Yes, the mass of a dollar bill would remain the same on the moon as it does on Earth. Mass is a measure of the amount of matter in an object and does not change with location. However, the weight of the dollar bill would decrease on the moon due to its weaker gravitational pull, which is about one-sixth that of Earth's.
no
Yes and no. While the weight of the dollar bill would be decreased due to the lower gravity, grams are actually a measurement of mass, not weight. This means the weight would be different, but still technically one gram.
The average distance from the Earth to the Moon is about 238,855 miles, which is approximately 12,742,000,000 inches. Since a dollar bill is about 6.14 inches long, it would take approximately 2,074,000,000 dollar bills lined up side by side to reach the Moon. This is a rough estimate, as the distance to the Moon varies slightly due to its elliptical orbit.
(Yes. The mass on the moon is 1/81 than it is on Earth.) No I'm sorry but this is incorrect. Mass is a measure of the number of particles you have, i.e how big you are Weight decreases on the moon, as it is a force caused by gravity.
the mass is an invariant: so 25kg mass would still be 25kg mass where ever it was. the force a 25kg mass exerts would change, as the force is a variant that would be altered by the lower gravitational strength of the moon.
no
Yes and no. While the weight of the dollar bill would be decreased due to the lower gravity, grams are actually a measurement of mass, not weight. This means the weight would be different, but still technically one gram.
they both have 4 quarters
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!
A 5.0kg mass would have the same mass on both Earth and the moon. However, on Mercury, due to its different gravitational pull compared to Earth and the moon, the mass would still be 5.0kg, but it would weigh less on Mercury than on Earth or the moon.
If you weighed 200kg on Earth you would weigh 33.2kg on the Moon. Your mass would stay the same.on earth the mass is equal to the weight.on the moon the weight will be inferior to the mass due to the smaller mass of the moon inducing less gravitational pull
* 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.
(Yes. The mass on the moon is 1/81 than it is on Earth.) No I'm sorry but this is incorrect. Mass is a measure of the number of particles you have, i.e how big you are Weight decreases on the moon, as it is a force caused by gravity.
The mass of an object remains the same regardless of where it is located, so the object would still have a mass of 120 g on the moon. However, its weight would be different on the moon due to the moon's lower gravity compared to Earth.
the mass is an invariant: so 25kg mass would still be 25kg mass where ever it was. the force a 25kg mass exerts would change, as the force is a variant that would be altered by the lower gravitational strength of the moon.
The weight of an object remains the same regardless of its location, but its mass would be different due to the different gravitational forces on Jupiter and the Moon. On Jupiter, the mass would be about 7.49 times greater than on Earth, and on the Moon, it would be about 1/6th of the mass on Earth.
Your weight on the moon would be about 16.5% of your weight on Earth due to the moon's weaker gravitational pull. However, your mass would remain the same regardless of location, as mass is a measure of the amount of matter in an object.