# Pythagorean Theorem Assignment Worksheet Answers

Product Description

Right Triangles - The Pythagorean Theorem Notes and Practice

In this packet you will find:

A set of teacher notes that:
**illustrate and label the parts of a right triangle
**outline the parts of the Pythagorean Theorem and give 6 fully worked out examples
**Explain the requirements to be a Pythagorean Triple and gives 5 fully worked out examples
**Explain the converse of the Pythagorean Theorem and gives 6 fully worked out examples.

A set of student notes that match the teacher notes without the work included so that they can follow along as the teacher goes through the lesson

An assignment that includes:
***14 Pythagorean Theorem Problems (with a fully worked out answer key)
***10 Pythagorean Triple Problems (with a fully worked out answer key)
***15 Converse of the Pythagorean Theorem Problems (with a fully worked out answer key)

This file contains everything you need to teach a one or two day lesson on the Pythagorean Theorem

The diagrams on the first page come from my Right Triangle Unit Vocabulary Cards and Posters.

If you want to teach the Converse of the Pythagorean Theorem, or have the students discover it themselves instead of just being told it, check out my The Converse of the Pythagorean Theorem Investigation Activity
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If you are looking for other right Triangle resources please check out my:

Right Triangles Trig Bellwork/Exit Cards/Station Questions
Geometry Right Triangles Trig Bellwork Exit Cards Station Questions.

Vocabulary and Games
Geometry Right Triangles Trigonometry Square Roots BINGO Game.
Geometry Right Triangles Trigonometry Square Roots Vocabulary Matching Activity.
Right Triangle Unit Vocabulary CCSS and I-Cans Wall Hangings.

Vocabulary Assignment and Puzzles
Right Triangle Unit Vocabulary Assignment and Puzzles.

Classroom Notes with Assignments and Answer Keys:
30 60 90 Special Right Triangles Notes and Practice.
45 45 90 Special Right Triangles Notes and Practice.
Soh Cah Toa (Sin Cos Tan) Introduction To Trigonometry Notes and Practice.
The Law of Sines Notes and Practice.
Angles of Elevation and Depression Notes and Practices One and Two.

Extra Practice Worksheets
Sin Cos and Tan Soh Cah Toa Trigonometry Riddle Practice Worksheet.
Geometry Pythagorean Theorem Riddle Worksheet.
Geometry Simplifying Square Roots Riddle Worksheet.
Geometry Special Right Triangles Practice Riddle Worksheet.
Geometry Angles of Elevation and Depression Riddle Practice Worksheet.

Graphic Organizers:
Right Triangles and Trigonometry Graphic Organizers.

Unit Review:
Right Triangles Unit Review.

Notecards
Geometry Right Triangles Trigonometry Square Roots Note Cards.

While each product can be purchased individually at the above links -- You can save 20% by buying the entire unit bundled together!!!

Right Triangles Complete Unit Bundle
Geometry Right Triangles Complete Unit Bundle.
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The following diagram gives the formula for the Pythagorean Theorem, scroll down the page for more examples and solutions that use the Pythagorean Theorem.

What is the Pythagorean Theorem?
A right triangle consists of two sides called the legs and one side called the hypotenuse. The hypotenuse is the longest side and is opposite the right angle.

The Pythagorean Theorem or Pythagoras' Theorem is a formula relating the lengths of the three sides of a right triangle.

If we take the length of the hypotenuse to be c and the length of the legs to be a and b then this theorem tells us that:

c2 =a2 + b2

Pythagorean Theorem states that

In any right triangle, the sum of the squared lengths of the two legs is equal to the squared length of the hypotenuse.

Note: Pythagorean theorem only works for righttriangles

How to solve application problems using the Pythagorean Theorem?
The Pythagorean Theorem states that in a right triangle, the square of the hypotenuse is equal to the sum of the squares of the other two sides called the legs.

Proof of the Pythagorean Theorem using similar triangles
This proof is based on the proportionality of the sides of two similar triangles, that is, the ratio of any corresponding sides of similar triangles is the same regardless of the size of the triangles.

Examples:
1. Determine the length of the missing side of the right triangle.
2. Mason wants to lay pavers in his families' backyard for the summer. It is important that he start the pavers at a right angle. If he want the dimensions of the patio to be 8 ft by 10 ft, what should the diagonal measure?

What is the Converse of the Pythagorean Theorem?
The converse of the Pythagorean Theorem is also true.

For any triangle with sides abc, if a2 + b2 = c2, then the angle between a and b measures 90° and the triangle is a right triangle.

