# 6.8: Quadrilateral Classification

**At Grade**Created by: CK-12

**Practice**Quadrilateral Classification

What if you were given a quadrilateral in the coordinate plane? How could you determine if that quadrilateral qualifies as one of the special quadrilaterals: parallelograms, squares, rectangles, rhombuses, kites, or trapezoids? After completing this Concept, you'll be able to make such a determination.

### Watch This

CK-12 Foundation: Chapter6QuadrilateralClassificationA

Ten Marks: Parallelograms in a Coordinate Plane

Ten Marks: Kites and Trapezoids

### Guidance

When working in the coordinate plane, you will sometimes want to know what type of shape a given shape is. You should easily be able to tell that it is a quadrilateral if it has four sides. But how can you classify it beyond that?

First you should graph the shape if it has not already been graphed. Look at it and see if it looks like any special quadrilateral. Do the sides appear to be congruent? Do they meet at right angles? This will give you a place to start.

Once you have a guess for what type of quadrilateral it is, your job is to prove your guess. To prove that a quadrilateral is a parallelogram, rectangle, rhombus, square, kite or trapezoid, you must show that it meets the definition of that shape OR that it has properties that only that shape has.

If it turns out that your guess was wrong because the shape does not fulfill the necessary properties, you can guess again. If it appears to be no type of special quadrilateral then it is simply a *quadrilateral*.

The examples below will help you to see what this process might look like.

#### Example A

Determine what type of parallelogram

This *looks* like a rectangle. Let’s see if the diagonals are equal. If they are, then

If the diagonals are also perpendicular, then

The slope of

#### Example B

A quadrilateral is defined by the four lines

To check if its a parallelogram we have to check that it has two pairs of parallel sides. From the equations we can see that the slopes of the lines are

#### Example C

Determine what type of quadrilateral

There are two directions you could take here. First, you could determine if the diagonals bisect each other. If they do, then it is a parallelogram. Or, you could find the lengths of all the sides. Let’s do this option.

From this we see that the adjacent sides are congruent. Therefore,

**Algebra Review:** When asked to “simplify the radical,” pull all square numbers (1, 4, 9, 16, 25, ...) out of the radical. Above

Watch this video for help with the Examples above.

CK-12 Foundation: Chapter6QuadrilateralClassificationB

#### Example D

Is the quadrilateral

We have determined there are four different ways to show a quadrilateral is a parallelogram in the

Slope

Therefore,

### Vocabulary

A ** parallelogram** is a quadrilateral with two pairs of parallel sides. A quadrilateral is a

**if and only if it has four right (congruent) angles. A quadrilateral is a**

*rectangle***if and only if it has four congruent sides. A quadrilateral is a**

*rhombus***if and only if it has four right angles and four congruent sides. A**

*square***is a quadrilateral with exactly one pair of parallel sides. An**

*trapezoid***is a trapezoid where the non-parallel sides are congruent. A**

*isosceles trapezoid***is a quadrilateral with two distinct sets of adjacent congruent sides. If a kite is concave, it is called a**

*kite*

*dart.*### Guided Practice

1. A quadrilateral is defined by the four lines

2. Determine what type of quadrilateral

3. Determine what type of quadrilateral

**Answers:**

1. To be a rectangle a shape must have four right angles. This means that the sides must be perpendicular to each other. From the given equations we see that the slopes are

2. First, graph

Slope of \begin{align*}\overline{BC}=\frac{5-(-1)}{1-4}=\frac{6}{-3}=-2\end{align*}

Slope of \begin{align*}\overline{AD}=\frac{3-(-5)}{-3-1}=\frac{8}{-4}=-2\end{align*}

We now know \begin{align*}\overline{BC} \ || \ \overline{AD}\end{align*}. This is a trapezoid. To determine if it is an isosceles trapezoid, find \begin{align*}AB\end{align*} and \begin{align*}CD\end{align*}.

\begin{align*}AB & =\sqrt{(-3-1)^2+(3-5)^2} && ST = \sqrt{(4-1)^2+(-1-(-5))^2}\\ & = \sqrt{(-4)^2+(-2)^2} && \quad \ \ = \sqrt{3^2+4^2}\\ & = \sqrt{20}=2\sqrt{5} && \quad \ \ = \sqrt{25}=5\end{align*}

\begin{align*}AB \neq CD\end{align*}, therefore this is only a trapezoid.

