An astronaut's mass remains constant regardless of location, as mass is a measure of the amount of matter in an object. However, their weight will change on the Moon due to its weaker gravitational pull, which is about one-sixth that of Earth's. This means the astronaut will weigh significantly less on the Moon, even though their mass stays the same. For example, if an astronaut weighs 180 pounds on Earth, they would weigh only about 30 pounds on the Moon.
The astronauts' mass did not change when they were on the Moon. Mass remains constant regardless of location. However, their weight would have been less on the Moon due to its lower gravity compared to Earth.
The mass is the same in both cases; the weight on the Moon is less (by a factor of 6, approximately).The mass is the same in both cases; the weight on the Moon is less (by a factor of 6, approximately).The mass is the same in both cases; the weight on the Moon is less (by a factor of 6, approximately).The mass is the same in both cases; the weight on the Moon is less (by a factor of 6, approximately).
Your mass will not change, but your weight will.
His mass does not change, only his relative weight.
Astronauts weigh less on the Moon than on Earth due to the Moon's weaker gravitational pull. The Moon's gravity is about one-sixth that of Earth's, resulting from its smaller mass and size. This means that objects, including astronauts, experience less gravitational force, making them feel lighter when on the lunar surface. Consequently, while their mass remains unchanged, the reduced gravity affects their weight significantly.
The astronauts' mass did not change when they were on the Moon. Mass remains constant regardless of location. However, their weight would have been less on the Moon due to its lower gravity compared to Earth.
The mass will hardly change. What changes is the weight.The mass will hardly change. What changes is the weight.The mass will hardly change. What changes is the weight.The mass will hardly change. What changes is the weight.
Because mass is not the same as weight. Weight is mass times gravity so your weight will change if you are on the earth or moon but your mass will stay the same.
So if you take your weight then divide it by 6.13 that is your on the moon and your mass stays the same.
There is gravity on the moon! The gravity on the Moon is 1/6th that of what is observed on Earth. An object with a weight of 36 kg on Earth would weigh 1/6th that on the Moon. 1/6th of 36kg is, 6 kg. An object with a MASS of 36 kg on Earth would have the same 36 kg MASS on the moon. Mass is the amount of matter that makes up an object, whereas WEIGHT is the measurement of the force of gravity on that MASS. This is why your weight will change when visiting other planets, but your mass stays constant plant to planet!
The mass is the same in both cases; the weight on the Moon is less (by a factor of 6, approximately).The mass is the same in both cases; the weight on the Moon is less (by a factor of 6, approximately).The mass is the same in both cases; the weight on the Moon is less (by a factor of 6, approximately).The mass is the same in both cases; the weight on the Moon is less (by a factor of 6, approximately).
* Mass doesn't change because of conservation of mass. * Weight changes because it is the product of mass x gravity - and gravity on the Moon is less.
Your mass will not change, but your weight will.
His mass does not change, only his relative weight.
Such an object's mass would not change, or it wouldn't change significantly. Its weight will be reduced, approximately by a factor of 6.
Astronauts weigh less on the Moon than on Earth due to the Moon's weaker gravitational pull. The Moon's gravity is about one-sixth that of Earth's, resulting from its smaller mass and size. This means that objects, including astronauts, experience less gravitational force, making them feel lighter when on the lunar surface. Consequently, while their mass remains unchanged, the reduced gravity affects their weight significantly.
Yes. Weight is the product of mass times gravitational acceleration. So all you have to do is vary the gravitational field and you vary weight. This is why astronauts on the Moon only weighed about 1/6 their weight on Earth.