Confusion regarding direction of kinetic friction on inclined plane.

In summary, the formula for kinetic friction acting on a sliding body is μkN, regardless of the direction of the sliding on an inclined plane. The direction of the friction force is always opposite to the direction of relative motion. The coefficient of dynamic friction determines the magnitude of this force, while the coefficient of static friction sets a maximum limit for the opposing force. In order to determine the direction of kinetic friction, one must know the direction of the sliding motion on the surface.
  • #1
AakashPandita
157
0
please help!

The formula for kinetic friction acting on a sliding body is

μkN

When the body is sliding with constant velocity down an inclined plane

fkkN

When the body is sliding up the inclined plane(say due to a force acting parallel to the inclined plane) with constant velocity

even then

fkkN

The direction of kinetic friction is opposite in the 2 cases

while the formula for fk is exactly the same.

If friction is a vector shouldn't the formula for kinetic friction account for its direction too?
 
Last edited:
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  • #2
For an object that is moving over a surface, the direction of the frictional force is opposite to the direction of relative motion. The coefficient of dynamic friction dictates the magnitude of this frictional force.

For an object that is stationary on a surface, the frictional force will act to oppose any other forces on the object so as to preserve its state of rest relative to the surface. The coefficient of static friction imposes a maximum magnitude on this frictional force.

If the surface is accelerating, a term accounting for that acceleration may need to be added in the static case.
 
  • #3
i edited my post a little. could you elaborate please? i am not able to understand how it answers my question.
 
  • #4
AakashPandita said:
If friction is a vector shouldn't the formula for kinetic friction account for its direction too?
The formula just tells you the magnitude of the friction force. You also have to know that the kinetic friction opposes the sliding between surfaces.
 
  • #5
Okay..

So that means we would always have to know the direction of the body sliding against a surface to tell the direction of kinetic friction acting on it?
 
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  • #6
AakashPandita said:
Okay..

So that means we would always have to know the direction of the body sliding against a surface to tell the direction of kinetic friction acting on it?

Yes.
 
  • #7
thank you!
 

Related to Confusion regarding direction of kinetic friction on inclined plane.

1. What is the direction of kinetic friction on an inclined plane?

The direction of kinetic friction on an inclined plane is parallel to the surface of the plane, in the opposite direction of the motion of the object.

2. Does the direction of kinetic friction change on different parts of the inclined plane?

Yes, the direction of kinetic friction may change on different parts of the inclined plane depending on the angle of inclination and the motion of the object.

3. How does the angle of inclination affect the direction of kinetic friction?

The angle of inclination affects the direction of kinetic friction by changing the normal force and the weight of the object, which in turn affects the magnitude and direction of the frictional force.

4. Can the direction of kinetic friction be opposite to the direction of the motion of the object on an inclined plane?

Yes, the direction of kinetic friction can be opposite to the direction of the motion of the object on an inclined plane if the angle of inclination is steep enough and the object is moving downwards along the incline.

5. How can I determine the direction of kinetic friction on an inclined plane?

The direction of kinetic friction can be determined by considering the angle of inclination, the motion of the object, and the forces acting on the object, such as the weight and normal force. You can also use the right-hand rule to determine the direction of frictional force, with your thumb pointing in the direction of motion and your fingers pointing in the direction of the normal force.

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