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Yes, a solid would have the same mass on the moon as it would on earth. An object's mass is independent of the force of gravity, so its mass would remain the same even in the absence of gravity (e.g. on a spaceship). What would change is the weight, which is measured with mass in proportion to gravity.
A stone has a solid mass and does occupy space.
Your mass in space would be the same as your mass on Earth, but your weight in space would be zero.
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You do not get a solid mass above the pelvic girdle after ab exercise. You need to see your Doctor immediately to make a proper diagnosis of the solid mass
Center of mass of hollow cone is H/3 distance above its base and that of solid cone is 3H/10 distance above its base.
The gram molecular mass of glucose is 180 gram. Reason. The atomicity of glucose is 24.
Yes, a solid would have the same mass on the moon as it would on earth. An object's mass is independent of the force of gravity, so its mass would remain the same even in the absence of gravity (e.g. on a spaceship). What would change is the weight, which is measured with mass in proportion to gravity.
Glucose has a molar mass of 180g/mol, and we arrive at this figure by adding up the atomic masses of all its constituent atoms. Carbon accounts for 72 of these 180g (12x6), so 72/180 = 0.4, which is 40%.
A solid has a mass
nM=m moles of solid multiplied by Molar mass (Atomic mass on periodic table) = Mass of solid
The mass remains the same.
You can dip the irregular solid in a water or other suitable liquid. This is how, you can measure the volume of the solid. The mass can be measured by weighing scale. Mass/volume = density. It is easy to measure the mass and volume of the liquid. First measure the mass the container. Then add the liquid to it. You will get the mass of the liquid. Then measure the volume of the liquid. Use the above formula to calculate the density of the liquid.