Static friction for a ball rolling without slipping

In summary, when a bowling ball rolls up a ramp, the friction force must be directed uphill because the ball is treated as a uniform solid sphere and the friction is static, meaning it can act in either direction. This is due to the relationship between the linear and angular velocity, where if the linear velocity is decreasing, the rotational velocity also decreases. Therefore, the friction force must act uphill to slow the ball down.
  • #1
Lola Luck
26
1

Homework Statement



A bowling ball rolls without slipping up a ramp that slopes upward at an angle β to the horizontal. Treat the ball as a uniform solid sphere, ignoring the finger holes. Explain why the friction force must be directed uphill.

Homework Equations



F=ma, torque=I(alpha), a=r(alpha) (I don't think I need any of these for this question)

The Attempt at a Solution



I thought that because the instantaneous velocity for the contact point is in the downhill direction, the friction force must act uphill. However there's an example in my textbook in which the ball rolls downhill and the force of static friction is still uphill. Apparently, the force of friction acts uphill wether the ball is rolling uphill or downhill.
 
Physics news on Phys.org
  • #2
Lola Luck said:
I thought that because the instantaneous velocity for the contact point is in the downhill direction, the friction force must act uphill.
This would be correct if the friction was kinetic friction. But, if the ball rolls, then the contact point does not slide (the instantaneous velocity of the contact point is zero!) and so the friction is static, which means it is free to act in either direction.
 
  • #3
Ok, so how do I know it's uphill in this case? I think it's because gravity acts downhill and the force of static friction has to oppose gravity.
 
  • #4
Lola Luck said:
I think it's because gravity acts downhill and the force of static friction has to oppose gravity.
It can act in either direction that it needs to. The key is that the ball is rolling the whole time. What does it mean for the ball to be rolling?
 
  • #5
That it's accelerating? I'm not sure what you mean.
 
  • #6
Rolling means there is a special relationship between the angular velocity and the linear velocity.
Look at your "relevant equation"
Lola Luck said:
a=r(alpha)
or equivalently, [itex]v=r\omega[/itex] where v is the linear velocity and ω is the angular velocity.
 
  • #7
If the linear velocity is decreasing (it should be due to gravity), the rotational velocity also decreases. So static friction needs to act uphill to slow the ball down?
 
  • #8
Lola Luck said:
If the linear velocity is decreasing (it should be due to gravity), the rotational velocity also decreases. So static friction needs to act uphill to slow the ball down?
Exactly :)
If the linear velocity is decreasing, then the torque (from friction) must slow the ball's rotation.
 
  • #9
This topic makes so much more sense now. Thank you for your help! :)
 
  • Like
Likes Nathanael
  • #10
To clarify one point:
Lola Luck said:
the instantaneous velocity for the contact point is in the downhill direction
In rolling contact with a stationary surface, the point of contact of the wheel/ball is instantaneously stationary.
 

Related to Static friction for a ball rolling without slipping

1. What is static friction for a ball rolling without slipping?

Static friction is a force that acts between the surface of a rolling ball and the surface it is rolling on. It prevents the ball from slipping and allows it to roll smoothly without losing traction.

2. Why is static friction important for a ball rolling without slipping?

Static friction is important because it allows the ball to maintain its rolling motion without slipping or sliding. Without static friction, the ball would not be able to grip the surface and would not be able to roll smoothly.

3. How is static friction different from kinetic friction in a rolling ball?

Static friction is the force that keeps the ball from slipping, while kinetic friction is the force that acts on the ball when it is already in motion. In a rolling ball without slipping, static friction is greater than kinetic friction.

4. What factors affect the amount of static friction in a rolling ball?

The amount of static friction in a rolling ball is affected by the weight of the ball, the type of surface it is rolling on, and the force applied to the ball. A heavier ball, rougher surface, and greater force will result in a greater amount of static friction.

5. How can static friction be reduced in a rolling ball?

Static friction can be reduced by using a smoother surface, reducing the weight of the ball, or decreasing the force applied to the ball. However, reducing static friction too much can also cause the ball to slip and lose its rolling motion.

Similar threads

Question regarding Rolling with and without Slipping and Sliding
    • Introductory Physics Homework Help
Replies
4
Views
1K
Friction Required for Billiard Ball to Roll without Slipping
    • Introductory Physics Homework Help
2
Replies
60
Views
315
Direction of friction on rolling object
    • Introductory Physics Homework Help
Replies
30
Views
2K
Wooden sphere rolling on a double metal track
    • Introductory Physics Homework Help
3
Replies
97
Views
3K
Horizontal impulse on a ball at rest on a plane (with friction)
    • Introductory Physics Homework Help
Replies
14
Views
1K
How can we model a rolling truck on an incline using rotational motion analysis?
    • Introductory Physics Homework Help
Replies
24
Views
1K
A ball climbing a ramp while "rolling the wrong way"
    • Introductory Physics Homework Help
Replies
32
Views
2K
Acceleration of system related to rolling motion and pulley
    • Introductory Physics Homework Help
2
Replies
35
Views
2K
I Friction in rolling without slipping
    • Mechanics
Replies
7
Views
2K
Cylinder Rolling Down an Incline Without Slipping
    • Introductory Physics Homework Help
Replies
7
Views
2K

Hot Threads

Recent Insights

Back
Top