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.
Pound weight.
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.
A scale.
The weight of a 100-pound object on Uranus would be about 91 pounds. This is because Uranus has a weaker gravitational pull compared to Earth.
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)
Yes, weight depends on the gravity of the planet. The weight of an object is different on a planet with a different gravity. An object has zero weight in outer space. No! An object does not have zero weight in outer space. Why? Because gravity exists in outer space.
A swallow would not be able to get off the ground while carrying a seven pound object - it would be crushed under the weight!
To float 1 pound in water, you would need to displace 1 pound of water. This is because of Archimedes' principle, which states that the buoyant force acting on an object is equal to the weight of the fluid displaced by the object. So you would need to displace enough water to counteract the weight of the 1 pound object and make it float.
An object's weight is determined by the force of gravity acting on it. In space, where gravity is significantly weaker or absent, an object's weight would be different than on Earth. However, the object's mass (amount of matter in it) remains constant regardless of its location.
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.
Your mass would still be 158 pounds in outer space. Mass is a measure of the amount of matter in an object and does not depend on gravity. Your weight, on the other hand, would be different in outer space because weight is the force of gravity acting on an object's mass.
The buoyant force acting on an object is equal to the weight of the fluid displaced by the object. For a 1000 pound object floating in water, the buoyant force acting on it would be equal to 1000 pounds, which is the weight of the water that it displaces.
The weight of a 100 pound object on Venus would be approximately 91% of its weight on Earth due to Venus having a slightly weaker gravitational pull than Earth. This means the object would weigh around 91 pounds on Venus.
An astronaut's weight in outer space would be close to zero because they are in a state of free-fall or microgravity, causing them to feel weightless. Weight is a measure of the force of gravity acting on an object, so without significant gravity in space, an astronaut would not experience weight as they would on Earth.
An object's weight changes in outer space because gravity is weaker compared to what we experience on Earth. Weight is a measure of the force of gravity pulling on an object, so in space, with less gravity, the object weighs less. However, the mass of an object stays the same because it is a measure of the amount of matter in the object, which does not change regardless of the gravitational force acting on it.