Learn
Games

8.14 - Extended Learning — Activities and Projects

Interactive Audio Lesson

Listen to a student-teacher conversation explaining the topic in a relatable way.

Understanding Force

Unlock Audio Lesson

Signup and Enroll to the course for listening the Audio Lesson

Teacher
Teacher

Today, we're going to explore the concept of force! Can anyone tell me what they think force is?

Student 1
Student 1

I think force is when you push or pull something.

Teacher
Teacher

Exactly! Force can be a push or a pull. We often measure it by its effects on objects. Can anyone think of an example in sports?

Student 2
Student 2

When a player kicks a ball, they are applying a force.

Student 3
Student 3

What about when a goalkeeper stops the ball?

Teacher
Teacher

Great examples! So remember, force causes a change in an object's motion, and we can say it has both magnitude and direction—meaning how strong it is and where it's going!

Student 4
Student 4

What about the idea of 'net force'? How does that work?

Teacher
Teacher

That's an important point! The net force is the total force acting on an object when all the individual forces are combined. If forces act in the same direction, you add them together. If they act in opposite directions, you subtract one from the other.

Teacher
Teacher

To remember this, think of the word 'PUSH', where P is for Positive forces adding together, and U for Unbalanced forces require subtraction! Let’s move to our next session where we apply this understanding!

Exploring Pressure

Unlock Audio Lesson

Signup and Enroll to the course for listening the Audio Lesson

Teacher
Teacher

Now, let's shift gears and talk about pressure. Can someone explain to me what pressure is?

Student 1
Student 1

Isn’t it just how hard something pushes on something else?

Teacher
Teacher

Exactly! Pressure is defined as the force applied over an area. To go deeper, if I apply the same force over a smaller area, what do you think happens to the pressure?

Student 2
Student 2

I guess the pressure would go up because the force is concentrated!

Teacher
Teacher

Correct! That's why sharp tools like knives are easier to use than blunt ones—they exert more pressure. Keep that in mind as we conduct an activity on pressure in liquids next. What will we observe?

Student 3
Student 3

The depth of liquid and how it exerts force!

Teacher
Teacher

That's right! And remember, pressure in liquids can help us understand why things float or sink. To keep it memorable, think of 'Depth Equals Pressure!' Let’s explore that further!

Hands-On Experimentation

Unlock Audio Lesson

Signup and Enroll to the course for listening the Audio Lesson

Teacher
Teacher

Today, we will do hands-on experiments to demonstrate our knowledge of forces and pressure. Why do you think hands-on learning is important?

Student 4
Student 4

Because it helps us see the concepts in action and not just read about them!

Teacher
Teacher

Exactly! And today, one of our activities will involve looking at how force changes when we place an object on soft sand compared to a hard surface. Ready to get started?

Student 1
Student 1

Yes! I can’t wait to see how deep the stool sinks in sand versus on the floor.

Teacher
Teacher

This will illustrate how more weight can cause more pressure on softer surfaces, and you’ll get to collect data, making this hands-on experience even more meaningful.

Student 2
Student 2

And we can apply this knowledge to real-life situations, like why some people use boards to avoid sinking in the sand!

Teacher
Teacher

Exactly! Can anyone summarize what we learned today about forces and pressure? Remember our key phrase: 'More weight, more pressure, deeper sink!'

Introduction & Overview

Read a summary of the section's main ideas. Choose from Basic, Medium, or Detailed.

Quick Overview

This section explores activities and projects that allow students to apply their understanding of forces and pressure in practical scenarios.

Standard

In this section, students engage in various hands-on activities and projects to deepen their understanding of the principles of force and pressure. By conducting experiments and observations, they can connect theoretical knowledge with real-world applications, solidifying their grasp of the concepts.

Detailed

Youtube Videos

Force and Pressure Class 8
Force and Pressure Class 8
Amazing Science Activity😱😱🤔Of Atmospheric Pressure Class 8 chapter 11 Force and Pressure Activity
Amazing Science Activity😱😱🤔Of Atmospheric Pressure Class 8 chapter 11 Force and Pressure Activity
Class 8, Science activity - 4 , lesson no. 3 Force and Pressure.
Class 8, Science activity - 4 , lesson no. 3 Force and Pressure.
Atmospheric pressure -- Science Experiment by plufo.com
Atmospheric pressure -- Science Experiment by plufo.com
3 Atmospheric Pressure Activities You Can Try At Home | Force and Pressure | Class 8
3 Atmospheric Pressure Activities You Can Try At Home | Force and Pressure | Class 8
Force and Pressure
Force and Pressure
Science Activity Electrostatic Force #departmentofschooleducatiopunjab #science #scienceactivities
Science Activity Electrostatic Force #departmentofschooleducatiopunjab #science #scienceactivities
Force and Pressure Class 8 Science - Pressure
Force and Pressure Class 8 Science - Pressure
Which Bottle Would Empty First 🤔 Pressure vs Depth | Science Experiments for Kids#shorts #experiment
Which Bottle Would Empty First 🤔 Pressure vs Depth | Science Experiments for Kids#shorts #experiment
Physics Project - 22 || Force & Pressure || Nandini B - Class 8
Physics Project - 22 || Force & Pressure || Nandini B - Class 8

Audio Book

Dive deep into the subject with an immersive audiobook experience.

