Finding the Angle of Release for a Pellet on Top of a Cylinder

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Homework Help Overview

The problem involves determining the angle at which a pellet loses contact with the surface of a cylinder. The context includes concepts of centripetal acceleration and forces acting on the pellet as it moves along the cylinder's surface.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • Participants discuss the relationship between normal and tangential acceleration, the conditions under which the normal force becomes zero, and the role of centripetal acceleration in the context of the problem.

Discussion Status

There is ongoing exploration of the forces acting on the pellet, with some participants suggesting that drawing a free body diagram (FBD) could clarify the situation. Multiple interpretations of how to approach the problem are being considered, particularly regarding the relationship between acceleration and the angle of release.

Contextual Notes

Participants are working within the constraints of the problem, focusing on the dynamics of the pellet and the forces involved without providing definitive solutions or methods.

Bling
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I need a little help with this problem.

There is a small 0.2kg pellet sitting on the top of a cylinder of radius 0.8m.

What is the value of the angle at which the pellet loses contact with the surface of the cylinder?

I just need a little help on how to get started with this one. I was thinking about finding the point where the normal and tangential acceleration of the pellet were equal, but wasn't sure if this was the right path.

Any other additional help would be greatly accepted.
 
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Originally posted by Bling
I just need a little help on how to get started with this one. I was thinking about finding the point where the normal and tangential acceleration of the pellet were equal, but wasn't sure if this was the right path.
First, realize that the pellet is centripetally accelerated when it follows the cylinder. Then consider that the pellet leaves the cylinder when the normal force equals zero.
 
I know the value of the normal acceleration is V^2/R, but how is this used to find the angle?
 
Also, I know how to find the velocity of the pellet at a given angle. Does this lead to the answer?
 
You know what the forces are:
The normal force and gravity. If you draw an FBD, you can determine the magnitude of the maximal centipetal acceleration due to gravity as a function of the angle of the pellet on the cylinder, and thus the height.

Clearly the pellet leaves when the two are equal.
 

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