Does buoyancy depend on shape and volume?

In summary, the buoyant force, also known as buoyancy, is equal to the weight of the displaced fluid and depends on the volume of the submerged object. Orientation and shape may appear to affect buoyancy, but it is ultimately dependent on volume. The depth of submersion also plays a role in buoyancy for objects that change volume under pressure.
  • #1
physea
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If buoyancy is due to the pressure differential as we go deeper in a liquid, then that pressure differential should depend on the vertical dimension of the immersed object. Eg. if we have a long cylinder vertically placed, the pressure differential between its top surface and its bottom surface will be bigger than the differential of a shorter cylinder. Is this true?
 
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  • #2
physea said:
If buoyancy is due to the pressure differential as we go deeper in a liquid, then that pressure differential should depend on the vertical dimension of the immersed object. Eg. if we have a long cylinder vertically placed, the pressure differential between its top surface and its bottom surface will be bigger than the differential of a shorter cylinder. Is this true?
Asking Archimedes ... The buoyant force is equal to the weight of the displaced fluid. Buoyancy does depend on volume, not shape.

So how does this square with your analysis?
A cylinder of the same volume but of half the vertical dimension, will have twice the area on each end. Force is area × pressure. The shorter cylinder will have 1/2 the pressure difference, but the net force will be the same.
 
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  • #3
No, the volume doesn't have to be the same. Afterall, buoyancy only depends on density. The density of the two cylinders can be the same.

I hope you understand what I am trying to do. I am trying to correlate the hydrostatic pressure gradient and the buoyancy.
 
  • #4
physea said:
No, the volume doesn't have to be the same. Afterall, buoyancy only depends on density. The density of the two cylinders can be the same.

I hope you understand what I am trying to do. I am trying to correlate the hydrostatic pressure gradient and the buoyancy.
I was looking at the related concept of buoyant force.

As you say, buoyancy only depends on density. So do you actually have a question here?

Normally we assume that the liquid is not compressible . If the buoyant object is rigid, then how can the buoyancy depend upon hydrostatic pressure gradient?
 
  • #5
SammyS said:
I was looking at the related concept of buoyant force.

As you say, buoyancy only depends on density. So do you actually have a question here?

Normally we assume that the liquid is not compressible . If the buoyant object is rigid, then how can the buoyancy depend upon hydrostatic pressure gradient?

What does hydrostatic pressure gradient exerted to a buoyant object has to do with its rigidity?
 
  • #6
physea said:
No, the volume doesn't have to be the same. Afterall, buoyancy only depends on density. The density of the two cylinders can be the same.

I hope you understand what I am trying to do. I am trying to correlate the hydrostatic pressure gradient and the buoyancy.

All you need to do is to compare boats with the same displacement but different hull designs. A fin keel sailboat goes far deeper in the water than a flat bottomed barge with the same displacement.

@SammyS gave you the correct answer.
SammyS said:
Asking Archimedes ... The buoyant force is equal to the weight of the displaced fluid. Buoyancy does depend on volume, not shape.
 
  • #7
If you take a hollow cylinder and chuck it in the water, it will float, laying horizontally. It will experience the same buoyant force whichever way you orientate it (say you restrain it in a vertical mesh tube) because it will displace the same volume of water. But the Potential Energy will be at its lowest with the cylinder horizontal. You need to do work on it to make it float upright, despite the fraction of water that's displaced being the same. Orientation and shape can appear to have an effect on upthrust when they don't actually.
 
  • #8
physea said:
What does hydrostatic pressure gradient exerted to a buoyant object has to do with its rigidity?
Well, if it's not rigid it will be compressed somewhat by the hydrostatic force, thus its buoyancy will be reduced.
 
  • #9
physea said:
No, the volume doesn't have to be the same. Afterall, buoyancy only depends on density. The density of the two cylinders can be the same.

I hope you understand what I am trying to do. I am trying to correlate the hydrostatic pressure gradient and the buoyancy.
Well I see that I was too hasty with my previous reply.

SammyS said:
I was looking at the related concept of buoyant force.
...
After checking for a more technical definition of buoyancy, I see that it is generally referred to as the buoyant force.

Therefore, buoyancy has everything to do with the volume of a submerged object.
 
  • #10
SammyS said:
Well, if it's not rigid it will be compressed somewhat by the hydrostatic force, thus its buoyancy will be reduced.
Hence, rising bubbles get bigger and bigger and rise faster and faster.
 
  • #11
It is important to remember that there are two forces acting on an object in or on a liquid. The first is the weight of the object, the second is the weight of the liquid displaced. Subtract the weight of the displaced liquid from the weight of the object and you can tell if the object can float (result < 0), if it's neutral (result = 0) or if it will sink (result > 0). In the case of an object that changes volume under pressure the depth of submersion makes a difference because it changes the volume of the object.
 

Related to Does buoyancy depend on shape and volume?

1. Does the shape of an object affect its buoyancy?

Yes, the shape of an object can affect its buoyancy. Objects with a greater surface area will displace more water and therefore have greater buoyancy compared to objects with a smaller surface area.

2. How does volume play a role in buoyancy?

Volume is a key factor in determining buoyancy. The larger the volume of an object, the more water it will displace and the greater its buoyancy will be.

3. Can an object with a large volume but a small shape still float?

Yes, an object with a large volume but a small shape can still float. The buoyant force acting on an object is determined by its volume, not its shape. However, the shape can affect how easily the object can stay afloat and maintain its position in the water.

4. How does the density of an object affect its buoyancy?

The density of an object plays a crucial role in determining its buoyancy. Objects with a lower density than water will float, while those with a higher density will sink. This is because objects with a lower density will displace more water and experience a greater upward force, making them more buoyant.

5. Can the buoyancy of an object change?

Yes, the buoyancy of an object can change. It can be affected by factors such as changes in the object's shape, volume, or density, as well as changes in the surrounding environment, such as changes in water pressure or temperature. Additionally, adding or removing weight from an object can also affect its buoyancy.

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