Activity 1: Bed of Sand Experiment

Unlock Audio Book

Signup and Enroll to the course for listening the Audio Book

Make a 50 cm × 50 cm bed of dry sand about 10 cm in thickness. Make sure that its top surface is levelled. Take a wooden or a plastic stool. Cut two strips of graph paper each with a width of 1 cm. Paste them vertically on any leg of the stool - one at the bottom and the other from the top. Now gently put the stool on the sand bed with its legs resting on the sand. Increase the size of sand bed if required. Now put a load, say a school bag full of books, on the seat of the stool. Mark the level of sand on the graph strip. This would give you the depth, if any, to which the legs of stool sink in sand. Next, turn the stool upside down so that now it rests on its seat on the sand bed. Note the depth to which the stool sinks now. Next, put the same load on the stool and note the depth to which it sinks in the sand. Compare the pressure exerted by the stool in the two situations.

Detailed Explanation

This activity involves creating a sand bed to examine how pressure is exerted by an object. First, you create a level area of sand and then mark the depth to which a stool sinks under different positions. When the stool is upright, the weight of the load exerts pressure downwards, causing it to sink into the sand. When flipped, the pressure exerted is distributed differently as the entire base of the stool is in contact with the sand, demonstrating how area matters in pressure calculations.

Examples & Analogies

Think of a person standing on a beach. If they sit down, their weight spreads over a larger area and they might sink less than when they are standing on their feet. This is similar to the stool experiment. The wider the base (like sitting), the lesser the pressure exerted on the sand.

Activity 2: Upside Down Water Experiment

Unlock Audio Book

Signup and Enroll to the course for listening the Audio Book

Take a tumbler and fill it with water. Cover the mouth of the tumbler with a thick card similar to that of a postcard. Hold the tumbler with one hand while keeping the card pressed to its mouth with your other hand. Turn the tumbler upside down while keeping the card pressed to its mouth. Make sure that the tumbler is held vertical. Gently remove the hand pressing the card. What do you observe? Does the card get detached allowing the water to spill? With a little practice you will find that the card continues to hold water in the tumbler even after it is not supported by your hand. Also try this activity by using a piece of cloth to hold the tumbler in an upside down position.

Detailed Explanation

This activity illustrates the concept of atmospheric pressure and forces acting on liquid. When you fill a tumbler with water and cover it with a card, you’re trapping air between the card and the water. When you turn it upside down, the atmospheric pressure pushes up against the card with a greater force than the water tries to pull down under gravity, therefore the card stays in place and the water does not spill out.

Examples & Analogies

Consider how a magician might perform a trick where he holds a cup of water upside down without spilling it. This is due to atmospheric pressure. It’s like sticking a heavy book against the ground with an air suction device; the pressure from the air can hold the book in place even against gravity.

Activity 3: Water Level in Bottles Experiment

Unlock Audio Book

Signup and Enroll to the course for listening the Audio Book

Take 4-5 plastic bottles of different shapes and sizes. Join them together with small pieces of glass or rubber tube as shown in the provided illustration. Keep this arrangement on a level surface. Now pour water in any one of the bottles. Note whether the bottle in which water is poured gets filled first or all the bottles get filled up simultaneously. Note the level of water in all the bottles from time to time. Try to explain your observations.

Detailed Explanation

This activity teaches about the principles of hydraulic systems. When water is poured into one of the bottles, all connected bottles will fill up to the same level simultaneously due to the balance of pressure. Water moves through the connected tubes because it seeks to equalize the levels on each side due to gravity acting on it. This demonstrates that liquids exert pressure evenly across connected systems.

Examples & Analogies

Think of this like when you drink from a straw; if you suck on one end, the liquid rises all the way to your mouth since you're creating a pressure difference that pulls the liquid up through the straw. Every drop is connected by the pressure acting uniformly throughout the liquid.

Definitions & Key Concepts

Learn essential terms and foundational ideas that form the basis of the topic.

Key Concepts

  • Understanding of Force and Pressure: Students experiment with how forces can change the state of motion or shape of objects and discover how pressure works with liquids and gases.

  • Practical Experiments: Activities involve creating setups to observe the effects of weight distribution on pressure and using simple materials to demonstrate principles like atmospheric pressure.

  • Hands-on Learning: With activities like observing the sinking of objects in sand or conducting a water pressure experiment using bottles, students directly engage with scientific principles, enhancing retention and comprehension.

  • Significance:

  • These activities not only reinforce the theoretical content learned in the chapter but also promote critical thinking, problem-solving, and the application of scientific reasoning, preparing students for more advanced scientific concepts.

Examples & Real-Life Applications

See how the concepts apply in real-world scenarios to understand their practical implications.

Examples

  • When you step on a beach ball, it flattens because the force is exerted over a small area.

  • Using a needle to pierce fabric is easier due to the higher pressure at the point of the needle compared to the flat side.

Memory Aids

Use mnemonics, acronyms, or visual cues to help remember key information more easily.

🎵 Rhymes Time

  • Pressure is force that spreads wide, when in a tight spot, it’ll hide.

📖 Fascinating Stories

  • Imagine pushing a book on a table; the harder you push, the more it moves. But if you only touch lightly, it stays still—pressure makes things go!

🧠 Other Memory Gems

  • FAP = Force / Area for Pressure.

🎯 Super Acronyms

FAM = Force Affects Movement.

Flash Cards

Review key concepts with flashcards.

Glossary of Terms

Review the Definitions for terms.

  • Term: Force

    Definition:

    A push or pull on an object that can cause it to move, stop moving, or change direction.

  • Term: Pressure

    Definition:

    The amount of force exerted on a unit area.

  • Term: Net Force

    Definition:

    The total force acting on an object when all the individual forces are combined.

  • Term: Atmospheric Pressure

    Definition:

    The pressure exerted by the weight of the atmosphere above a surface.

  • Term: Hydraulic Pressure

    Definition:

    Pressure that is exerted by a fluid in motion.