FInding distance from top of diving bell to lake surface

[Moose100]

Homework Statement

A cylindrical diving bell with open bottom and closed top 12.0m high is lowered into a lake until water within the bell rises 8.0m from the bottom end. Determine the distance from the top of the bell to the surface of the lake.

Homework Equations

I actually solved this problem through trial and error. the fundamental issue I have is defining the ratio volumes and why does this work despite it seeming to make sense or does it?
4Va/12 =8Vw/12; (Va=Volume of air, Vw=Volume of Water.)<<<Why does this work? Because it makes more sense to have 2Vw=Va

The Attempt at a Solution

PaVa=PwVw
Plugging in "equivalency" in part 2;
Pa2Vw=PwVw
2Pa=Pw
2(100kpa)=Pw
Pw=200kpa

Pw=pGh
h=Pw/pG
h=200kpa/(1000kg/m3)(9.8ms-2)
h=20.6
Height from bell surface to top of lake
20.6 - 4-=16.6m

Schaums College physics problem 16.37

 

[haruspex]

A bit hard to follow without definitions of the variables (Pw? Whereabouts?).
Clearly the air is at 3 atmospheres of pressure.

why does this work despite it seeming to make sense

Wouldn't it be more surprising if it worked but didn't make sense?

 

[Moose100]

A bit hard to follow without definitions of the variables (Pw? Whereabouts?).
Clearly the air is at 3 atmospheres of pressure.

Wouldn't it be more surprising if it worked but didn't make sense?

Pw=pressure of water
Pa=pressure of air
p=density of water
Va=volume air
Vw=Volume water

How is it at 3 atm?

 

[haruspex]

Pw=pressure of water
How is it at 3 atm?

Yes, but pressure of water where, exactly?
How has the air volume changed since leaving the surface?

 

[Moose100]

Pw=pressure of water
Pa=pressure of air
p=density of water
Va=volume air
Vw=Volume water

How is it at 3 atm?

yes it makes NO sense is what i meant ton extent.

 

[Moose100]

Yes, but pressure of water where, exactly?
How has the air volume changed since leaving the surface?

In the tube.

The air volume has decreased

 

[Moose100]

The tube is submeged open end down and acquires an 8m influx of water

 

[haruspex]

In the tube.

The air volume has decreased

The water pressure will not be the same everywhere in the bell.
In what ratio has the air volume decreased?

 

[Moose100]

A third?

The pressure changes with depth

 

[haruspex]

A third?

The pressure changes with depth

Right. So what will that do to the air pressure? And how would you now define your Pw?

 

[Moose100]

Vw=2/3 Pressure of water decreases by 1/3

 

[haruspex]

Vw=2/3 Pressure of water decreases by 1/3

Eh? The pressure of what water where decreases by a third? And why should it decrease at all? Water is virtually incompressible, and if you could reduce its volume by a third by compression the pressure would be something to be found inside a star.
How do you normally calculate the pressure at a given depth in a liquid? Why should it be any different here?

 

[Moose100]

right

 

[Moose100]

pressure of liquid is pgh

 

[Moose100]

So volume of air decreases by a third. Pw=pgh

PaVa/3=pgh(Vw)

 

[haruspex]

So volume of air decreases by a third. Pw=pgh

PaVa/3=pgh(Vw)

Not by a third.
Not sure what your equation is saying, but it looks wrong to me. Why should it be true? What principle are you applying?

 

[Moose100]

The one I applied was this 4Va/12 =8Vw/12; I don't know why it is right it may not be though.

The tube is 12m long the water goes up 8m leaving 4m of empty air at the top. I figured 4/12 is air and 8/12 is water?

LOL See I told u I was lost.

 

[Moose100]

Pressure of Water (Pw)= pgh
So using Boyles Law

PwVw=PaVa

pgh(Vw)=PaVa?

 

[Moose100]

Hmm we can't apply boyles law really b/c like you said we can't compress water like a gas?

I know that;

Ptotal=Patm+ pgh

 

[haruspex]

Hmm we can't apply boyles law really b/c like you said we can't compress water like a gas?

I know that;

Ptotal=Patm+ pgh

That's better. But what would be a useful value for h in the present context, i.e. whereabouts would you like to know what the pressure in the water is?

 

[Moose100]

The top of the water inside the bell to the surface of the ocean?

 

[Moose100]

Oops! DOuble post!

 

[haruspex]

Top most of the water in the bell to the top of the ocean?

Yes. And what can you say that pressure will be equal to?

 

[Moose100]

Yes. And what can you say that pressure will be equal to?

Pressure of water= pgh
We already know the atm pressure as given by the problem 1.00atm or 100kpa

Hmm still got to get total pressure

Ptotal= 1atm + 1000kg/m3)(9.8m/s-2)(h)

 

[Moose100]

So that Ptotal is also equal to the air pressure in the tube at depth h?

 

[haruspex]

Pressure of water= pgh
We already know the atm pressure as given by the problem 1.00atm or 100kpa

Hmm still got to get total pressure

Ptotal= 1atm + 1000kg/m3)(9.8m/s-2)(h)

Yes, but I mean what equation can you write equating this pressure to another?

 

[Moose100]

Boyles law? As it relates to the changes in volume before and after submerging.

 

[haruspex]

So that Ptotal is also equal to the air pressure in the tube at depth h?

Right. And how does that relate to atmospheric pressure (according to Boyle)?

 

[Moose100]

Right. And how does that relate to atmospheric pressure (according to Boyle)?

I edited above

 

[Moose100]

Ok I was thinking on this earlier and had it but wasnt confident I figured it out with your help...It think

My mistake was using boyles law on water as if it was a gas. there's a before and after volume for the air in the tube. One that we can find with Boyles law. But we can also find the after air pressure using Pascual(?)

since they are equal we solve for h to find the pressure (basically the interface of air and water.), and subtract that from the column of air to get the distance between top of tube and surface of lake.