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Introductory Physics Homework Help
Uniform Circular Motion for rubber stopper
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[QUOTE="Mister T, post: 5269271, member: 572021"] The string and the stopper interact. Each exerts a force on the other. The magnitudes are equal to each other and equal to the magnitude of the tension force. The question asks you to state which of these forces is acting on the stopper, and which is by the stopper. Earth and the stopper interact. Each exerts a force on the other. The magnitudes are equal to each other and are called the magnitude of the gravitational force. The question asks you to state which of these forces is acting on the stopper, and which is by the stopper. Yes! [B][/B] Yes! Just to be safe, though, you might include one more equation involving ##T, \theta, m, v, \mathrm{and} \ r##. [/QUOTE]
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Uniform Circular Motion for rubber stopper
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