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Bukley A, Lawrence D, Clément G (2006) Generating artificial gravity onboard the Space Shuttle. Acta Astronautica, in press
Burton RR, Whinnery JE (2002) Biodynamics: Sustained accelerations. In: Fundamentals of Aerospace Medicine. DeHart RL, Davis JR (eds) Third Edition. Lippincott Williams & Wilkins, Philadelphia, PA, pp 122-153
Caiozzo VJ, Rose-Gottron C, Baldwin KM et al. (2004) Hemodynamic and metabolic responses to hypergravity on a human-powered centrifuge. Aviat Space Environ Med 75: 101-108
Chambers MJ, Chambers RM (2005) Getting Off the Planet. Training Astronauts. Apogee Books, Burlington
Clark CC, Hardy JD (1960) Gravity problems in manned space stations. In: Proceedings of the Manned Space Stations Symposium. Institute of the Aeronautical Sciences, New York, pp 104-113
Clément G, Pavy-Le Traon A (2004) Centrifugation as a countermeasure during actual and simulated microgravity: A review. Eur J Appl Physiol 92: 235-248
Faget MA, Olling EH (1968) Orbital space stations with artificial gravity. In: Third Symposium on the Role of the Vestibular Organs in Space Exploration. NASA, Washington DC, NASA SP-152, pp 7-16.
Fisher N (2001) Space science 2001: Some problems with artificial gravity. Phys Educ 36: 193-201
Graybiel A, Miller EF, Homicj JL (1977) Experiment M131. Human vestibular function. In: Biomedical Results from Skylab. Johnston RS, Dietlein LF (eds) NASA, Washington DC, NASA SP-377, pp 74-103.
Greenwood, DT (1965) Principles of Dynamics. Chapter 2, Prentice-Hall, Englewood Cliffs, NJ
Hall TW (1997) Artificial Gravity and the Architecture of Orbital Habitats. Retrieved on 31 July 2006 from URL: http://www.spacefuture.com/archive/artificial_ gravity_and_the_architecture_of_orbital_habitats.shtml
Hall TW (1999) Inhabiting Artificial Gravity. AIAA 99-4524, AIAA Space Technology Conference, Albuquerque, NM
Hall TW (2004) Architectural Design to Promote Human Adaptation to Artificial Gravity: A White Paper. Retrieved on 26 July 2006 from URL:http://www.twhall.com/ag/NASA-RFI-04212004-Hall.pdf
Joels KM, Young LR (1992) The Space Shuttle Operators Manual. Ballantine Books, New York
Johnson RD, Holbrow C (eds) (1977) Space Settlements: A Design Study. NASA, Washington DC, NASA SP-413.
Joosten (2002) Preliminary Assessment of Artificial Gravity Impacts to Deep-Space Vehicle Design. NASA Johnson Space Center Document No. EX-02-50
Letko W, Spady AA (1970) Walking in simulated lunar gravity. In: Fourth Symposium on the Role of the Vestibular Organs in Space Exploration. NASA, Washington DC, NASA SP-187, pp 347-351.
Loret BJ (1963) Optimization of space vehicle design with respect to artificial gravity. Aerospace Med 34: 430-441
Paloski WH, Young LR (1999) Artificial Gravity Workshop, League City, Texas, USA: Proceedings and Recommendations. NASA Johnson Space Center and National Space Biomedical Research Institute (eds) Houston, Texas, USA
Paloski WH (ed) (2006) Artificial Gravity as a Tool in Biology and Medicine. International Academy of Astronautics Study Group 2.2. Final Report
Piemme TE, Hyde AS, McCally M et al. (1966) Human tolerance to Gz 100 percent gradient spin. Aerospace Med 37: 16-21
Schultz DN, Rupp CC, Hajor GAet al. (1989) A manned Mars artificial gravity vehicle. In: The Case for Mars III: Strategies for Exploration – General Interest and Overview. Stoker C (ed) American Astronautical Society, pp 325-352
Shipov AA, Kotovskaya AR, Galle RR (1981) Biomedical aspects of artificial gravity. Acta Astronautica 8: 1117-1121
Stone RW (1973) An overview of artificial gravity. In: Fifth Symposium on the Role of the Vestibular Organs in Space Exploration. NASA, Washington DC, NASA SP-314, pp 23-33.
Tajmar M, Plesescu F, Marhold K, de Matos CJ (2006) Experimental detection of the gravitomagnetic London moment. Physica C(in press)
Wade M (2005) Gemini 11. Encyclopedia Astronautica. Retrieved 10 May 2006 from URL: http://www.astronautix.com/flights/gemini11.htm
Young LR, Hecht H, Lyne LEet al. (2001) Artificial gravity: head movements during short-radius centrifugation. Acta Astronautica 49: 215–226
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Bukley, A., Paloski, W., Clément, G. (2007). Physics of Artificial Gravity. In: Clément, G., Bukley, A. (eds) Artificial Gravity. The Space Technology Library, vol 20. Springer, New York, NY. https://doi.org/10.1007/0-387-70714-X_2
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