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Explain why the weight of an object is not the same on different points on the earth?
Weight is a measurement of the gravitational attraction of the earth to the mass of a body. Since the mass stays the same wherever the body is, the gravitational attraction must change from location to location.
A body weighing 120 grams at sea level, would weigh slightly less as it was moved away from the center of gravity of the earth, for example, up a mountain. It would weigh slightly more the further below sea level it was moved.
Suspending (or immersing) a body in water would also change its apparent weight, though this would be a reaction to the bodies buoyancy rather than a change in gravitational attraction.
- wjs1632 -
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What factors give an object weight?
An object's weight is determined by the gravitational force acting on it. The weight of an object depends on its mass and the acceleration due to gravity at that location. Weight is a force that points in the direction of gravity.
EXPLAIN the difference between the mass of an object and the weight of an object No definitions?
Mass is a measure of how much matter an object has. Weight is a measure of how strongly gravity pulls on that matter.
The weight of an object varies with the what?
The weight of an object varies with the gravitational force acting on it. On Earth, the weight of an object is determined by the acceleration due to gravity (9.81 m/s^2) and the mass of the object. In different gravitational fields, such as on the Moon or Mars, the weight of the object would be different.
What is apparent weight how the apparent weight is different for different condition?
Apparent Weight is the weight of an Object in a SPECIFIC Gravitational condition, such as on Earth. The same object on the Moon would have a different (Lesser) Apparent Weight. The only constant is the Mass of the Object in both of those locations.
What phenomenon did Archimedes explain.?
Archimedes discovered that when an object floats in a liquid, it will displace a volume of that liquid which is equal in weight to the object.
Why can an object have the same mass on different planets but its weight could be different?
Mass takes up space, so it will take up the same amount no matter where you are. Weight is dependent on the force of gravity pushing you to the ground. With different forces of gravity on each planet your weight will differ.
Can an object have zero weight?
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.
Is it possible for an objects weight to change while its mass remains constant explain?
Yes, an object's weight can change even if its mass remains constant. This happens if it moves to a place with different gravity. An object on the Moon would weigh only one sixth of what it did on Earth.
What causes the weight of an object?
The weight of an object is caused by the gravitational force acting on it. The weight of an object is the force exerted by gravity on the mass of the object. It is measured in units of force, such as pounds or newtons.
Is it possible for an object's weight to be different from its mass When will it might happen?
You can't compare the mass and the weight. They are different types of things, so comparing them is like comparing, say, a unit of length (like the meter, or foot) with a unit of time (like the second, or hour). Therefore, it doesn't make sense of saying that the mass is "equal to" or "different from" the weight.
How is weight different from mass and what are the key distinctions between the two?
Weight and mass are two different properties of an object. Mass is the amount of matter in an object, while weight is the force of gravity acting on an object's mass. The key distinction is that mass is a measure of the amount of substance in an object, while weight is the force exerted on that mass due to gravity.
What may be different when an object has the same mass anywhere?
The answer is weight.
