What is the mean rate of flow through the hole?

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Homework Help Overview

The discussion revolves around a problem involving the flow of mercury atoms through a small hole in a vessel, with a focus on calculating the mean rate of flow and the vapor pressure at a specific temperature. The subject area includes concepts from kinetic theory and gas laws.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss calculating the mean rate of flow by dividing the number of transported atoms by the time taken. There are questions about the relationship between pressure and the number of atoms, with attempts to apply the ideal gas law.

Discussion Status

Some participants have provided guidance on calculating the average rate of flow and suggested methods for finding the pressure. There is an ongoing exploration of the relationships between the variables involved, with no explicit consensus reached on the pressure calculation.

Contextual Notes

Participants are working under the constraints of a homework problem, with specific numerical values provided for reference. The discussion includes attempts to clarify the application of relevant physical laws and constants.

mmh37
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Hello everyone! I have trouble finding the answer to the following problem - this really bugs me. Can anyone give me a hint?

Here is the problem:

A vessel contains a hole of 0.1mm^2 above the liquid level (contains liquid mercury) at T=0°C. The vessel is contained within a very much larger vessel in which a very high vacuum is maintained. After 30 days it is found that 24mg of mercury have been lost from the inner vessel. The relative atomic mass of mercury is 201.


I have already calculated the average speed of the mercury atoms in the vapor to be

169 m/s

now the questions:

1) What is the mean rate of flow of mercury atoms through the hole?

2) hence calculate the vapour pressure at T=0°C


note:
the numerical answers are:

1) 2.76 * 10^13 atoms/sec

2) 2.5 * 10^(-2) N/m^2
 
Last edited:
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You only need to divide the number of atoms of mercury that have been transported by the total time it took for them to be transported to find the average rate of flow. The number you showed is correct.

To find the number of atoms, divide the gram molecular weight of Hg by the number of grams transported and multiply by Avogadro's number.
 
Thank you Tide!

That was indeed easier than expected!
However, I can still not calculate the pressure. I was trying to do it with the relationship p=nkT but that does not work. Would you mint giving me another hint?
 
thanks for this! Using the flux and the ideal gas law one can now find the pressure - the result it gives is correct!
 
Last edited:

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