Friction force direction question

In summary, the direction of the frictional force is directed upward on the slope. The resultant of the normal force and gravity has to be equal to the vertical acceleration times mass.
  • #1
SidewaysA
4
0

Homework Statement



Block A slides on a frictionless ramp, as shown (in the attachment). At the instant, the block is moving up the ramp with speed V. Block B rests on top of A, and does not slip, due to friction between A and B. What is the direction of the friction force acting on B?


Homework Equations



F=ma


The Attempt at a Solution



In order for the block B to move it has to have a net force on it, so I assume that the only way for this to happen is if the frictional force is directed up the ramp?
 

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  • #2
SidewaysA said:
In order for the block B to move it has to have a net force on it, so I assume that the only way for this to happen is if the frictional force is directed up the ramp?

The force of friction acts along the plane of contact between the blocks. This plane is horizontal, so the force of friction has to be horizontal, but it can be directed to the right or to the left. Which one?
There is also a vertical force that rises block B. Where does it come from?

ehild
 
  • #3
In order to move to the left, it'd have to have a force of friction to the direction of the left. However, wouldn't that imply that it'd accelerate instead of going at constant speed? I assumed that in order for block B to not fall off, it'd have to have the same speed/acceleration. In this case, is the normal force on B not equal to the force of gravity on B?
 
  • #4
SidewaysA said:
In order to move to the left, it'd have to have a force of friction to the direction of the left. However, wouldn't that imply that it'd accelerate instead of going at constant speed? I assumed that in order for block B to not fall off, it'd have to have the same speed/acceleration. In this case, is the normal force on B not equal to the force of gravity on B?

You do not need force for moving with constant velocity. The blocks move with some acceleration, and the force is needed to accelerate them. The blocks move upward on the slope, but what is the direction of acceleration?
Block B has both horizontal and vertical components of acceleration. The resultant of the normal force and gravity has to be equal to its vertical acceleration times mass.
But friction is only involved in the horizontal component of acceleration: is the direction to the right or to the left?

ehild
 
  • #5
The direction of the frictional force would have to be towards the left.
 
  • #6
That would mean acceleration upward along the slope. What is the acceleration of an object along a slope if you give an initial upward push to it? Imagine a ball kicked so as it stays on the ground. It will move upward, but will it move with increasing speed?

ehild
 
  • #7
So the speed is to the left, but the acceleration is to the right in this case?
 
  • #8
Is there any clue in the question to suggest the masses are being acted on only by gravity?
 
  • #9
SidewaysA said:
So the speed is to the left, but the acceleration is to the right in this case?

Yes, it is.

ehild
 

Related to Friction force direction question

1. What is friction force and how does it work?

Friction force is the resistance force that occurs when two surfaces come into contact and slide against each other. It is caused by the microscopic irregularities of the surfaces and the interlocking of their rough surfaces. Friction force acts in the opposite direction of motion and is influenced by the type of surfaces and the normal force between them.

2. How do you determine the direction of friction force?

The direction of friction force can be determined by considering the direction of motion or the applied force. Friction force always acts in the opposite direction of motion or the applied force. For example, if an object is sliding to the right, the direction of friction force would be to the left.

3. Does the direction of friction force change?

Yes, the direction of friction force can change depending on the direction of motion or the applied force. For example, if the direction of motion or applied force changes, the direction of friction force would also change accordingly.

4. How is the direction of friction force related to the coefficient of friction?

The coefficient of friction is a measure of the frictional force between two surfaces. It is directly related to the direction of friction force. A higher coefficient of friction means a stronger friction force, and the direction of the friction force would be in the opposite direction of motion or applied force.

5. What are some real-life examples of friction force and its direction?

Some real-life examples of friction force and its direction include walking on the ground, where the friction force acts in the opposite direction of motion, and pushing a heavy box on the floor, where the friction force acts in the opposite direction of the applied force. Other examples include the brakes of a car, where the friction force slows down the car's motion, and a pencil writing on paper, where the friction force creates resistance between the pencil and paper.

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