Interactive Aerospace Engineering and DesignMcGraw-Hill, 2002 - 356 pages This text contains an integrated bound-in CD-ROM, and has a strong emphasis on design. Its active visual approach and inclusion of space-orientated engineering make it an interesting examination of the aerospace engineering field. |
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Page 165
... radiation . Without ozone , that radiation would kill off our nucleic acids and make life impossible . Visible light has only a slightly greater wavelength , but ozone lets it through . And life would also be impossible without that ...
... radiation . Without ozone , that radiation would kill off our nucleic acids and make life impossible . Visible light has only a slightly greater wavelength , but ozone lets it through . And life would also be impossible without that ...
Page 167
... Radiation - transfer of heat by a hot source ( e.g. , electromagnetic radiation ) . In the vacuum of space an isolated body , such as a spacesuited astronaut during a spacewalk or a planet or a satellite , can transfer heat to or from ...
... Radiation - transfer of heat by a hot source ( e.g. , electromagnetic radiation ) . In the vacuum of space an isolated body , such as a spacesuited astronaut during a spacewalk or a planet or a satellite , can transfer heat to or from ...
Page 183
... radiation , and electrostatic arcing due to the accumulation of electric charges encountered . 8.6.1 Cumulative Dose ... radiation , per mass of this volume . The SI unit for the absorbed dose is the Gray ( Gy ) , defined as 1 ...
... radiation , and electrostatic arcing due to the accumulation of electric charges encountered . 8.6.1 Cumulative Dose ... radiation , per mass of this volume . The SI unit for the absorbed dose is the Gray ( Gy ) , defined as 1 ...
Table des matières
A Brief History of Flight | 1 |
Chapter | 4 |
Introduction to Engineering | 20 |
Droits d'auteur | |
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Expressions et termes fréquents
aerodynamic aircraft airfoil airplane altitude angle of attack antenna Apollo astronauts atmosphere axis balloon body Boeing burner calculate camber CD-ROM chapter coefficient coefficient of lift components compressor crew member debris Decavitator drag drawing efficiency elliptical energy Equation equilibrium example Figure flight force freestream fuel gravity human human spaceflight inlet International Space Station jet engine joint launch lift load factor low Earth orbit LTA vehicle lunar maneuver mass flow materials maximum microgravity mission motion NASA nozzle object operational orbital mechanics oxygen particles payload performance plane planetary pressure problem produced propeller propulsion radiation ratio rocket satellite semimajor axis simulation Skylab solar space environment Space Shuttle space station spacecraft spaceflight specific speed stability static structural surface temperature thermal thrust truss turbine turbofan turbojet United vector velocity wing