What will happen to capillary rise effect if we take capillary to

In summary, removing the effects of gravity can cause various changes in fluid behavior such as the fluid not remaining confined within a container, difficulties with transportation in porous media, and the possibility of a porous filter barrier blocking fluid flow.
  • #1
phymatter
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what will happen to capillary rise effect if we take capillary to space g=0?
 
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  • #2


https://www.youtube.com/watch?v=XXsf9LggIuA
https://www.youtube.com/watch?v=W8Tur7gASDw
Apparently that happens.
 
  • #3


phymatter said:
what will happen to capillary rise effect if we take capillary to space g=0?

Taking away gravity (more precisely, removing buoyancy effects) can cause all kinds of interesting behavior. It's possible that the fluid will not remained confined within a container- if the fluid does not wet the container walls, the fluid may be driven out of the container.

It's also a problem for porous media- a specific application is soil/hydroponic media- the fluid surface is not uniquely defined, and so water may not get transported to the roots of a plant. If there is a porous filter barrier in a fuel or water line, the fluid may not pass through unless there is sufficient pressure to drive it.
 

1. What is capillary rise effect?

Capillary rise effect is the phenomenon where a liquid is drawn upwards against gravity due to the attractive forces between the liquid molecules and the surface of a solid material, such as a narrow tube or pore.

2. How does the size of the capillary affect capillary rise?

The smaller the capillary size, the higher the capillary rise. This is because smaller capillaries have a larger surface area per unit volume, which increases the attractive forces between the liquid and the capillary walls.

3. What factors influence the capillary rise effect?

The capillary rise effect is influenced by the surface tension of the liquid, the density of the liquid, the diameter of the capillary, and the angle of contact between the liquid and the capillary walls.

4. What happens to the capillary rise effect if we take capillary to a higher altitude?

The capillary rise effect decreases with increasing altitude. This is because at higher altitudes, the atmospheric pressure decreases, resulting in a decrease in the pressure difference between the top and bottom of the capillary, which is necessary for the capillary rise effect to occur.

5. Can the capillary rise effect be reversed?

Yes, the capillary rise effect can be reversed by applying an external force, such as gravity or centrifugal force, that overcomes the attractive forces between the liquid and the capillary walls. This is known as the capillary depression effect.

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