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in Laws of Motion by (49.6k points)
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Define the coefficients of static and kinetic friction. How will you find out their value?

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1. Static Frictional Force : Static friction is the friction that exists between a stationary object and the surface on which it resting. Static friction keeps an object at rest. It must is overcome to start moving the object.

Imagine trying to push an object across the floor. You push on it with a small force, but it does not move, this is because it is not accelerating. However, according to Newton’s second law, the object must move with an acceleration.
a = \(\frac{F}{m}\)
Now, as the body remains at rest, it implies that an opposing force equal to the applied force must have come into play resulting in zero net force on the object. This force is called static friction. It is denoted by Fs.

Thus, static friction is the opposing force that comes into play when one body tends to move over the surface of another, but the actual motion has not started.

  • The static friction depends upon the nature of surfaces of the two bodies in contact.
  • The static friction does not exist by itself. When there is no applied force, there is no static friction. It comes into play only when the applied force tends to move the body.
  • he static friction is a self-adjusting force.

Limiting Friction : If the applied force is increased, the force of static friction also increases. If the applied force exceeds a certain (maximum) value, the body starts moving. This maximum value of static friction up to which the body does not move, is called limiting friction.

1. The magnitude of limiting- friction between any two bodies in contact is directly proportional to the normal reaction between them.
(fs)max ∝ N
(fsmax ∝ μs N ………….. (1)
Where the constant of proportionality p s is called the coefficient of static friction. Its value depends upon the nature of surfaces of the two bodies in contact that means whether dry or wet; rough or smooth; polished or non polished. For example, when two polished metal surfaces are in contact, ps = 0.2, when these surface are lubricated,

μs = 0.1
The value of μs lies between 0 and 1 or 0 < μs < 1
∵ N = Mg
(Fs)max = μs mg ……………… (2)

2. Direction of the force of limiting friction is always opposite to the direction in which one body is at the verge of moving over the other.

3. Coefficient of Static Friction :
μs is called coefficient of static friction and is defined as the ratio of force of limiting friction and normal reaction
From(1), μs = \(\frac{\left(f_{s}\right)_{\max }}{N}\)
Dimension: [M0L0T0]
Unit: It has no unit.
Value of μs does not depend upon apparent area of contact.

2. Kinetic Friction : We know that when the applied force on a body is small, it may not move but as the applied force becomes greater than the force of limiting friction, the body is set into motion. The force of friction acting between the two surfaces in contact which are moving relatively, so as to oppose their motion, is known as kinetic frictional force.
1. Kinetic friction is directly proportional to the normal reaction i. e.,
fk ∝ N

or fk ∝ μkN ………….. (1)
Where μk, is called the coefficient of kinetic friction.
∵ N – mg
∴ fk = μkmg …………… (2)
2. Value of μk depends upon the nature of surface in contact.
3. Kinetic friction is always lesser than the limiting friction
fk < (fs)max
∴ μk < μs

i. e., Coefficient of kinetic friction is always less than coefficient of static friction. Thus we require more force to start a motion than to maintain it against friction. This is because once the motion starts actually; inertia of rest has been over come. Also when motion has actually started, irregularities of one surface have little time to get locked again into the irregularities of the other surface.
4. Kinetic friction does not depend upon the velocity of the body.

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