Its mass would be 6 pounds...
volume is how much space is in an object (an object with more volume would be bigger) weight is how heavy an object feels due to gravity (an object with more weight would be harder to lift) density is how much matter is in an amount of space (an object with more density would weigh as much as an object with less density but in a smaller space/volume)
Well, id you were just in empty outer space-you would way absoloutley nothing. There is no gravity in outer space, the planets provide the gravity. But if you were talking about the moon, a 100 pound person would weight 12 pounds on the moon.
A pound (lb) is a measure of mass which is not the same as weight. An oject with a mass of 2240 pounds on earth would have a mass of 2240 pounds on the moon. But the weight of the object would be only one sixth on the moon. A mass of 2240 lb is equivalent to an Imperial ton.
Pound weight.
A scale.
It would be 90 pounds.
volume is how much space is in an object (an object with more volume would be bigger) weight is how heavy an object feels due to gravity (an object with more weight would be harder to lift) density is how much matter is in an amount of space (an object with more density would weigh as much as an object with less density but in a smaller space/volume)
A swallow would not be able to get off the ground while carrying a seven pound object - it would be crushed under the weight!
A pound is a measurment of weight. The weight of a pound does not change. Therefore, a pound of "fjhfjhdfh" would be equivalent to a pound of "abc" or "xyz", they would all be as heavy as a pound.
A scale that measures weight would give a different measurement in space than on earth for the same object.
yes, outer space has no air, so u could drop a 100 pound weight and a 1000 pound weight at the same time and they would still fall at the same speed. (kewl, huh?) :)
Because the mass is the amount of matter that makes up the object. That doesn'tdepend on where the object is located.The weight of an object is the force of gravity that attracts the object to other masses.The bigger and closer the other mass is, the stronger the force is, so the greater is theobject's weight.
No, weight is the amount of force an object exerts on another. For example you push down on the Earth with a weight of approximately 600 Newtons whilst on the moon you would weigh less and in empty space you would weigh nothing. Mass is the amount of matter an object occupies and does not vary with your location.
When the weight of any object surrounded by fluid is greater than the buoyant force on it, it sinks. (The buoyant force is just the weight of the fluid that would be in that space if the submerged object were not there.)
The mass of an object is the same wherever the object is (even outer space), but its weight depends on how the mass is affected by gravity. So it's convenient to measure weight using scales. If the object was sitting on some scales as they were both falling to earth the scales would show zero because there would be no pressure from the object.
An object that weighs 490 N on earth has a mass of 50 kilograms. In other places (on the moon, in space, etc.), the same object would have the same mass but different weight.
Weight is not a force. Weight is a phenomenon associated with a mass in a gravimetric field. It's actually the acceleration of a mass acted on by gravity, which is a force. A 100-pound rock would weigh nothing in deep space. It would be weightless. But the rock weighs 100 pounds on earth because of (mostly) the mass of the earth and also (just a tiny bit) because of the mass of the rock.