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183_notes:curving_motion [2015/10/09 19:32] – caballero | 183_notes:curving_motion [2021/03/04 12:56] (current) – [Modeling Curved Motion] stumptyl |
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| Section 5.5, 5.6 and 5.7 in Matter and Interactions (4th edition) |
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===== Modeling Curved Motion ===== | ===== Modeling Curved Motion ===== |
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The motion of objects is not limited to [[183_notes:displacement_and_velocity|straight line motion]]. As you read earlier, [[183_notes:momentum_principle|forces can change the momentum of objects]] (including the direction of that momentum). These interactions can produce [[183_notes:localg|projectile motion]], [[183_notes:ucm|circular motion]], [[183_notes:springmotion|oscillations]], or more generalized trajectories. In these notes, you will read about how to model more generalized motion using the [[183_notes:momentum_principle|momentum principle]]. | The motion of objects is not limited to [[183_notes:displacement_and_velocity|straight line motion]]. As you read earlier, [[183_notes:momentum_principle|forces can change the momentum of objects]] (including the direction of that momentum). These interactions can produce [[183_notes:localg|projectile motion]], [[183_notes:ucm|circular motion]], [[183_notes:springmotion|oscillations]], or more generalized trajectories. **In these notes, you will read about how to model more generalized motion using the [[183_notes:momentum_principle|momentum principle]].** |
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==== Lecture Video ==== | ==== Lecture Video ==== |
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{{183_notes:bowlingball.mp4}} | {{183_notes:bowlingball.mp4}} |
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| ==== Examples ==== |
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| * [[:183_notes:examples:videoswk6|Video Example: Change in momentum (parallel and perpendicular) of an orbit]] |