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 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.
Less - since the gravity on the moon is about one-sixth of that on Earth.
You would weigh less because there is less gravity on mercury than on earth so you would weigh less!
Anytime you are in a place with less gravity, you or any object will weigh less. The force of gravity on the moon is much less than on Earth.
while the mass of the astronaut doesn't change the acceleration of gravity on the moon is much less than that on earth. Since weight is a measure of force (N)=m(kg)xa(m/(ss)), a decreased gravity on the moon would mean a decreased weight
Gravitational Pull
It would weigh about one sixth (1/6) as much as it does on earth - as the moon's gravity is about one sixth as it is here.
Depending where the astronaut is located, a large load will weigh much less than on Earth, or even weigh nothing (if the astronaut is in free fall).
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.
Less - since the gravity on the moon is about one-sixth of that on Earth.
You would have the same mass on the Earth as you would on the moon. You would just weigh less on the moon because there is less gravity there than on the moon.
About 160 pounds.(Less than that if the 27 pounds on the moon included his space suit.)
You would weigh less because there is less gravity on mercury than on earth so you would weigh less!
Anytime you are in a place with less gravity, you or any object will weigh less. The force of gravity on the moon is much less than on Earth.
while the mass of the astronaut doesn't change the acceleration of gravity on the moon is much less than that on earth. Since weight is a measure of force (N)=m(kg)xa(m/(ss)), a decreased gravity on the moon would mean a decreased weight
they would weigh more. more gravity= more weightadd. With a smaller gravity, they would weigh LESS.
The force of gravity is based on the mass of an object, and weight is a measurement of the effect of gravity. Because the Moon has significantly less mass than the Earth, a person would weigh less on the Moon. The gravity on the surface of the Moon is about 1/6th of what the Earth's gravity is. So an astronaut would only weigh 1/6 of his Earth weight. This allowed the Apollo astronauts, even in heavy spacesuits, to jog about easily on the lunar surface.