3. We will not graph this example. Let’s find the length of all four sides.

\begin{align*}EF & = \sqrt{(5-11)^2+(-1-(-3))^2} && FG = \sqrt{(11-5)^2+(-3-(-5))^2}\\ & = \sqrt{(-6)^2+2^2} && \quad \ = \sqrt{6^2+2^2}\\ & = \sqrt{40}=2\sqrt{10} && \quad \ =\sqrt{40}=2\sqrt{10}\end{align*}

\begin{align*}GH & = \sqrt{(5-(-1))^2+(-5-(-3))^2} && HE = \sqrt{(-1-5)^2+(-3-(-1))^2}\\ & = \sqrt{6^2+(-2)^2} && \quad \ = \sqrt{(-6)^2+(-2)^2}\\ & = \sqrt{40}=2\sqrt{10} && \quad \ =\sqrt{40}=2\sqrt{10}\end{align*}

All four sides are equal. That means, this quadrilateral is either a rhombus or a square. The difference between the two is that a square has four \begin{align*}90^\circ\end{align*} angles and congruent diagonals. Let’s find the length of the diagonals.

\begin{align*}EG & = \sqrt{(5-5)^2+(-1-(-5))^2} && FH = \sqrt{(11-(-1))^2+(-3-(-3))^2}\\ & = \sqrt{0^2+4^2} && \quad \ \ = \sqrt{12^2+0^2}\\ & = \sqrt{16}=4 && \quad \ \ = \sqrt{144}=12\end{align*}

The diagonals are not congruent, so \begin{align*}EFGH\end{align*} is a rhombus.

### Practice

- If a quadrilateral has exactly one pair of parallel sides, what type of quadrilateral is it?
- If a quadrilateral has two pairs of parallel sides and one right angle, what type of quadrilateral is it?
- If a quadrilateral has perpendicular diagonals, what type of quadrilateral is it?
- If a quadrilateral has diagonals that are perpendicular and congruent, what type of quadrilateral is it?
- If a quadrilateral has four congruent sides and one right angle, what type of quadrilateral is it?

Determine what type of quadrilateral \begin{align*}ABCD\end{align*} is.

- \begin{align*}A(-2, 4), B(-1, 2), C(-3, 1), D(-4, 3)\end{align*}
- \begin{align*}A(-2, 3), B(3, 4), C(2, -1), D(-3, -2)\end{align*}
- \begin{align*}A(1, -1), B(7, 1), C(8, -2), D(2, -4)\end{align*}
- \begin{align*}A(10, 4), B(8, -2), C(2, 2), D(4, 8)\end{align*}
- \begin{align*}A(0, 0), B(5, 0), C(0, 4), D(5, 4)\end{align*}
- \begin{align*}A(-1, 0), B(0, 1), C(1, 0), D(0, -1)\end{align*}
- \begin{align*}A(2, 0), B(3, 5), C(5, 0), D(6, 5)\end{align*}

\begin{align*}SRUE\end{align*} is a rectangle and \begin{align*}PRUC\end{align*} is a square.

- What type of quadrilateral is \begin{align*}SPCE\end{align*}?
- If \begin{align*}SR = 20\end{align*} and \begin{align*}RU = 12\end{align*}, find \begin{align*}CE\end{align*}.
- Find \begin{align*}SC\end{align*} and \begin{align*}RC\end{align*} based on the information from part b. Round your answers to the nearest hundredth.

### Notes/Highlights Having trouble? Report an issue.

Color | Highlighted Text | Notes | |
---|---|---|---|

Show More |

Term | Definition |
---|---|

Kite |
A kite is a quadrilateral with distinct adjacent congruent sides. |

Parallelogram |
A parallelogram is a quadrilateral with two pairs of parallel sides. |

Quadrilateral |
A quadrilateral is a closed figure with four sides and four vertices. |

Rectangle |
A rectangle is a quadrilateral with four right angles. |

Rhombus |
A rhombus is a quadrilateral with four congruent sides. |

Trapezoid |
A trapezoid is a quadrilateral with exactly one pair of parallel opposite sides. |

### Image Attributions

Here you'll learn how to classify quadrilaterals in the coordinate plane.