How Much Air Is Needed to Lower Mercury in a Barometer from 75cm to 59cm?

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Homework Help Overview

The problem involves a barometer with mercury at a height of 75cm that needs to be lowered to 59cm by introducing air into the vacuum above the mercury. The context includes understanding the relationship between pressure, volume, and the properties of gases and liquids.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • Participants discuss using Boyle's Law and pressure equations to relate the change in mercury height to the volume of air needed. There is uncertainty about the density of air and how to approach the problem given the fixed volume of the vacuum.

Discussion Status

Some participants have provided guidance on using pressure equations to find the necessary change in pressure and volume of air. There is ongoing exploration of the implications of the problem's wording and whether the air can be introduced without pressurizing it.

Contextual Notes

Participants note the assumption of room temperature for density calculations and question the feasibility of the air filling the vacuum while maintaining atmospheric pressure.

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Homework Statement



The mercury in a barometer of cross-sectional area 1cm square has a height of 75cm. There is vacuum above it, of length 9cm.

What is the volume of air, measured at atmospheric pressure, that would have to be admitted to cause the mercury column to drop to 59cm?


Homework Equations





The Attempt at a Solution



Should I use Boyle's Law, pV = constant?

Or Pressure = hpg? But problem is that I don't have the density of air?

Very confused, despite thinking for more than a day. Can anyone please kindly help?
 
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If that's all that is given in the problem statement then I think it's fair to say you're working with room temp which should give you densities. When it asks how much air would need to be admitted is it saying into the vacuum to not make it a vacuum anymore?
 
abrewmaster said:
If that's all that is given in the problem statement then I think it's fair to say you're working with room temp which should give you densities. When it asks how much air would need to be admitted is it saying into the vacuum to not make it a vacuum anymore?

Thank you for the reply :)

Yes, you are right. Air is introduced into the empty space above the mercury, so that the empty space is no longer vacuum.

Your help is greatly appreciated!
 
Ok, so you can calculate the change in pressure that would cause the mercury to move from 75cm to 59cm by using the equation you showed P=hρg. After finding that you can calculate how much air would be needed to go on top of it by using that same amount of pressure. The odd thing with how this question is worded is that it sounds like they want you to not pressurize the air but have it fill that fixed volume (because of the 9cm of vacuum above it) which at least initially seems impossible since air has such a smaller density than mercury but who knows. Is this the way the question was asked?

Edit: For clarity on my concern I mean that you have two fixed variables for the air that's being added. It has to fit in a defined volume yet also stay at a constant pressure (atmospheric) and you have to come up with how much volume would be needed? The question doesn't seem to make much sense.
 

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