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Dynamic Properties of the International Space Station throughout the Assembly Process

1 New starting at:

$33.95

Studio:

Storming Media

Binding:

Spiral-bound

Publication Date:

September 07, 2008

Publisher:

Storming Media

EDITORIAL REVIEWS

Product Description
This is a AIR FORCE INST OF TECH WRIGHT-PATTERSONAFB OH SCHOOL OF ENGINEERING report procured by the Pentagon and made available for public release. It has been reproduced in the best form available to the Pentagon. It is not spiral-bound, but rather assembled with Velobinding in a soft, white linen cover. The Storming Media report number is A282843. The abstract provided by the Pentagon follows: Attitude control and spacecraft dynamics have always demanded serious attention from spaceflight personnel. Proper utilization of the basic tools of dynamics and controls can help alleviate the problems associated with the somewhat unpredictable nature of attitude control in the most basic spacecraft. Soon a new spacecraft will be placed in orbit that will truly test man, machine and the forces that bind them. The International Space Station is the culmination of works from 15 nations. It will orbit the Earth 200 miles high and will signal a new era in manned spaceflight and international cooperation. This platform of science will not miraculously appear overnight. Five years of on- location construction, requiring over 45 launches, will finally place the million-pound station in orbit. The dilemma is that each pound will transform the previous stage into an entirely new spacecraft, one with its own dynamics and means for control. This paper will describe this 5-year ordeal and monitor the stability of every configuration of the ISS while it's under the influence of Earth's gravity. Of 112 separate configurations, the ISS can be confirmed stable throughout only 24. The remaining configurations are unstable about one, some or all of its body axes. Rendezvous maneuvers complicate matters, as the U. S. Space Shuttle has serious effects on the completed Station's dynamics, making it unstable about roll, pitch and yaw. Location of the principal axes in relation to body coordinates varies greatly and causes the station to rotate about its intermediate axis.