|
|
|
Joseph Jimmerson MAS, PMP
|
|
|
|
 |
The Rocket Files, 2nd Edition
Completely revised and updated version of the The Rocket Files by Joseph Jimmerson. This book is crucial for those starting out in rocketry as well as those making the transition into high-power and experimental rocketry. While continually drawing a link between hobby rockets and space launch vehicles, this book covers every aspect from propulsion and rocket design to payload sciences and ground support equipment. Twelve chapters chock full of over 200 images, advanced equations, detailed procedures, and expert advice from a rocket specialist guide prospective rocket scientists.
Print: $23.96
|
|
|
 |
MARS EXPEDITION CREW COMPOSITION
The purpose of this study is to investigate the optimal crew size for long-duration space
missions, specifically the first manned expedition to Mars. Manned space mission design
is based primarily on the crew size, so this information is critical from the onset of
mission conception. An initial position was established by reviewing mission reports,
plans, and related crew studies. Data was gathered by surveying a population of
crewmembers from various fields who work in environments similar to those
encountered by a Mars expedition crew, to include astronauts, Antarctic and underwater
research teams, air crews, analog mission crews, and missile crews. The researcher
showed that larger crews, while more demanding with regard to vehicle, trajectory, life
support, and overall mission design, are better suited for such long duration missions.
Hardcover Print: $62.30
|
|
|
 |
MARS EXPEDITION CREW COMPOSITION
The purpose of this study is to investigate the optimal crew size for long-duration space
missions, specifically the first manned expedition to Mars. Manned space mission design
is based primarily on the crew size, so this information is critical from the onset of
mission conception. An initial position was established by reviewing mission reports,
plans, and related crew studies. Data was gathered by surveying a population of
crewmembers from various fields who work in environments similar to those
encountered by a Mars expedition crew, to include astronauts, Antarctic and underwater
research teams, air crews, analog mission crews, and missile crews. The researcher
showed that larger crews, while more demanding with regard to vehicle, trajectory, life
support, and overall mission design, are better suited for such long duration missions.
Print: $48.91
|
|
|
|
|
|
|
![[]](http://static.lulu.com/images/persuasion/footer/line.gif?20081217113440)
