you notice about the coordinates? Is that true for every point on the y-axis?

  4. Drag P along the x-axis. What do you notice about the coordinates? What do you notice about the coordinates? Is that true for every point on the y-axis?

The coordinate plane is divided into four distinct regions, called quadrants.

Coordinate plane labeled with: Quadrants 1-4, axes and origin.

The 1st quadrant is on the top right. The x-coordinate and y-coordinate of a point in the 1st quadrant are both positive.

The quadrants are numbered in an counterclockwise direction:

  • 2nd quadrant: x-coordinates are negative, y-coordinates are positive

  • 3rd quadrant: both coordinates are negative

  • 4th quadrant: x-coordinates are positive, y-coordinates are negative

Points that lie on an axis, like \left(-5,\,0\right) or \left(0,\,4\right), are not in any quadrant.

Points on the x-axis have a y-coordinate of 0.

Points on the y-axis have an x-coordinate of 0.

Examples

Example 6

What are the coordinates of the point shown in the coordinate plane?

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Worked Solution
Create a strategy

Follow the grid line up to the horizontal axis to identify the x-coordinate. Then, follow the grid line across the vertical axis to identify the y-coordinate.

Apply the idea

The number on the horizontal axis directly above the point is 4 and across the y-axis is -6. So, the coordinates are \left(4,\,-6\right).

Example 7

What are the coordinates of the point shown in the coordinate plane?

Give the coordinates in the form \left(x,\,y\right).

-5
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-5
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Worked Solution
Create a strategy

Count the number of horizontal and vertical units required to move away from the origin and determine if it is in the positive or negative direction.

Apply the idea

The point is located 2 spaces to the left, then 1 space down. So, the coordinates are \left(-2,\,-1\right).

Example 8

Plot the point \left(-9,\,3\right) on the coordinate plane.

Worked Solution
Create a strategy

The first coordinate tells us how far to the right (positive) or left (negative) the point is from the origin.

The second coordinate tells us how far above (positive) or below (negative) the point is from the origin.

Apply the idea

Starting from the origin, go 9 units in the left direction and then 3 units in the upward direction.

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Example 9

In which quadrant does the point \left(3,\,-2\right) lie?

Worked Solution
Create a strategy

Recall the characteristic of each quadrants:

  • 1st quadrant: positive x and positive y.

  • 2nd quadrant: negative x and positive y.

  • 3rd quadrant: negative x and negative y.

  • 4th quadrant: positive x and negative y.

Apply the idea

Since the coordinates have positive x and negative y, the point \left(3,\,-2\right) lies in 4th quadrant.

Reflect and check

We can plot the point \left(3,\,-2\right) to see which quadrant it is in:

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Example 10

What is the distance between A\left(6,\,8\right) and B\left(6,\,-4\right)?

Worked Solution
Create a strategy

Since the x-coordinates are the same, find the difference of the y-coordinates.

Apply the idea
\displaystyle \text{Distance}\displaystyle =\displaystyle 8-\left(-4\right)Subtract -4 from 8
\displaystyle =\displaystyle 8+4Combine the adjacent signs
\displaystyle =\displaystyle 12 \text{ units}Evaluate
Reflect and check

We can check the distance between the two points by graphing:

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Example 11

On which axis does point \left(0,\,-4\right) lie?

Worked Solution
Create a strategy

Plot the point \left(0,\,-4\right) on a coordinate plane to determine which axis it lies on.

Apply the idea
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We can observe that the point \left(0,\,-4\right) lies on the y-axis.

Reflect and check

If one of the coordinates is 0, then the point lies on the axis of the coordinate that is not 0.

For point \left(0,\,-4 \right), the x-coordinate is 0 and the y-coordinate is -4. Therefore, the point must lie on the y-axis.

Idea summary

The coordinate plane is divided into 4 quadrants.

Coordinate plane labeled with: Quadrants 1-4, axes and origin.

Points that lie on an axis, like \left(-5,\,0\right) or \left(0,\,4\right), are not in any quadrant.

Points on the x-axis have a y-coordinate of 0.

Points on the y-axis have an x-coordinate of 0.

The point \left(0,\,0\right) is the origin.

Outcomes

6.MG.3

The student will describe the characteristics of the coordinate plane and graph ordered pairs.

6.MG.3a

Identify and label the axes, origin, and quadrants of a coordinate plane.

6.MG.3b

Identify and describe the location (quadrant or the axis) of a point given as an ordered pair. Ordered pairs will be limited to coordinates expressed as integers.

6.MG.3c

Graph ordered pairs in the four quadrants and on the axes of a coordinate plane. Ordered pairs will be limited to coordinates expressed as integers.

6.MG.3d

Identify ordered pairs represented by points in the four quadrants and on the axes of the coordinate plane. Ordered pairs will be limited to coordinates expressed as integers.

6.MG.3e

Relate the coordinates of a point to the distance from each axis and relate the coordinates of a single point to another point on the same horizontal or vertical line. Ordered pairs will be limited to coordinates expressed as integers.

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