Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.
Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.
Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.
Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.
Yes, density is defined as mass divided by volume, and mass doesn't change when you take something on a spaceship.
The density is not affected by gravity. it is a measure of a substances mass to volumn. Therefor the density of a steel hammer on a spaceship is the same as one on earth (approx 7850 kg/m^3)
Yes
Yes.
The density of the hammer is the same no matter where it is. Density = Mass / volume. Neither Mass nor volume is dependent on gravity there for Density is also independent of gravity.
The moon's average density is about the same as the density of mantle of the Earth.
Yes. COG is determined by the object shape & density distribution, not by its location.
No. Density is independent of size.
Because the density of an object does not depend on the amount in an object but the hardness or softness of that object
no, the mass would stay the same and the volume would stay the same so density is also the same
They have to be the same.
Density depends on mass and volume of an object.
no it is about 1/6 the density of the earth