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| 183_projects:problem2_fall2021b [2021/09/21 14:50] – pwirving | 183_projects:problem2_fall2021b [2022/01/25 10:29] – pwirving | ||
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| ===== Project 3: Part A: Geostationary orbit ===== | ===== Project 3: Part A: Geostationary orbit ===== | ||
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| + | ====== Project 3: Part B: Geostationary orbit ====== | ||
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| + | Carver is impressed with your work, but remains unconvinced by your predictions. He has asked you to write a simulation that models the orbit of the satellite. To truly convince Carver, the simulation should include representations of the net force acting on the spacecraft, which has a mass of $15\times10^3$ kg. Your simulation should be generalized enough to model other types of orbits including elliptical ones. | ||
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| + | https:// | ||
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| + | ====== Project 3: Part C: Delivering the Payload ====== | ||
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| + | Back on Earth, your group has been tasked with computing the calculations for a very difficult delivery. You are being tasked with predicting how to get a box dropped from a plane to land on a specific mountain. Your group should create a model of the box moving with the plane and | ||
| + | then dropping from it so that it lands on the top of the first and highest cliff. | ||
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| + | https:// | ||
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| + | */ | ||