4. The moon could be an ideal spaceport for exploring the solar system. A moon launching system could consist of magnetic rail gun that shoots items into moon orbit. How much energy would be needed from the rail gun to get a 10,000 kg capsule into an orbit 100 km above the moon surface? The moon's gravity is 1.6 m/s² and the orbital velocity for this altitude is 1700 m/s. Hint: Put the rail gun outside of the system. Energy (J) Ek Eg Eel Position A System/Flow O Energy (J) Ek Eg Eel Position B Eth
4. The moon could be an ideal spaceport for exploring the solar system. A moon launching system could consist of magnetic rail gun that shoots items into moon orbit. How much energy would be needed from the rail gun to get a 10,000 kg capsule into an orbit 100 km above the moon surface? The moon's gravity is 1.6 m/s² and the orbital velocity for this altitude is 1700 m/s. Hint: Put the rail gun outside of the system. Energy (J) Ek Eg Eel Position A System/Flow O Energy (J) Ek Eg Eel Position B Eth
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Please answer the following and
a) Use 10 m/s^2, not 9.8 m/s^2 for gravity in calculation.
b) Fill out the graph and system/ flow diagram, if possibe
Thanks.
Transcribed Image Text:4. The moon could be an ideal spaceport for exploring the solar system. A moon launching system could consist of
magnetic rail gun that shoots items into moon orbit. How much energy would be needed from the rail gun to get a
10,000 kg capsule into an orbit 100 km above the moon surface? The moon's gravity is 1.6 m/s² and the orbital
velocity for this altitude is 1700 m/s. Hint: Put the rail gun outside of the system.
Energy (J)
Ek Eg Eel
Position A
System/Flow
Energy (J)
Ek Eg Eel
Position B
Eth
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