Good Q!
well i just learned this in science so i can answer it!
if you weigh 90 lbs. on earth you would weigh 14.9 lbs on the moon. their is a 0.166 relative serfis gravity
lbs. on earth= lbs. on moon
90 =14.9
100 =16.6
110 =18.3
120 =19.9
130 =21.6
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That's a great discussion! Now it would be a nice gesture to answer the question:
The answer is: No. Mass is the amount of 'stuff' something is made of. Wherever the
object goes, its mass goes along with it, and doesn't change.
Weight would be different because the moon has less gravity then the earth. (astronauts can jump higher on the moon) Mass would be the same. I do not lose any mass if i go to the moon unless, you cut my arm off.
No, the mass density of an object would not be the same on the moon as on Earth. The mass of the object would remain the same, but since the gravitational pull on the moon is weaker than that on Earth, the volume of the object would decrease on the moon, resulting in a different mass density calculation compared to Earth.
The same as on earth because mass remains constant everywhere if you are thinking about the "weight" then it will be changed .
If you mean the mass of your body, it will be the same no matter where in the universe you are. Technically if you where on the moon, It would be a different rotation in the solar system so it would be bake words so it would set then it would rise
No, the mass of the rubber ball would remain the same on the moon as it is on Earth. Mass is a measure of the amount of matter in an object and is independent of the gravitational field it is in. However, the weight of the rubber ball would be less on the moon due to the moon's weaker gravitational pull.
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.
Weight would be different because the moon has less gravity then the earth. (astronauts can jump higher on the moon) Mass would be the same. I do not lose any mass if i go to the moon unless, you cut my arm off.
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.
The moon is smaller than the Earth so that would mean the size is smaller and the mass is also smaller because the mass depends on the size of the object so the moon would have less mass than Earth.
No, the mass density of an object would not be the same on the moon as on Earth. The mass of the object would remain the same, but since the gravitational pull on the moon is weaker than that on Earth, the volume of the object would decrease on the moon, resulting in a different mass density calculation compared to Earth.
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.
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.
No. Mass is a measure of the amount of "stuff" or matter a thing has. You wouldn't be smaller or bigger on the moon. You would, however, weigh less because weight is a function of gravity nand there is little gravity on the moon.
The same as it would be on Earth. It's weight however would be different. about 1/6th Weight = mass x gravity
The same as on earth because mass remains constant everywhere if you are thinking about the "weight" then it will be changed .
If you mean the mass of your body, it will be the same no matter where in the universe you are. Technically if you where on the moon, It would be a different rotation in the solar system so it would be bake words so it would set then it would rise
No, the mass of the rubber ball would remain the same on the moon as it is on Earth. Mass is a measure of the amount of matter in an object and is independent of the gravitational field it is in. However, the weight of the rubber ball would be less on the moon due to the moon's weaker gravitational pull.