Max Diam Tube Filled w/ Viscous Liquid: Deriving Formula

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In summary: Surface tension has units of force per unit length. You would be trying to equate the total surface tension from the fluid skin at the circumference of the tube with the force of gravity on the fluid in the tube. [This ignores the contribution from surface tension on the top surface that could be positive or negative depending on whether the tube material is wettable. Can you write down a formula for the down force in terms of the density of the fluid, the acceleration of gravity, the diameter of the tube and the height of the tube? Can you write down a formula for the up force from surface tension in terms of the diameter of the tube and the surface tension of the fluid? If you equate these, can you solve for diameter in terms of the
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etherist
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Formula for the maximum diameter of vertical tube(open on top and bottom) filled with viscous liquid (such as oil) as a function of viscosity and length so that the liquid remains inside. How the formula is derived? Thanks a lot.
 
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etherist said:
Formula for the maximum diameter of vertical tube(open on top and bottom) filled with viscous liquid (such as oil) as a function of viscosity and length so that the liquid remains inside. How the formula is derived? Thanks a lot.

It should not be a function of viscosity but rather a function of surface tension.

Surface tension has units of force per unit length. You would be trying to equate the total surface tension from the fluid skin at the circumference of the tube with the force of gravity on the fluid in the tube. [This ignores the contribution from surface tension on the top surface that could be positive or negative depending on whether the tube material is wettable.

Can you write down a formula for the down force in terms of the density of the fluid, the acceleration of gravity, the diameter of the tube and the height of the tube?

Can you write down a formula for the up force from surface tension in terms of the diameter of the tube and the surface tension of the fluid?

If you equate these, can you solve for diameter in terms of the other parameters?
 
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Oh jbriggs444 thanks, it must be surface tension. I had solve the equation, i thought it was different in capillary tube formula since the bottom is open but as you explain it appears that it is the same. I thought the lifting force in this set-up depends on area, since the liquid is sticking on the inside surface but i realize it is wrong. Thanks a lot.
 

Related to Max Diam Tube Filled w/ Viscous Liquid: Deriving Formula

1. What is the purpose of filling a tube with a viscous liquid in the "Max Diam Tube Filled w/ Viscous Liquid: Deriving Formula" experiment?

The purpose of filling a tube with a viscous liquid in this experiment is to observe the behavior and flow of the liquid within the tube. This can help us understand the properties of the liquid and derive a formula to predict its behavior in different conditions.

2. What factors affect the flow of the viscous liquid in the tube?

The flow of the viscous liquid in the tube is affected by several factors, including the viscosity of the liquid, the diameter of the tube, the density of the liquid, and the pressure difference between the ends of the tube.

3. How does the viscosity of the liquid affect the flow rate in the tube?

The viscosity of the liquid directly affects the flow rate in the tube. Higher viscosity liquids have a slower flow rate, while lower viscosity liquids have a faster flow rate. This is because more viscous liquids have a higher resistance to flow, while less viscous liquids have a lower resistance to flow.

4. Can the derived formula be applied to all types of viscous liquids?

No, the derived formula is specifically for this experiment and may not be applicable to all types of viscous liquids. The formula may need to be modified or adjusted for different types of liquids with varying properties.

5. How can this experiment be useful in real-world applications?

This experiment and the derived formula can be useful in understanding and predicting the behavior of viscous liquids in various industrial and scientific processes. For example, it can be applied in the design of pipes and pumps for transporting viscous fluids, or in the production of certain products that involve the use of viscous liquids.

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