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Friction Notes With JEE NEET MCQS Physics Class 11 CBSE Study Material Full Chapter Download pdf-Anand Classes

Friction Notes With JEE NEET MCQS Physics Class 11 CBSE Study Material Full Chapter Download pdf-Anand Classes

Friction Notes With JEE NEET MCQS Physics Class 11 CBSE Study Material Full Chapter Download pdf-Anand Classes

What Is Friction?

Friction is defined as the resistance offered by the surfaces that are in contact when they move past each other.

Friction provides traction that is needed to walk without slipping. Friction is helpful in most cases. However, they also offer a great measure of opposition to the motion. In addition, about 20 per cent of the engine power of automobiles is consumed in overcoming frictional forces in the moving parts. In the next section, let us go through some of these factors.

Factors Affecting Friction

Friction is a force that is dependent on external factors. Following are the two factors on which friction depends:

1. On the nature of the two surfaces that are in contactFriction is dependent on the smoothness or roughness of the two surfaces that are in contact with each other. When the surface is smooth, the friction between the two reduces as there is not much interlocking of irregularities. While the surface is rough, friction increases.
2. On the force that is acting on these surfacesFriction increases when the force is applied along with the irregularities.

What Causes Friction?

Friction is caused due to the irregularities on the two surfaces in contact. So, when one object moves over the other, these irregularities on the surface get entangled, giving rise to friction. The more the roughness, the more irregularities and more significant will be the friction.

Types of Friction

There are four types of friction and they are classified as follows:

  • Static friction
  • Sliding friction
  • Rolling friction
  • Fluid friction

All four types of frictions are different from each other. For example, static friction is the friction that acts between the surfaces when they are at rest with respect to each other. In contrast, sliding friction is the resistance created between any two objects when sliding against each other.

Applications of Friction

  • Friction finds application when matchsticks are ignited.
  • Motion of pistons in a cylinder is an application of friction.
  • It is possible to write on books and board as there is friction between pen and the board.

Static Friction

Friction can be defined as the force resisting the relative motion of fluid layers, solid surfaces and material elements sliding against each other. Friction can be classified into several categories:

  • Fluid friction
  • Lubricated friction
  • Skin friction
  • Internal friction
  • Dry friction
  • Kinetic friction
  • Static friction

What is Static Friction?

Static friction is a force that keeps an object at rest. Static friction definition can be written as:

The friction experienced when individuals try to move a stationary object on a surface, without actually triggering any relative motion between the body and the surface on which it is on.

It can be explained as the force of friction which precisely balances the applied force for the duration of the stationary state of the body.

The static frictional force is self-regulating, i.e. static friction will at all times be equivalent and opposite to the force applied.

R is the reaction force because of the weight W. The external force is F, and fis the friction. F = -fr when no motion takes place.

Static Friction Examples

Some real-life examples of static friction are given in the points below.

  • Papers on a tabletop
  • A towel hanging on a rack
  • A bookmark in a book
  • A car parked on a hill

Laws of Static Friction

  • The maximum force of static friction is not dependent on the area of contact.
  • The maximum force of static friction is comparative to the normal force i.e., if the normal force increases, the maximum external force that the object can endure without moving, also increases.

Limiting Friction:

It is the highest value of static friction which comes into play when an object is just about to slide over the surface of a different object. For an exerted external force greater than the limiting friction, the body begins to move.

Once the motion has started, static friction cannot be considered. A new type of friction termed as kinetic friction comes into play.

Laws of Limiting Friction:

  • The direction of limiting frictional force is always contrary to the direction of motion.
  • Limiting friction acts tangentially to the two surfaces interacting.
  • The magnitude of limiting friction is proportional to the normal reaction between the two surfaces.
  • The limiting friction hinges upon the material, the nature of the surfaces interacting and their evenness.
  • So long as the normal reaction is the same, the magnitude of limiting friction is free of the shape or the area of the surfaces in contact for any two given surfaces.

What Are the Laws of Friction?

There are five laws of friction and they are:

  • The friction of the moving object is proportional and perpendicular to the normal force.
  • The friction experienced by the object is dependent on the nature of the surface it is in contact with.
  • Friction is independent of the area of contact as long as there is an area of contact.
  • Kinetic friction is independent of velocity.
  • The coefficient of static friction is greater than the coefficient of kinetic friction.

The laws of friction for two bodies in contact with each other are given as follows:

  • If the two bodies in contact with each other are slipping over each other, or having relative motion with respect to each other, the friction that is involved is kinetic friction and is given by Fk = μk N
  • where,
  • f= kinetic friction
  • µ= coefficient of kinetic friction
  • N = Normal reaction force
  • The direction of this kinetic friction on a body is opposite to the direction of the relative velocity of the body with respect to the other body.

Suppose body A moves over body B in the positive x-direction, then the kinetic frictional force on body A will act in the negative x-direction.

  • If the bodies do not have relative motion with respect to each other, the friction between them is static friction and is always less than or equal to the kinetic friction. It is important to remember that the value of static friction is not constant, as the case is with kinetic friction. The value of static friction depends on how much force is applied to the body. Suppose the maximum value of static friction (limiting friction) is 5 N for a body kept on a certain surface. If you apply a force of 2 N on the body, the value of static friction would be 2 N, and the body will not move. The body will start moving when the force crosses the values of 5 N.
  • The kinetic frictional force and the static frictional force do not depend on the area of contact as long as the Normal Reaction force is the same.
  • The maximum value of static friction is achieved when the body is just on the verge of motion. The friction at this point is also known as limiting friction. Limiting friction is always slightly greater than the kinetic friction and is given by:
  • fmax = µN
  • where,
  • fmax = limiting friction
  • µ= coefficient of static friction
  • N = Normal reaction force
  • The direction of this kinetic friction on a body is opposite to the direction of the relative velocity of the body with respect to the other body.

