Read The Directions For Making A Toy Parachute:1. Cut Thick String Or Twine Into Four Pieces That Are 9 Inches Long.2. Cut A 12x5-inch Rectangle Out Of A Plastic Garbage Bag.3. Using A Hole Punch, Poke A Hole Into Each Corner Of The Rectangle.4. Slide

Introduction

Engineering is all about creativity, problem-solving, and innovation. It's a field that encourages kids to think outside the box and come up with unique solutions to real-world problems. One fun and easy engineering project that kids can try is making a toy parachute. In this article, we'll guide you through the step-by-step process of making a toy parachute, and explore the engineering concepts behind it.

What is a Parachute?

A parachute is a device that slows down the descent of an object through the air by creating drag. It's a crucial component in many applications, including space exploration, military operations, and even skydiving. But did you know that you can make a simple parachute using everyday materials? In this project, we'll use a plastic garbage bag, string, and a few other materials to create a toy parachute that can slow down the descent of a small object.

Materials Needed

Before we begin, let's take a look at the materials we'll need for this project:

• Thick string or twine (4 pieces, 9 inches long)
• Plastic garbage bag (12x5 inches)
• Hole punch
• Scissors
• Glue or tape
• A small object to test the parachute (e.g. a toy car, a marble, or a small ball)

Step 1: Cutting the String

The first step in making a toy parachute is to cut four pieces of thick string or twine, each 9 inches long. This will be the suspension lines of our parachute, which will help to slow down the descent of the object.

Step 2: Cutting the Garbage Bag

Next, we need to cut a 12x5-inch rectangle out of a plastic garbage bag. This will be the canopy of our parachute, which will create the drag that slows down the object's descent.

Step 3: Punching Holes

Using a hole punch, poke a hole into each corner of the rectangle. This will help to attach the suspension lines to the canopy.

Step 4: Attaching the Suspension Lines

Slide one end of each suspension line through the corresponding hole in the canopy. Then, tie a knot to secure the line in place. Repeat this process for all four suspension lines.

Step 5: Testing the Parachute

Finally, it's time to test our toy parachute! Tie the object to the center of the canopy using a piece of string or twine. Then, gently drop the parachute from a height of about 6-8 feet. Observe how the parachute slows down the object's descent.

Engineering Concepts Behind the Parachute

So, what makes a parachute work? The answer lies in the principles of aerodynamics and drag. When an object falls through the air, it creates a region of low air pressure above it and a region of high air pressure below it. This pressure difference creates an upward force called lift, which opposes the weight of the object and slows down its descent.

In the case of a parachute, the canopy creates a large surface area that interacts with the air, creating a significant amount of drag. The suspension lines then transfer this drag force to the object, slowing down its descent. By adjusting the size and shape of the canopy, we can control the amount of drag created and optimize the performance of the parachute.

Tips and Variations

If you want to make your toy parachute even more efficient, try the following tips and variations:

• Use a larger or smaller canopy to adjust the amount of drag created.
• Experiment with different shapes and sizes of the canopy to see how it affects the parachute's performance.
• Add a stabilizer to the parachute to help it maintain its orientation and stability.
• Try using different materials for the canopy and suspension lines to see how they affect the parachute's performance.

Conclusion

Q: What is the purpose of a parachute?

A: A parachute is a device that slows down the descent of an object through the air by creating drag. It's used in various applications, including space exploration, military operations, and even skydiving.

Q: What materials do I need to make a toy parachute?

A: You'll need the following materials:

• Thick string or twine (4 pieces, 9 inches long)
• Plastic garbage bag (12x5 inches)
• Hole punch
• Scissors
• Glue or tape
• A small object to test the parachute (e.g. a toy car, a marble, or a small ball)

Q: How do I attach the suspension lines to the canopy?

A: To attach the suspension lines to the canopy, slide one end of each line through the corresponding hole in the canopy. Then, tie a knot to secure the line in place. Repeat this process for all four suspension lines.

Q: Why do I need to punch holes in the canopy?

A: Punching holes in the canopy allows you to attach the suspension lines to the canopy. This is necessary to create the drag that slows down the object's descent.

Q: How do I test the parachute?

A: To test the parachute, tie the object to the center of the canopy using a piece of string or twine. Then, gently drop the parachute from a height of about 6-8 feet. Observe how the parachute slows down the object's descent.

Q: What are some tips for making a more efficient parachute?

A: Here are some tips for making a more efficient parachute:

• Use a larger or smaller canopy to adjust the amount of drag created.
• Experiment with different shapes and sizes of the canopy to see how it affects the parachute's performance.
• Add a stabilizer to the parachute to help it maintain its orientation and stability.
• Try using different materials for the canopy and suspension lines to see how they affect the parachute's performance.

Q: Can I use a different shape for the canopy?

A: Yes, you can experiment with different shapes for the canopy to see how it affects the parachute's performance. Some common shapes include:

• A square or rectangular shape
• A triangular shape
• A circular shape
• A hexagonal shape

Q: How do I make a more stable parachute?

A: To make a more stable parachute, you can add a stabilizer to the parachute. A stabilizer is a small device that helps the parachute maintain its orientation and stability. You can also experiment with different shapes and sizes of the canopy to see how it affects the parachute's stability.

Q: Can I use a different material for the canopy?

A: Yes, you can experiment with different materials for the canopy to see how they affect the parachute's performance. Some common materials include:

• Plastic
• Fabric
• Paper
• Cardboard

Q: How do I make a parachute that can carry a heavier object?

A: To make a parachute that can carry a heavier object, you'll need to use a larger canopy and stronger suspension lines. You can also experiment with different shapes and sizes of the canopy to see how it affects the parachute's performance.

Q: Can I make a parachute that can fly horizontally?

A: Yes, you can make a parachute that can fly horizontally by adding a small wing or stabilizer to the parachute. This will help the parachute maintain its orientation and stability, allowing it to fly horizontally.

Q: How do I make a parachute that can fly in windy conditions?

A: To make a parachute that can fly in windy conditions, you'll need to use a stronger canopy and suspension lines. You can also experiment with different shapes and sizes of the canopy to see how it affects the parachute's performance in windy conditions.