How much amor plating goes onto a space shuttle?
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How big are the tiles on the Space Shuttle?
- They are made to insulate the shuttle up to 1,200 degrees F (650 degrees C). These tiles are usually larger and thinner, 8 inches long on each side (20.3cm) and from less than a half inch (1 cm) thick up to 1 inch (2.54 cm) in thick- ness. The densities range from 9 to 12 pounds per cubic foot.
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Now, go back to the analogy with the tennis ball and baseball – why would good material for a space shuttle tile be low density? (Less weight takes less energy (and less cost) to launch into space.) Pass the shuttle tile around. The tile is very fragile and students should be instructed on how to handle the tile carefully. ** CAUTION – The tile must stay in the plastic bag! ** Now we will determine the density of the space shuttle tile and compare it to the density of other objects. 4 ...
The tank is the only component of the Space Shuttle that is not reused. Approximately 8.5 minutes into the flight, with its propellant used, the tank is jettisoned. At liftoff, the External Tank absorbs the total (7.8 million pounds) thrust loads of the three main engines and the two solid rocket motors. IN DEPTH: Learn more about the changes which have made the External Tank safer for Return to Flight: + LOX Feedline Bellows + Improved Tank's Journey + ET 101: Media Workshop + ET Photo ...
The good news is that the shuttle’s retirement has made the RTLS argument merely an academic one. Of the 135 Space Shuttle launches, only one (STS-51F on 7/29/85) experienced an abort-inducing failure during ascent. In the case of 51F, they safely made a lower-than-planned orbit and carried out the mission.
And when they bring a second one up onto orbit in order to switch out the first one when they have to replace them, they actually have to move one of the Soyuz modules from the end of the service module to the bottom of the service module, and the second service module goes on to the end. The space shuttle, on the other hand, docks to the ...
Space Shuttle Discovery as it approaches the International Space Station during the STS-114 on 28 July 2005. The Space Shuttle thermal protection system (TPS) is the barrier that protected the Space Shuttle Orbiter during the searing 1,650 °C (3,000 °F) heat of atmospheric reentry. A secondary goal was to protect from the heat and cold of ...
MODIFY THE SPACE SHUTTLE. The key component for refurbish the space shuttle is: Crew Escape Vehicle (optional). Changing shuttle main engine, using stage 3 of Saturn V rocket (J-2 engine). Additional 4 J-2 engine outside the shuttle hull for flight to the moon. Redesign cargo bay.
I went into the .cfg file for ExtraPlanets and edited the list for armor considered as space suits. Here it is: S:"List of armour items to be considered as a space suit" < redstonearsenal:armor.helment_flux:3 redstonearsenal:armor.plate_flux:3 redstonearsenal:armor.legs_flux:3 redstonearsenal:armor.boots_flux:3 ic2:nano_boots:3 ic2:nano ...
Late last month GOES-13, a weather satellite that helps the U.S. government forecast hurricanes, got smacked by a piece of supersonic space dust.A little micrometeorite, a small-but-incredibly ...
Secondary radiation comes from the shielding material itself. When particles of space radiation smash into atoms within the shield, they trigger tiny nuclear reactions. Those reactions produce a shower of nuclear byproducts -- neutrons and other particles -- that enter the spacecraft. It's a bit like trying to protect yourself from a flying bowling ball by erecting a wall of pins. You avoid the ball but get pelted by pins. "Secondaries" can be worse for astronauts' health than the original ...
A Space Shuttle orbiter is shown docking to the command module for scale. Each of the three multi-mode powerplants uses a rotating bed particle reactor (RBR) design. Each produces 2,500 MW th and has its own 100 MW th liquid droplet radiator (LDR) with a closed-cycle conversion system. The triangular LDRs are 100 meters on a side. They take care of the waste heat when the reactor is being used in low-power housekeeping mode. In this mode, the three reactors produce a combined total of 75 MW ...