How to use the Converse of the Pythagorean Theorem?
We can use the converse of the Pythagorean Theorem to check whether a given triangle is an acute triangle, a right triangle or an obtuse triangle.

For a triangle with sides a, b and c and c is the longest side then:
If c2 < a2 + b2 then it is an acute-angled triangle, i.e. the angle facing side c is an acute angle.
If c2 = a2 + b2 then it is a right-angled triangle, i.e. the angle facing side c is a right angle.
If c2> a2 + b2 then it is an obtuse-angled triangle, i.e. the angle facing side c is an obtuse angle.
Pythagorean Theorem Worksheets
Pythagorean Theorem (Find the missing side)
Pythagorean Theorem (Test for right triangle)
Pythagorean Theorem (Dynamically generated)
Pythagorean Theorem (Word Problems)
Converse Pythagorean Theorem: Types of Triangles

How to use the Converse of the Pythagorean Theorem?
This video shows how to use the Pythagorean Theorem and its Converse to determine if a triangle is acute, right, or obtuse.
According to the triangle inequality theorem, the sum of the two shorter sides of a triangle must be greater that the longest side.
Examples:
Determine if the lengths represent the sides of an acute, right, or obtuse triangle if a triangle is possible.
1) 7, 24, 25
2) 5, 12, 16
3) 6, 8, 9
4) 3, 5, 9

How to use the Pythagorean Theorem?
The Pythagorean Theorem can be used when we know the length of two sides of a right triangle and we need to get the length of the third side.

Example 1: Find the length of the hypotenuse of a right triangle if the lengths of the other two sides are 3 inches and 4 inches.
 Solution: Step 1: Write down the formula c2 =a2 + b2 Step 2: Plug in the values c2 = 32 + 42 c2 = 9 + 16 c2 = 25 c = c = 5

Answer: The length of the hypotenuse is 5 inches.

Example 2: Find the length of one side of a right triangle if the length of the hypotenuse is 10 inches and the length of the other side is 9 inches.

 Solution: Step 1: Write down the formula c2 =a2 + b2 Step 2: Plug in the values 102 = 92 + b2 100 = 81 + b2 Step 3: Subtract 81 from both sides 19 = b2 b = b ≈ 4.36

Answer: The length of the side is 4.36 inches.

How to use the Pythagorean Theorem to solve real-world problems?
Examples:
1. Claire wants to hang a banner from the sill of a second-story window in her house. She needs to find a ladder that, when rested against the outside wall of her house will be long enough to reach the second-story window. If the window is 16 feet above the ground and Claire places the foot of the ladder 12 feet from the wall, how long will the ladder need to be?
2. During a baseball game, the second baseman gets the ball and throws it to the catcher to stop a runner before he gets to home. If it is 90 feet between each base, how far did the second baseman throw the ball?
3. A water park wants to add a zipline into a pool. If the platform at the top of the zipline is 25 feet tall, and the pool is 40 feet ling, what is the maximum length needed for the zipline?
4. A wheelchair ramp is needed at the entrance to a building. There is only 10 feet of space available for the ramp. How long should the ramp be?
5. A television screen is advertised as 50 inches. If the television is 35 inches wide, how tall is it?
6. A kite at the end of a 40 feet line is 10 feet behind the runner. How high is the kite?
7. A roof is being placed on a frame that is 9 feet tall and 30 feet wide. How long are the diagonal pieces of the frame?

Proofs of the Pythagorean Theorem
There are many ways to proof the Pythagorean Theorem. We will look at three of them here.

How to proof the Pythagorean Theorem using Similar Triangles?
This proof is based on the fact that the ratio of any two corresponding sides of similar triangles is the same regardless of the size of the triangles.
Given Triangle ABC drawn above in the image and prove a2 + b2 = c2 using Similar Triangles
Triangle ABC ∼ Triangle ACD AA (Similarity Postulate)
Triangle ABC ∼ Triangle CBD AA (Similarity Postulate)
c/a = a/x (Converse of SSS Similarity Postulate)
c/b = b/y (Converse of SSS Similarity Postulate)
a2 = cx (Cross multiply)
b2 = cy (Cross multiply)
a2 + b2 = cx + cy (Adding the equations)
a2 + b2 = c(x + y) (GCF)
a2 + b2 = c2 (Substitution) How to proof the Pythagorean Theorem using Algebra?
In this proof, we use four copies of the right triangle, rearrange them and use algebra to proof the theorem. How to proof of the Pythagorean Theorem using Rearrangement of shapes?
The following video shows how a square with area c2 can be cut up and rearranged such that it can fit into two other smaller squares with areas a2 and b2.

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