Q&A

# what does buoyant force depend on

Size or volume of the body immersed in a fluid: The buoyant force is directly proportional to the size or volume of the body immersed in a fluid. Density of the fluid in which the body is immersed: The buoyant force is directly proportional to the density of the fluid in which the body is immersed.

• ### State the factors on which buoyant force depends. – Toppr

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The factors on which buoyant force depends are: Volume of the liquid displaced; Volume of the body submerged in liquid; Density of the liquid
• Complete step by step answer: Firstly, we must know what buoyant force is. It is an upward force that acts on a body when it is immersed in a fluid. We …
• Buoyant force depends upon the weight of water displaced by the object immersed in it. Buoyant force,. Fb = (Vi)(Pw)g. Where,.
• ## What are the two factors affecting the buoyant force?

The factors on which buoyant force depends are: Volume of the liquid displaced. Volume of the body submerged in liquid.

## Does buoyant force depend on mass or volume?

The buoyant force depends on the mass of the object. The buoyant force depends on the weight of the object. The buoyant force is independent of the density of the liquid. The buoyant force depends on the volume of the liquid displaced.

## Does buoyant force depend on height?

Summary: Buoyant force is independent of height of fluid column above the object , whereas the pressure on the same object which is simply (force/area) is dependent on height, But Area in both cases is same ,How is this possible?

## Is buoyancy dependent on volume?

Buoyancy depends on volume and so an object’s buoyancy reduces if it is compressed and increases if it expands. If an object at equilibrium has a compressibility less than that of the surrounding fluid, the object’s equilibrium is stable and it remains at rest.

## Does volume affect buoyant force?

How does volume affect buoyancy? Buoyancy force is directly related to the volume of fluid displaced hence, greater the displaced fluid volume, greater would be the buoyancy.

## How does the mass and volume affect buoyancy?

In essence, the buoyancy of an object in a fluid depends on the relative densities (mass per volume) of the object and the fluid. If the object is more dense than the fluid, it will “sink.” Conversely, if the object is less dense than the fluid it will “rise” or “float”.

## How is buoyant force related to mass?

If an object’s average density is less than that of the surrounding fluid, it will float. The reason is that the fluid, having a higher density, contains more mass and hence more weight in the same volume. The buoyant force, which equals the weight of the fluid displaced, is thus greater than the weight of the object.

## What does the buoyant force depend on?

Size or volume of the body immersed in a fluid: The buoyant force is directly proportional to the size or volume of the body immersed in a fluid. Density of the fluid in which the body is immersed: The buoyant force is directly proportional to the density of the fluid in which the body is immersed.

## Does buoyant force depend on size?

The buoyant force depends on the mass of the object. The buoyant force depends on the weight of the object. The buoyant force is independent of the density of the liquid. The buoyant force depends on the volume of the liquid displaced.

## Why does the buoyant force on an object not change with depth?

Because the volume is the same at any depth, and the density of water is the same at any depth, the total mass of displaced water (mass = volume x density) is the same at any depth—making the buoyant force constant.

## Does a higher density mean a higher buoyant force?

For a floating object, the buoyancy force is equal to the gravity force on the object. Hence, the buoyancy force doesn’t change with a denser fluid. Instead the displaced volume decreases to cancel out the effect of the increased fluid density.