# 8.15: Unknown Measures of Similar Figures

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

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**Practice**Unknown Measures of Similar Figures

In the field behind the museum, Mrs. Gilson showed the students a replica of a sculpture known as the “Angel of the North.” The students went outside to have a better look at the huge structure.

“It is huge,” Carmen said to Henry.

“Yup, I wonder how tall it is?” he whispered.

“You can figure that out quite easily with math,” Mrs. Gilson said overhearing the conversation.

“How can I do that?” Henry smirked.

“How tall are you?”

“Five feet,” Henry answered.

“Good and it looks like your shadow is about half as long as your height. Can you figure it out now?”

Henry looked at Carmen and then back at Mrs. Gilson.

“I have an idea,” he said smiling.

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Do you have an idea what Henry is thinking about? If you pay attention to this Concept, you will know how to figure out how tall the statue is. We will come back to Henry, Carmen and the sculpture at the end of the Concept.
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### Guidance

We can use a scale factor to help us to determine unknown measures. We don’t use the scale factor alone we apply it to the proportion. If we know the length of a side in one figure, we can use the scale factor to find the measure of the corresponding side in a similar figure. Let’s see how this works.

Side a in triangle corresponds to side in the smaller triangle . Side is 4 meters long and the scale factor is 6. What is the measure of side ?

We have been told that two sides, and , correspond in a small triangle and a large one. If we know the length of one and the scale factor, we can find the length of the other. Side is 4 meters long, and the scale factor tells us that side will be six times longer. Let’s write this out and solve.

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Side a must have a length of 24 meters.
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We can check by setting up the ratio that compares the lengths of the two sides. If the scale factor is 6, then our work is accurate.

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Now we know that our work is accurate.
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Use the scale factor of the similar figures below to find the measure of .

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Now the first thing that we can do is to set up a proportion to solve for the missing side. Remember that a proportion is two equal ratios. We can set up and compare the corresponding sides.
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Here is our proportion.
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Our proportion is written so that the corresponding sides form the two ratios of the proportion. We can say that
is our unknown in this proportion.
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Do you remember how to solve proportions?
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We can see a clear relationship between five and four, so we need to use cross products.

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Now we can solve the equation for
by dividing both sides of the equation by 4.
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The side length of
is 7.5.
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Sometimes, you can figure out missing side lengths just by looking at the given measures. In the last example it was too tricky because we couldn’t see the relationship between 5 and 4. However this isn’t always the case. Always look at the diagram of the figures and see if you can determine the missing length without measuring.

Look at these two rectangles. First, look and see if we can figure out the relationship between the two figures. To do this, we compare the side lengths of each part of the two figures.

We need to figure out the measurement of side in the second rectangle.

You can see that the measurements in the second rectangle are half as big as the measurements in the first. Also, you know that the opposite sides of a rectangle are congruent. Therefore, the missing side length is 4.

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Working in this way can often save you some time!
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You may be surprised how often we use similar figures that are related by a scale factor. Maps, architectural blueprints, and diagrams are just some examples. In most of these cases, the scale factor is given so that we know how to enlarge the items in the drawing to their real sizes. Take a look at the floor plan below. It shows where the furniture is located in a living room.

The size of everything in the drawing has been made smaller from a real size by the scale factor.
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What is the scale factor for the floor plan?
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It tells us that
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one inch in the drawing is equal to two feet in actual size.
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Therefore, if we know the size in inches of any object in the floor plan, we can find its actual size in feet. Let’s give it a try.

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How many feet long is the sofa?
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Let’s find the sofa on the floor plan. Then we can use a ruler to find its length in inches. How many inches long is the drawing of the sofa? The sofa in the floor plan is 2 inches long. Imagine this is like knowing the length of one side in a similar figure. Now we need to use the scale factor as we would to find the length of the corresponding side in a similar figure (in this case the “corresponding side” is the actual sofa). We simply multiply the length we know by the scale factor:

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The sofa is four feet long.
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How long is the fireplace?
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Use a ruler to measure the fireplace in the drawing. It is 2.5 inches long. We multiply this by the scale factor to find the length in feet.

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The real length of the fireplace is 5 feet.
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We can also reverse the process to take an actual size and reduce it.
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Now it's time for you to practice by solving proportions.

