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What happen when weight of body on water equal to lifting force of water?

When the weight of the body is equal to the lifting force of water (buoyant force), the body will be in equilibrium and float at a specific level in the water. This is known as the Archimedes' principle. The buoyant force acting upwards is equal to the weight of the water displaced by the body, allowing it to stay afloat.


If the weight of an object is greater than the weight of the water that it displaces what will happen?

The object will sink because its weight is greater than the weight of the water it displaces. According to Archimedes' principle, the buoyant force acting on an object is equal to the weight of the fluid displaced, so if the object weighs more than the water it displaces, it will not be able to float.


If an object's density is is less than that of the fluid what will happen?

The object will float in the fluid because it is less dense than the fluid. The principle that governs this behavior is Archimedes' principle, which states that the buoyant force acting on an object is equal to the weight of the fluid displaced by the object.


What would happen if you dropped the object into the beaker while using the Archimedes' Principle method instead of submerging the object?

If you dropped the object into the beaker instead of submerging it, you would not be able to accurately measure the volume of the displaced water. The Archimedes' Principle method relies on the accurate measurement of the volume of water displaced by the object when it is fully submerged to determine its density. Dropping the object instead would introduce inaccuracies into the calculation.


What does Archimedes' principle help to explain?

When you have some information and you want to use it to find new information, a calculation is the way to do it. To set up the calculation, you use principles that tell you the connection between what you know and what you want to know. You haven't told us what information you have, or what information you want. All we have is Archimedes' Principle: An object surrounded by a fluid in a gravitational field experiences a buoyant force equal to the weight of the displaced fluid. If the information you have and the information you want both happen to involve things dropped in water or floating in air, then this is the best principle to use when you're setting up your calculation.


When the buoyant force on a submerged object is equal to the weight of the object how do the densities of the object and water compare?

Is is related through Archimedes principle, which states that the buoyancy force on an object is equal to the weight of liquid displaced by the submerged object. The weight of a volume of water is equal to the volume x density of water x the gravitational constant.FB = V ρ g


How do buoyant force happen?

The bouyant force is equal to the weight of the liquid displaced.


What has to happen for an object to float?

For an object to float, it must displace an amount of fluid equal to its weight. This is known as Archimedes' principle. If the weight of the object is less than the weight of the fluid it displaces, the object will float; if the object is denser than the fluid, it will sink.


What would happen to a System at equilibrium if more of one compound in a reaction were added according to le chateliers principle?

All concentrations would change (apex)


What will happen if the buoyant force of a liquid is less than the weight of an object placed in that fluid?

The object will sink in the fluid.


What would happen if the weight of an object was less than its buoyant force?

The object would float in a given liquid.


What happen if the buoyant force of a fluid is less than the weight of an object placed in the fluid?

The object will sink in the fluid.