Fluid Manometer Question: Determining Height and Pressure

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The discussion centers on solving a fluid manometer problem involving water and kerosene. The first part of the homework was successfully solved, yielding a height of 91.1 mm. The second part, which requires determining the new height when a gauge pressure of 98 Pa is applied, posed confusion regarding whether the height remains constant. Clarification was provided that while the total length of the kerosene column remains unchanged, the height does vary with the applied pressure. The conversation concluded with the participant gaining understanding of the relationship between the variables involved.
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Homework Statement



The manometer illustrated in Fig. Q2 contains water and kerosene (specific
gravity of 0.82) as indicated. With both ends of the U-tube open the height
H0 =20 mm.
(i) Determine the height, h , when both ends of the tube are open. [4]
(ii) Determine the new value of H0 when a gauge pressure of 98 Pa is
applied to the right end of the U-tube. [6]


2. The attempt at a solution

I can do part (a), getting an answer of 91.1mm.

However, I am stuck on part (b).. I assume I cannot keep h constant and see the variation in Ho with the added pressure?

I am unsure how to work out the two unknowns h and Ho with only the one equation.
 

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In part (i), you determined h, so, from the figure, you now know that total length of the kerosene column. This doesn't change in part (ii).
 
Are you sure h doesn't change? In my lecturers solutions it does change.. I don't really understand his solutions but maybe you can explain?

I have attached his solution.
 

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LauraMorrison said:
Are you sure h doesn't change? In my lecturers solutions it does change.. I don't really understand his solutions but maybe you can explain?

I have attached his solution.

I didn't say h doesn't change. I said that the total length of the kerosene column doesn't change.

Chet
 
Oh I see, sorry I didn't read that carefully enough. Thank you I get it now! :)
 

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