A space shuttle is in a circular orbit at an altitude of 238 mi. Calculate the absolute value of g at this altitude and determine the corresponding weight of a shuttle passenger who weighs 216 lb when standing on the surface of the earth at a latitude of 45°. Are the terms "zero-g" and "weightless," which are sometimes used to describe conditions aboard orbiting spacecraft, correct in the absolute sense? gh = set values to ft/sec2 Wh = set values to lb
A space shuttle is in a circular orbit at an altitude of 238 mi. Calculate the absolute value of g at this altitude and determine the corresponding weight of a shuttle passenger who weighs 216 lb when standing on the surface of the earth at a latitude of 45°. Are the terms "zero-g" and "weightless," which are sometimes used to describe conditions aboard orbiting spacecraft, correct in the absolute sense? gh = set values to ft/sec2 Wh = set values to lb
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A space shuttle is in a circular orbit at an altitude of 238 mi. Calculate the absolute value of g at this altitude and determine the corresponding weight of a shuttle passenger who weighs 216 lb when standing on the surface of the earth at a latitude of 45°. Are the terms "zero-g" and "weightless," which are sometimes used to describe conditions aboard orbiting spacecraft, correct in the absolute sense?
gh = set values to ft/sec2
Wh = set values to lb
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