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| course_planning:183_projects:f20_project_10 [2020/11/11 18:00] – pwirving | course_planning:183_projects:f20_project_10 [2020/11/11 20:30] (current) – pwirving |
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| ====== Project 10b: Joe and Blobs ====== | ====== Project 10b: Joe and Blobs ====== |
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| You live on the planet Joe. Joe has a radius of 8432 Km and a mass of 6.822 × 10^26 kg. The industrial revolution on Joe has transpired differently than on Earth due to mainly the ability to construct springs of extremely large spring constants. The space program of the planet Bob is reliant on springs to send objects into orbit and for propulsion. However, the scientific community has recently moved to experiment with new forms of energy such as nuclear power. One of these experiments has been the sending of a nuclear-powered satellite (mass of 6900 kg) into orbit around Joe at a distance of 22,600 Km. However, issues have arisen with the coolant system of the satellite and it is in danger of exploding and releasing harmful radiation into the upper atmosphere of Joe. You must set the satellite on a path outside of the gravitational pull of Joe in order to save the day. To do so, you have the ability to fire large blobs of a putty-like substance from the surface of Joe. The biggest blob you have access to is of mass 5000kg. You also have access to a spring with a spring constant of 4.89*10^10 kg/s^2 to fire a blob to hit the satellite and send beyond the gravitational pull of Joe. | You live on the planet Joe. Joe has a radius of 8432 Km and a mass of 6.822 × 10^26 kg. The industrial revolution on Joe has transpired differently than on Earth due to mainly the ability to construct springs of extremely large spring constants. The space program of the planet Joe is reliant on springs to send objects into orbit and for propulsion. However, the scientific community has recently moved to experiment with new forms of energy such as nuclear power. One of these experiments has been the sending of a nuclear-powered satellite (mass of 6900 kg) into orbit around Joe at a distance of 22,600 Km. However, issues have arisen with the coolant system of the satellite and it is in danger of exploding and releasing harmful radiation into the upper atmosphere of Joe. You must set the satellite on a path outside of the gravitational pull of Joe in order to save the day. To do so, you have the ability to fire large blobs of a putty-like substance from the surface of Joe. The biggest blob you have access to is of mass 5000kg. You also have access to a spring with a spring constant of 4.89*10^10 kg/s^2 to fire a blob to hit the satellite and send beyond the gravitational pull of Joe. |