Lesson 2Side Lengths and Areas

Learning Goal

Let’s investigate some more squares.

Learning Targets

  • I can explain what a square root is.

  • I understand the meaning of expressions like and .

  • If I know the area of a square, I can express its side length using square root notation.

Lesson Terms

  • square root

Warm Up: Notice and Wonder: Intersecting Circles

Problem 1

What do you notice? What do you wonder?

A blue circle overlapping with a yellow circle. A triangle ABC is drawn inside the overlapping area of the circles.

Activity 1: One Square

Problem 1

Use the circle to estimate the area of the square shown here:

A coordinate plane with the origin labeled “O.” The x-axis has the numbers negative 6 through 6 indicated with tick marks. The y-axis has the numbers negative 6 through 7 indicated with tick marks. A square and a circle are drawn on the grid so that the circle’s circumference passes through 2 of the squares vertices. The circle’s center is the origin and it’s circumference is indicated by a dashed line that passes through the following approximate points on the axes: Negative 5 point 3 comma 0, 0 comma 5 point 3, 5 point 3 comma 0, and 0 comma negative 5 point 3.  The square is tilted so that all its sides are diagonal to the coordinate grid. It has vertices at: 0 comma 0, negative 2 comma 5, 3 comma 7, and 5 comma 2. The circumference of the circle passes through the square’s vertices at negative 2 comma 5 and 5 comma 2 so that the sides of the square, extending from the origin to those 2 vertices, are within the circle. @Kia Johnson I didn't want to say that the sides of the square were the radius felt like taking away some of the cognitive demand) but felt a little wordy. REPLY 11:44 (Fixed some language, now that I am writing for same image on grid): A coordinate plane with the origin labeled “O.” The x-axis has the numbers negative 6 through 6 indicated with tick marks. The y-axis has the numbers negative 6 through 7 indicated with tick marks. A square and a circle are drawn on the plane so that the circle’s circumference passes through 2 of the squares vertices. The circle’s center is the origin and it’s circumference is indicated by a dashed line that passes through the following approximate points on the axes: Negative 5 point 3 comma 0, 0 comma 5 point 3, 5 point 3 comma 0, and 0 comma negative 5 point 3.  The square is tilted so that all its sides are diagonal to the coordinate grid. It has vertices at: 0 comma 0, negative 2 comma 5, 3 comma 7, and 5 comma 2. The circumference of the circle passes through the square’s vertices at negative 2 comma 5 and 5 comma 2 so that the sides of the square, extending from the origin to those 2 vertices, are within the circle.

Problem 2

Use the grid to check your answer to the first problem.

A coordinate grid with the origin labeled “O.” The x-axis has the numbers negative 6 through 6 indicated with gridlines. The y-axis has the numbers negative 6 through 7 indicated with gridlines. A square and a circle are drawn on the grid so that the circle’s circumference passes through 2 of the squares vertices. The circle’s center is the origin and it’s circumference is indicated by a dashed line that passes through the following approximate points on the axes: Negative 5 point 3 comma 0, 0 comma 5 point 3, 5 point 3 comma 0, and 0 comma negative 5 point 3. The square is tilted so that all its sides are diagonal to the coordinate grid. It has vertices at: 0 comma 0, negative 2 comma 5, 3 comma 7, and 5 comma 2. The circumference of the circle passes through the square’s vertices at negative 2 comma 5 and 5 comma 2 so that the sides of the square, extending from the origin to those 2 vertices, are within the circle.

Are you ready for more?

Problem 1

One vertex of the equilateral triangle is in the center of the square, and one vertex of the square is in the center of the equilateral triangle. What is ?

A square with an overlapping triangle that has a vertex as the center of the square. An angle made from the base of the triangle and side of square is labeled x.

Activity 2: The Sides and Areas of Tilted Squares

Problem 1

Find the area of each square and estimate the side lengths using your geometry toolkit. Then write the exact lengths for the sides of each square.

Three triangles on a grid labeled A, B, C all tilted.

Problem 2

Complete the tables with the missing side lengths and areas.

side length,

area,

side length,

area,

Problem 3

Plot the points, , on the coordinate plane shown here.

Print Version

Plot the points, , on the coordinate plane shown here.

A blank graph of side length (units) (horizontal from 0-10) and area (square units) (vertical from 0-50)

Problem 4

Use this graph to estimate the side lengths of the squares in the first question. How do your estimates from the graph compare to the estimates you made initially using your geometry toolkit?

Problem 5

Use the graph to approximate .

Lesson Summary

We saw earlier that the area of square ABCD is 73 units².

A blue square on a grid labeled ABCD and tilted.

What is the side length? The area is between and , so the side length must be between 8 units and 9 units. We can also use tracing paper to trace a side length and compare it to the grid, which also shows the side length is between 8 units and 9 units. But we want to be able to talk about its exact length. In order to write “the side length of a square whose area is 73 square units,” we use the square root symbol. “The square root of 73” is written , and it means “the length of a side of a square whose area is 73 square units.”

We say the side length of a square with area 73 units² is units. This means that

All of these statements are also true:

because

because

units is the side length of a square whose area is 10 units², and

There are 3 squares on a square grid, arranged in order of area, from smallest, on the left, to largest, on the right.  The left most square is aligned to the grid and has side lengths of 3 with an area of 9.  The middle square is tilted on the grid so that its sides are diagonal to the grid. The square is labeled with a side length of square root of 10 and an area of 10. The right most square is aligned to the grid and has side lengths of 4 with an area of 16.