Have you ever noticed how a car or a truck driver slows down their vehicle at a traffic signal? Even when riding your bicycle, you slow down by applying brakes when necessary. But have you ever wondered why a vehicle slows down when brakes are applied? In this Class 8 Science chapter on "Friction," we will explore the answers to these intriguing questions. Let's dive into the Chapter Notes and uncover the secrets of friction together.
Friction plays a crucial role in our daily lives as it is the force that opposes motion between surfaces in contact with each other.
Examples of Force of Friction:
(a) A moving wheel on the ground stops after covering a certain distance because surface of ground offers opposite direction friction to the surface of wheel in motion.
(b) After applying breaks to a moving bike, the surface of brakes offers friction to the surface of moving wheel and the bicycle stops because of force of friction.
(c) Gently push a book on a table. It stops after moving for some distance because of friction between the surfaces of book and table.
Friction is the force that opposes the motion of objects in contact with each other. It plays a significant role in our daily lives and affects the way objects move and interact. Several factors influence the amount of friction experienced between two surfaces.
Relative Speed: The speed at which two surfaces move relative to each other can impact friction. Generally, the higher the relative speed, the greater the friction. For example, when driving a car at high speed, the friction between the tires and the road increases.
Friction is an essential force that has both positive and negative effects. Let's explore some examples to understand why friction is considered a necessary evil:
Friction is the force that opposes the motion of objects in contact with each other. Sometimes we want to increase friction, while at other times we may want to reduce it. Let's explore how we can achieve both.
Reducing Friction
Remember, friction can be both beneficial and undesirable depending on the situation. Understanding how to increase or reduce friction allows us to control its effects and optimize our actions. By applying these techniques, you can effectively manage friction in various scenarios, making tasks easier, improving efficiency, and ensuring safety.
Unlike sliding or dragging, where surfaces come into direct contact and experience higher friction, wheels allow objects to roll. This rolling motion significantly reduces the frictional force between the wheel and the surface it moves on.
(1) Static Friction
Static friction acts on objects when they are resting on a surface. For example, if you are hiking in the woods, there is static friction between your shoes and the trail each time you put down your foot. Without this static friction, your feet would slip out from under you, making it difficult to walk. In fact, that’s exactly what happens if you try to walk on ice. That’s because ice is very slippery and offers very little friction.
Static Friction
(2) Sliding Friction
Sliding friction is friction that acts on objects when they are sliding over a surface. Sliding friction is weaker than static friction. That’s why it’s easier to slide a piece of furniture over the floor after you start it moving than it is to get it moving in the first place. Sliding friction can be useful.
Sliding Friction
(3) Rolling Friction
Rolling friction is friction that acts on objects when they are rolling over a surface. Rolling friction is much weaker than sliding friction or static friction. This explains why most forms of ground transportation use wheels, including bicycles, cars, 4-wheeler, roller skates, scooters, and skateboards.
Fluid friction is friction that acts on objects that are moving through a fluid. A fluid is a substance that can flow and take the shape of its container. Fluids include liquids and gases. If you’ve ever tried to push your open hand through the water in a tub or pool, then you’ve experienced fluid friction.
Objects which are made to move in fluid are made streamlined shape to reduce friction offered by fluid. The shape of aeroplane, ship, boat, birds and fish are made streamlined shape. A shape which is pointed on both ends and wide at the middle is called which facilitates easier movement through fluids. The frictional force offered by fluids is called drag.
Fluid Friction
1. What is friction?
Ans. Friction is a force that opposes the relative motion between two surfaces in contact. This force arises due to the irregularities present on the surfaces in contact. The magnitude of frictional force depends upon the nature of the surfaces in contact, the force pressing the surfaces together, and the roughness of the surfaces.
2. What are the types of friction?
Ans. The types of friction are static friction, kinetic friction, rolling friction, and fluid friction. Static friction is the force that opposes the start of motion. Kinetic friction is the force that opposes the motion of a body in contact with another body. Rolling friction is the force that opposes the rolling motion of a body over another body. Fluid friction is the force that opposes the motion of an object through a fluid medium.
3. How does friction affect the movement of objects?
Ans. Friction affects the movement of objects by opposing their motion. It acts in the direction opposite to the motion of the object. The greater the frictional force, the harder it is to move the object. However, friction also enables us to walk, drive vehicles, and use brakes to stop vehicles. Without friction, we would not be able to perform these tasks.
4. How can friction be reduced?
Ans. Friction can be reduced by using lubricants such as oil and grease on the surfaces in contact. Lubricants fill the gaps between the surfaces and reduce the roughness of the surfaces, thereby reducing friction. Smoothening the surfaces or using ball bearings can also reduce friction. Additionally, reducing the force pressing the surfaces together can reduce friction.
5. What are some real-life examples of friction?
Ans. Some real-life examples of friction are walking on the ground, driving a car, using brakes to stop a car, writing with a pen on paper, and rubbing hands together to generate heat. In all these examples, friction plays a crucial role. Without friction, it would be difficult to perform these activities.
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1. What are the main factors affecting friction? |
2. What are the different types of friction? |
3. How do wheels reduce friction? |
4. Why is friction considered a "necessary evil"? |
5. How can friction be increased or reduced in different scenarios? |
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