#### Example A

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Solution:
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#### Example B

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Solution:
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#### Example C

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Solution:
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Here is the original problem once again.

In the field behind the museum, Mrs. Gilson showed the students a replica of a sculpture known as the “Angel of the North.” The students went outside to have a better look at the huge structure.

“It is huge,” Carmen said to Henry.

“Yup, I wonder how tall it is?” he whispered.

“You can figure that out quite easily with math,” Mrs. Gilson said overhearing the conversation.

“How can I do that?” Henry smirked.

“How tall are you?”

“Five feet,” Henry answered.

“Good and it looks like your shadow is about half as long as your height. Can you figure it out now?”

Henry looked at Carmen and then back at Mrs. Gilson.

“I have an idea,” he said smiling.

**
Let’s think about how Henry and Carmen could figure out the height of the statue. We know that Henry is five feet tall and that his shadow is half as long as he is tall. Now we can write a ratio to compare Henry’s height to his shadow’s length.
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Next, we figure out the height of the statue. Henry and Carmen figure out very quickly that they need to figure out the length of the shadow of the statue to figure out the height of the statue. Once they know the length of the shadow, they can use proportional reasoning and indirect measurement to figure out the statue’s height.
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Approximating 1 foot using a length a little longer than Henry’s sneaker, they measure
feet. It is not an exact measure, but they feel that it is very close.
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Now they wrote the following proportion.
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Taking out a notebook, Carmen cross multiplies to solve the proportion.
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The sculpture is approximately 65 feet tall.
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After completing their work, Henry and Carmen check out their answer with the curator of the museum. The statue is actually 65.6 feet tall. Their work was very close to accurate! Indirect measurement was very useful!!
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### Vocabulary

Here are the vocabulary words in this Concept.

- Similar Figures
- Figures that have the same angle measures but not the same side lengths.

- Indirect Measurement
- using relationships between side lengths to figure out missing measures.

- Scale Factor
- the proportional relationship between two side lengths.

- Proportions
- two equal ratios

### Guided Practice

Here is one for you to try on your own.

Chris is making a drawing of his school and the grounds around it. The basketball court is 75 feet long and 40 feet wide. If Chris uses a scale factor in which 1 inch equals 10 feet, what should the dimensions of the basketball court be in his drawing?

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Answer
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First of all, what do we need to find?

We need to know the dimensions (length and width) that the small version of the basketball court should be.

What information have we been given?

We know the actual size of the basketball court, and we know the scale factor Chris is using for his drawing. We can set up an equation to find the drawn dimensions. We’ll have to find the length first and then the width.

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The length of the basketball court in Chris’s drawing should be 7.5 inches.
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Now let’s use the same process to find the width Chris should draw.

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Great! Now we know that Chris should represent the basketball court as a 4 by 7.5 inch rectangle on his drawing.
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### Video Review

Here is a video for review.

### Practice

Directions: Solve each problem.

1. Side in triangle corresponds to side in the smaller triangle . Side is 12 cm long and the scale factor is 4. What is the measure of side ?

2. Side in triangle corresponds to side in the smaller triangle . Side is 8 inches long and the scale factor is 7. What is the measure of side ?

Directions: Solve each proportion for the missing side length.

3.

4.

Directions: Now use the scale factor to create a new ratio.

5. , scale factor 4

6. , scale factor 5

7. , scale factor 3

Directions: Find the scale factor of the similar figures below and then use it to find the measure of .

8. Use the scale factor of the similar figures below to find the measure of .

Directions: Use the map below and a ruler to answer the questions that follow.

9. How far does Delia live from her school?

10. How far is it from the library to the park?

11. How far does Delia live from City Hall?

12. Delia drew another point to show the police station on her map. She drew it 1.5 inches away from the City Hall. What is the actual distance between the police station and City Hall?

13. How far does Delia live from the park?

14. How far does she live from the library?

15. What is the farthest that Delia will travel to any one item on her map?

Congruent

Congruent figures are identical in size, shape and measure.Corresponding

The corresponding sides between two triangles are sides in the same relative position.Proportion

A proportion is an equation that shows two equivalent ratios.Similar

Two figures are similar if they have the same shape, but not necessarily the same size.### Image Attributions

## Description

## Learning Objectives

Here you'll learn to use proportions to find unknown measures in similar figures, then apply this to indirect measurement.