It is shown that more human experience at zero g must be available before one can conclude whether it is better while in space to stay at zero g, or, by rotation, to maintain certain centrifugal acceleration, or to have alternate periods at zero g and at higher g; table showing animal and man ascents above 100,000 ft.
Gravity problems in manned space stations
Aero/Space Eng
Aerospace Engineering ; 19 , n 5 ; p 36-39
1960
4 pages
Aufsatz (Zeitschrift)
Englisch
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