Down.
The astronaut's inertia is MORE on the moon.
No. As long as you continued to eat your astronaut food and do your astronaut exercises, your weight would remain constant on the moon. But it would only be about 16% of your weight on Earth. Your mass would be the same on the moon as it is on Earth, and would also not change while you're there.
-- name -- age -- mass
Neil Armstrong was the first astronaut to walk on the moon
The astronaut's mass is the same on the moon but the gravitational force applied on the astronaut is weaker thus the astronaut appears to weigh less.
The astronaut's inertia is MORE on the moon.
5
Earth because on the moon you would weigh one sixth
In that case, the Sun would be above the horizon for that astronaut.
No. As long as you continued to eat your astronaut food and do your astronaut exercises, your weight would remain constant on the moon. But it would only be about 16% of your weight on Earth. Your mass would be the same on the moon as it is on Earth, and would also not change while you're there.
No. No astronaut has been to the Moon since 1972,
-- name -- age -- mass
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Neil Armstrong was the first astronaut to walk on the moon
The astronaut's mass is the same on the moon but the gravitational force applied on the astronaut is weaker thus the astronaut appears to weigh less.
The moon is considerably smaller than the Earth, both in diameter and in mass, and it therefore has a much weaker gravitational field. The weight of an astronaut on the moon is the result of the mass of the astronaut, which is not changed by going to the moon, and the gravitation field of the moon. A weaker gravitational field produces a lower weight.
The American space center N.A.S.A was responsible for choosing which astronaut would walk on the moon.