Table of contents | |
Introduction | |
Perimeter | |
Area | |
Area of a Triangle | |
Key points |
This chapter explores the concepts of perimeter and area, which are essential in understanding the dimensions and space occupied by different shapes. Perimeter is the total distance around a shape, while the area is the space within the shape. These concepts are useful in real-life situations, such as calculating the amount of fencing needed for a garden or the amount of paint required to cover a wall.
Perimeter of a Rectangle
Example: Imagine you have a rectangular garden. The garden is 12 cm long and 8 cm wide. You want to put a fence all around it. To find out how much fencing you need, you need to calculate the perimeter of the rectangle.
Solution: The perimeter is the total distance around the garden, which is the sum of all four sides. Here’s how you calculate it:
Step 1: Add the length and the width together.
Step 2: Since the rectangle has two lengths and two widths, multiply the sum by 2.
So, the perimeter of the garden is 40 cm.
Perimeter of a Square
Example: Debojeet has a square photo frame, and each side of the frame is 1 meter long. He wants to put colored tape all around the frame. To find out how much tape he needs, we calculate the perimeter of the square.
Solution: For a square, all four sides are the same length. The perimeter is simply four times the length of one side:
So, Debojeet needs 4 meters of tape to go around the photo frame.
Perimeter of a triangle = sum of the lengths of its three sides.
Example: Let’s say you have a triangle with sides that are 4 cm, 5 cm, and 7 cm long. You want to know the perimeter of this triangle.
Solution: The perimeter is the sum of the lengths of all three sides:
So, the perimeter of the triangle is 16 cm.
The shapes of the letters "F" are created using lines on a grid. To find the perimeter of each letter, we need to measure the lengths of all the sides that make up the shape.
For letter:
For this image of "F" in grid, there are 16 straight and 3 diagonal lines.
Example: Deep Dive
Now, imagine you’re at a playground with two paths you can run around. One path is bigger, and the other is smaller. You and your friend decide to run different paths and see who runs the most.
If your friend runs around the small path once, they run 100 meters.
Now, if you run 3 rounds on the big path, you would run: 3 × 160 m = 480 meters
And if your friend runs 4 rounds on the small path, they would run: 4 × 100 m = 400 meters
So, even though your friend ran more rounds, you ran the longer distance (480 meters vs. 400 meters).
Example: Comparing Distances with a Simple Race
Let’s say you and your friend are going to race around two tracks, but these tracks are squares instead of rectangles:
If the race is 240 meters long, you need to figure out where to start so that you both finish at the same spot:
Estimate and Verify
Take a piece of paper or newspaper and cut it into different shapes, like stars, hearts, or triangles.
See how close your estimate was!
A regular polygon is a closed shape where all sides and all angles are equal. For example:
Perimeter of an Equilateral Triangle
The perimeter of any triangle is the sum of its three sides. For an equilateral triangle, since all three sides are the same, the perimeter is:
Example: Imagine you have an equilateral triangle where each side is 5 cm. The perimeter would be:
Perimeter = 3 × 5 cm = 15 cm
Similarity between a Square and an Equilateral Triangle
Split and Rejoin Activity
You have a rectangular paper chit with dimensions 6 cm × 4 cm.
This rectangle is cut into two equal pieces and rejoined in different ways to create new shapes. Your task is to calculate the perimeter of each new shape.
For the first arrangement, the pieces are joined side by side, creating a long rectangle. The perimeter is:
Perimeter of arrangement a:
Now, let's calculate the perimeter for each of these new shapes:
b.
Perimeter = 6 + 2 + 4 + 2 + 6 + 2 = 22 cm
c.
Perimeter = 6 + 2 + 4 + 4 + 2 + 2 = 20 cm
d.
Perimeter = 6 + 3 + 6 + 3 + 4 + 4 = 22 cm
Challenge: Create a Shape with a Perimeter of 22 cm
To form a figure with a perimeter of 22 cm, you would need to carefully arrange the two pieces so that their combined boundaries add up to 22 cm. One way to do this is to overlap parts of the pieces so that fewer edges are exposed.
The amount of region enclosed by a closed figure is called its area.
Area of a Square: The area of a square is calculated by multiplying the length of one side by itself.
Area of a Rectangle: The area of a rectangle is found by multiplying the length by the width.
Example 1: Finding the Uncovered Area on a Floor
Imagine you have a rectangular room that is 5 meters long and 4 meters wide. You place a square carpet that is 3 meters on each side in the middle of the floor. How much of the floor is not covered by the carpet?
Step-by-Step Solution:
Calculate the Area of the Floor:
Calculate the Area of the Carpet:
Find the Uncovered Area:
So, 11 square meters of the floor are not covered by the carpet.
Real-Life Application: You can try this out at home! Measure the area of your room and then calculate how much space is taken up by your bed or a table. This will help you understand how much free space is left in your room.
Example 2: Estimating the Area of Irregular Shapes
Look at the two shapes in the image. Which one do you think has a larger area? It's not easy to tell just by looking, right? To estimate the area of these irregular shapes, we can use a method involving squared or graph paper. This method is helpful when the shape isn't a simple square or rectangle.Irregular shapes on graph paper
Trace the Shape:
First, trace the shape onto a piece of transparent paper. Then, place this paper on top of a sheet of graph paper. Each small square on the graph paper represents 1 square unit.
Count Full Squares:
Count all the full squares inside the shape. Each of these full squares contributes exactly 1 square unit to the area.
Handle Partial Squares:
By following these steps, you can estimate the area of almost any shape.
You might wonder why we use squares to measure area instead of other shapes like circles or triangles. Let’s explore this:
Example 1: In the image, you see a rectangle with a diagonal line . This diagonal splits the rectangle into two triangles: the blue triangle and the yellow triangle .
Solution: The Diagram:
Calculating the Area of the Rectangle ABCD
Understanding the Area of Triangle BAD
Exploring Triangle ABE
Breaking Down Triangle ABE
Example 2: Making it 'More' or 'Less'
In the images you provided, there are two figures made up of 9 unit squares. Each square has an area of 1 square unit, so both figures have an area of 9 square units.
However, these two figures have different perimeters. The first figure has a perimeter of 12 units, and the second figure has a perimeter of 20 units.
Solution:
Exploring Perimeter with 9 Unit Squares:
Adding a New Square to the Shape: If you add a new square to the shape with a perimeter of 24 units, the change in perimeter depends on where you place the new square.
92 videos|348 docs|54 tests
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1. What is the formula to calculate the perimeter of a polygon? |
2. How do you calculate the area of a rectangle? |
3. What is the formula for finding the area of a triangle? |
4. How can I find the area of irregular shapes? |
5. Why is understanding perimeter and area important in real life? |
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