Swing Higher on Circus Trapeze: Solve Physics Problem

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The discussion focuses on a physics problem involving a circus trapeze, where a performer swings in a vertical arc. The key points include the need to calculate the force exerted by the performer at different angles and to determine the initial angle for which the force at the bottom of the swing is double the performer's weight. Participants note that understanding centripetal force and conservation of energy is crucial for solving the problem. One contributor suggests that the angle theta is between two other angles and hints that the problem may be too advanced for beginners. Overall, the thread emphasizes the importance of grasping fundamental physics concepts to tackle the trapeze scenario effectively.
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Any help with the following question would be appreciated. Please keep in mind that I'm not very good with physics.

"A circus trapeze consists of a bar suspended by two parallel ropes, each of length l, allowing performers to swing in a vertical circular arc. Suppose a performer with a mass m holds the bar and steps off an elevated platform, starting from rest with the ropes at an angle theta_i with respect to the vertical. Suppose the size of the performer's body is small compared to the length l, she does not pump the trapeze to swing higher, and air resistance is negigable.
A) Show that when the ropes make an angle theta with the vertical, the preformer must exert a force: mg(3 cos theta - 2 cos theta_1), so as to hang on.
B) Determine the angle theta_i for which the force needed to hang on at the bottom of the swing is twice the preformer's weight."

*I tried to attach a picture. Its not very good though, because I had to draw it*

I don't know how to approach the question but, my first question would be where is angle theta_i ?
 
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mirandasatterley said:
Any help with the following question would be appreciated. Please keep in mind that I'm not very good with physics.

"A circus trapeze consists of a bar suspended by two parallel ropes, each of length l, allowing performers to swing in a vertical circular arc. Suppose a performer with a mass m holds the bar and steps off an elevated platform, starting from rest with the ropes at an angle theta_i with respect to the vertical. Suppose the size of the performer's body is small compared to the length l, she does not pump the trapeze to swing higher, and air resistance is negigable.
A) Show that when the ropes make an angle theta with the vertical, the preformer must exert a force: mg(3 cos theta - 2 cos theta_1), so as to hang on.
B) Determine the angle theta_i for which the force needed to hang on at the bottom of the swing is twice the preformer's weight."

*I tried to attach a picture. Its not very good though, because I had to draw it*

I don't know how to approach the question but, my first question would be where is angle theta_i ?
You posted this somewhere yesterday I think, and I tried to give you a couple of hints. The angle theta is somewhere in between beta and -beta. It is a 'given' in part a, and you've got to find it in part b. Maybe someone else will help because I'm not giving any more hints. If you're a beginner at centripetal force and conservation of energy equations, this is not the problem you want to tackle first.
 

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