for a given object the beyond force in liquids of different is
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It doesn't necessarily, I can give some examples.
1) if it is denser than the fluid. It will not float, but it will experience different amounts of buoyancy force.
2) if it is lighter than the fluid and was at the bottom of the fluid & then released, it will accelerate upwards faster in a denser fluid, because of the greater buoyancy force.
3) if it is held down by a rope, the rope will have more tension in a fluid much denser than the object because of the greater buoyancy force.....
Etc.
When an object is floating then the buoyancy force equals the weight of the object. This is because the object has reached equilibrium. The weight of water it displaces (which = the buoyancy) is the same as its weight. In a denser fluid, less of the object is in the fluid (it displaces a smaller volume which still weighs as much as it does).
If an object is displacing more that this, it moves upwards, if less it falls downwards. This causes a bobbing motion around the surface, which eventually settles down to the equilibrium point thanks to friction.
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1) if it is denser than the fluid. It will not float, but it will experience different amounts of buoyancy force.
2) if it is lighter than the fluid and was at the bottom of the fluid & then released, it will accelerate upwards faster in a denser fluid, because of the greater buoyancy force.
3) if it is held down by a rope, the rope will have more tension in a fluid much denser than the object because of the greater buoyancy force.....
Etc.
When an object is floating then the buoyancy force equals the weight of the object. This is because the object has reached equilibrium. The weight of water it displaces (which = the buoyancy) is the same as its weight. In a denser fluid, less of the object is in the fluid (it displaces a smaller volume which still weighs as much as it does).
If an object is displacing more that this, it moves upwards, if less it falls downwards. This causes a bobbing motion around the surface, which eventually settles down to the equilibrium point thanks to friction.
If you satisfy from My answer then Follow me !
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