Solving Conical Pendulum Problem: Results & Tips

AI Thread Summary
The discussion focuses on solving the conical pendulum problem using a differential approach. The initial attempt involved analyzing a small segment of the rod and applying forces, but it led to an incorrect equation for the angle. A suggestion was made to draw a free body diagram to visualize the forces of gravity, tension, and centripetal force. The main issue identified was the assumption that the net force acts radially along the rod, which may not hold true. The problem remains unresolved, indicating the complexity of the conical pendulum dynamics.
pardesi
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i was solving thsi problem
and attempted it in this manner
consider a length dx of the rod at a distance x from the pivot now
let \theta be the required angle
dx\cos\theta = dm g
dx\sin\theta = m\omega^{2}x\sin\theta
dividing we get \tan\theta = \frac {\omega^{2}x\sin\theta}{g} which is obviously false
 
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Try drawing a free body diagram, with the three forces of gravity, tension and centripetus.
 
well what's wrong with my approach
 
the dx should be replaced by dT(x) the differential tension.but obviously still the problem is unsolved
 
pardesi, I think the problem with this approach is that it assumes that the net force acting on any part of the rod acts radially along the rod. This is not necessarily true.
 

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