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The '''STS FAQ''' collects questions and answers related to the real [[STS]], not the various available addons. | The '''STS FAQ''' collects questions and answers related to the real [[STS]], not the various available addons. | ||
− | == | + | ==Guidance, Navigation and Control== |
− | === | + | ===How is the Space Shuttle controlled in real life?=== |
+ | The orbiter is usually controlled automatically by the [[GPC|GPCs]] except during landing and some orbit maneuvers (eg docking). Manual control is possible by using [[Rotary hand controller|Rotary hand controllers]] and [[Translation hand controller|Translation hand controllers]], which can be used in many different operation modes. | ||
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− | + | ==Communications== | |
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− | + | ===What is the purpose of the Ku-Band antenna?=== | |
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The Ku-Band antenna gets used for: | The Ku-Band antenna gets used for: | ||
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*As [[rendezvous]] [[radar]] for tracking the rendezvous target. | *As [[rendezvous]] [[radar]] for tracking the rendezvous target. | ||
− | == | + | ==Payloads== |
− | + | ===What are the maximum dimensions and mass for a payload in the Shuttle?=== | |
− | + | STS Payload Bay has a diameter of 4.6 m and a length of 18.2 m. For [[ISS]] missions, however some of the space is taken up the [[Orbiter Docking System]] so the available free length of the PLB is approx. 16.25 m. | |
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− | + | Maximum payload mass depends on orbiter vehicle and orbit needed for the payload. It can take more into a 300x300x28.5° orbit than 400x400x51.6° orbit. | |
− | + | As a spaceplane, the payload, which can be returned (download) to [[Earth]], is also limited by [[cross range]] and [[Center of gravity|CoG]] requirements. | |
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− | + | ===How is the RMS arm attached in the cargo bay while launch and reentry?=== | |
− | + | The [[RMS]] arm is held in place by a set of mechanic latches. | |
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− | + | ==Thermal protection system== | |
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− | + | ===If there will be a damaged heat shield how will the crew change it?=== | |
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Currently, there's no no way to repair the orbiter's [[heat shield]] or [[thermal protection system]]. The TPS consists of both thermal blankets, silica tiles and [[reinforced carbon carbon]](RCC) nosecap and wing leading edge panels. | Currently, there's no no way to repair the orbiter's [[heat shield]] or [[thermal protection system]]. The TPS consists of both thermal blankets, silica tiles and [[reinforced carbon carbon]](RCC) nosecap and wing leading edge panels. | ||
− | + | ===How is a damaged Thermal Protection System detected?=== | |
During launch and ascent, there's a whole bunch of ground tracking cameras and radars that observes the space shuttle for any debris events. There's even a set of seven cameras on the shuttle itself! | During launch and ascent, there's a whole bunch of ground tracking cameras and radars that observes the space shuttle for any debris events. There's even a set of seven cameras on the shuttle itself! | ||
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Also during rendezvous with the [[International Space Station]], the orbiter will do a 360° pitch-around manuever that will allow the ISS crew to photograph the TPS that will later be downlinked to the ground. | Also during rendezvous with the [[International Space Station]], the orbiter will do a 360° pitch-around manuever that will allow the ISS crew to photograph the TPS that will later be downlinked to the ground. | ||
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