Find the Minimum Velocity Needed for Ball to Go Up Step - Hint Included!

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Homework Help Overview

The original poster is inquiring about the minimum velocity required for a ball to ascend a step without slipping. The context involves concepts of mechanics, particularly focusing on motion and energy conservation principles.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Some participants suggest analyzing momentum and torque equilibrium at the contact point between the ball and the step. Others propose using energy conservation principles to estimate the minimum velocity needed.

Discussion Status

Participants are exploring different approaches to the problem, including the conservation of angular momentum and mechanical energy. There is a recognition of the no-slip condition affecting the motion of the ball, and various interpretations of the problem are being discussed.

Contextual Notes

There are indications that the original poster may not have provided sufficient clarity in their explanation, and the visual aid shared has been described as unclear. The discussion is also influenced by the specific conditions of the problem, such as the no-slip requirement at the corner of the step.

Feynmanfan
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What is the minimum velocity the ball should have in order to go up the step, considering it doesn't slip. Here's a picture.

I would be grateful if you could give me a hint.
 

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is it that i didn't explain the problem correctly?

Please help me!
 
Your picture is very diffuse. Anyway, If I were you, I will take the momentum (torque) equilibrium at the point of contact between the ball and step. At that point

[tex]\sum F_i r_i >0[/tex] in order to enhance the turning of the ball around the wedge.

Also, you should try with energy conservation (kinetic--->potential) if you want a gross estimation.
 
You need to break this up a bit:
You have been told that the ball will NOT slip at the corner; evidently this must mean that the velocity of the contact point of the ball is ZERO, throughout the motion (after contact is has been made)

A) The collision phase:
The angular momentum of the ball with respect to the corner must be conserved throughout the collision (why is that).
This gives you the resultant angular velocity just after the collision, in terms of the initially given parameters.
B) Post-collision phase:
Only gravity does work on the system here, due to the no-slip condition.
Hence, mechanical energy is conserved.

Good luck&good constitution day to all Spaniards!..:smile:
 

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