Biomagnetics: considerations relevant to manned space flight, Issue 889
Douglas E. Busby, Lovelace Foundation for Medical Education and Research, United States. National Aeronautics and Space Administration
National Aeronautics and Space Administration, 1967 - Science - 57 pages
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Magnetic Field Exposures in Space
Effects of HighIntensity Magnetic Fields
adrenal glands Aerospace animals apparent effect astronauts Beischer Biological Effects biomagnetic effects Cell culture growth critical flicker-fusion frequencies culture growth Cell decrease DEYE EO HEGH diamagnetic Drosophila melanogaster DURAEEON OE EXPOEURE EABDE 1 continued EABGE Earth's magnetic field EDD DERECEEON Random EEEECEE OBEERVED Effects of Magnetic Enzyme Erog Erom Estrus cycle experiments EXPOEURE OE BEODOGECAG exposed to magnetic extremely low-intensity magnetic field strength fixed in field gammas in intensity gauss gradient growth Cell culture HEGH MAGNEEEC EDDE Helmholtz coil Homogeneous Homogeneous Homogeneous horizontal field Random International Biomagnetic Symposium leucocyte low-intensity magnetic fields M. F. Barnothy MAGNEEEC EDDE REE magnetic field exposure magnetic field intensity magnetohydrodynamic mice exposed molecules Mouse Mouse Mouse mu-metal observed Oe BEODOGECAG DEY oersteds paramagnetic Pensacola plasma radiation shielding Plenum Press pure magnetic Random Random Random red blood cells Research solar flare Third International Biomagnetic tissue tumor University of Illinois vertical field Random zona fasciculata