Types of Friction

Friction is the force that opposes the motion of a solid object over another. There are mainly four types of friction: static friction, sliding friction, rolling friction, and fluid friction. Friction and normal force are directly proportional to the contacting surfaces, and it doesn’t depend on the hardness of the contacting surface. With the increase in relative speeds, the sliding friction reduces, whereas fluid friction increases with the increase in the relative speed. Also, fluid friction is dependent on the fluid’s viscosity.In sliding motion, each point on the body has only translational or linear motion. But in the case of rolling motion, different points have a combination of linear and rotational motion.

If we consider only the rotational motion, then point B tends to move backwards suppose with a velocity VR. Similarly, we consider only linear motion then point B moves with a velocity VL in the forward direction. Now the resultant motion of the point B will be a superposition of both the above velocities. Depending upon the values of VR and VL the rolling friction can act in the following directions:

If VR > VL then the point B tends to move backwards so as we know, friction opposes relative motion between the surfaces in contact; hence it will act in the forward direction.

imilarly, if VR < VL then the point B tends to move forward and hence the friction acts in the backward direction.

Also, if VR = VL although the ball moves in the forward direction, the frictional force acting on the ball will be zero. This is unlike sliding friction where the friction force will definitely act if the body is moving.

Types Of Friction

Following are the friction types which depend on the types of motion:

  1. Static Friction
  2. Sliding Friction
  3. Rolling Friction
  4. Fluid Friction

Static Friction

Static friction is defined as the frictional force that acts between the surfaces when they are at rest with respect to each other.

The magnitude of the static force is equal in the opposite direction when a small amount of force is applied. When the force increases, at some point maximum static friction is reached.

Static Friction Examples

Following are the examples of static friction:

  • Skiing against the snow
  • Creating heat by rubbing both the hands together
  • Table lamp resting on the table

Coefficient Of Static Friction

The coefficient of static friction is denoted as µs. The maximum force of static friction is given as the product of the coefficient of static friction and normal force and force of static friction is less than or equal to the product of the coefficient of static friction and normal force. It is given as:

Fmax = µη and Fs ≤ µη

Where,

  • Fis the force of static friction
  • µs is the coefficient of static friction
  • η is the normal force
  • Fmax is the maximum force of static friction

Sliding Friction

What Is Sliding Friction?

Sliding friction is defined as the resistance that is created between any two objects when they are sliding against each other.

Examples Of Sliding Friction

Following are the examples of sliding friction:

  • Sliding of the block across the floor
  • Two cards sliding against each other in a deck

Coefficient Of Sliding Friction

The coefficient of sliding friction is denoted as µs. The force of sliding friction is defined as the product of the coefficient of sliding friction and the normal force. It is given as:

Fs = µs. Fn

Rolling Friction

What Is Rolling Friction?

Rolling friction is defined as the force which resists the motion of a ball or wheel and is the weakest types of friction.

Examples Of Rolling Friction

Following are the examples of rolling friction:

  • Rolling of the log on the ground
  • Wheels of the moving vehicles

Coefficient Of Rolling Friction

The coefficient of rolling friction is denoted as µr. The force of rolling friction is defined as the product of the coefficient of rolling friction and the normal force. It is given as:

Fs = µr. Fn

Fluid Friction

What Is Fluid Friction?

Fluid friction is defined as the friction that exists between the layers of the fluid when they are moving relative to each other.

Examples Of Fluid Friction

Following are the examples of fluid friction:

  • The flow of ink in pens
  • Swimming

Frequently Asked Questions – FAQs

Q1

How does friction produce heat?

When surfaces in contact move relative to each other, the friction between the two surfaces convert kinetic energy into heat.
Q2

How is friction useful?

Friction helps us in walking. For example, the friction between the shoes and the floor stops us from slipping. Similarly, the friction between the car and the road prevents the car from sliding.
Q3

Why is friction a non-conservative force?

Friction is a non-conservative force because the amount of work done by the friction depends on the path.
Q4

Will friction increase as the speed increases?

No, friction is not affected by the increase in speed.
Q5

Can friction be zero?

No, it is impossible to have zero friction because every surface will have minor irregularities no matter how lubricated.
Q6

What is static friction?

Static friction is defined as the frictional force that acts between the surfaces when they are at rest with respect to each other.
Q7

What is sliding friction?

Sliding friction is defined as the resistance that is created between any two objects when they are sliding against each other.
Q8

Define rolling friction.

Rolling friction is defined as the force which resists the motion of a ball or wheel and is the weakest type of friction.
Q4

What is fluid friction?

Fluid friction is defined as the friction that exists between the layers of the fluid when they are moving relative to each other.
Q9

Give two examples of sliding friction.

Sliding of the block across the floor and two cards sliding against each other in a deck.
Q10

What is static friction?

The friction experienced when individuals try to move a stationary object on a surface, without actually triggering any relative motion between the body and the surface is known as static friction.
Q11

What is sliding friction?

Sliding friction is defined as the resistance that is created between any two objects when they are sliding against each other.
Q12

Is frictional force a scalar or a vector?

The frictional force is a vector since it involves both magnitude and direction.
Q13

How does friction produce heat?

When surfaces in contact move relative to each other, the friction between the two surfaces converts kinetic energy into heat.
Q14

What is the formula to calculate the frictional force?

The frictional force is given by the formula: F = μsN
Where μs is the coefficient of static friction and N is the normal reaction between the two contact surfaces.

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