What is the pressure inside a submerged tube?

In summary, the gas has a pressure of 98.1X kPa inside the tube when the cylinder is pushed X cm under the water.
  • #1
mrjeffy321
Science Advisor
877
1
Technically, this isn’t really a home work problem, per se, but let’s try to solve it anyway, shall we.

We have a cylinder which at one end is closed off and at the other it is open. This cylinder has a total height H cm and diameter D cm (the real numbers aren’t all that important). Someone comes along and pushes the cylinder open end downward straight into a tub of water, trapping air inside as it descends into the murky deep. What is the pressure P_i inside the cylinder when the open ended bottom is X cm under the water and the outside pressure is P_o and water/air temperature of T?

So to help clarify the situation, I drew a picture (see attachment).

I think the first step to solving this to calculate the volume of the cylinder, so that is the area of the base times the height = H*pi*(D/2)^2 cubic cm
From this we can find out the number of moles of gas that is inside since the pressure inside starts out at the pressure above the water. Using the ideal gas law,
PV=nRT, we find that there (P_o * H*pi*(D/2)^2 )/RT moles of gas.

When the cylinder is pushed down into the water, the displaced water pushed back. So we can calculate the weight of water displaced would be its volume * its density (how lovely, water is 1 g/cc). So if we say the cylinder goes down X cm, then we calculate the volume of the displaced water the same as how we calculated the volume of the cylinder, so that is X*pi*(D/2)^2 cubic cm, which then gives us a back in the gas of (9.81)(X*pi*(D/2)^2 Newtons. This force is exerted over the entire area of the cylinder’s bottom, so that comes out to be ((9.81)(X*pi*(D/2)^2) / (pi*(D/2)^2), which simplifies to 9.81 * X N/cm^2 or 98100 * X Newtons per meter ^2 = 98100X Pascals = 98.1X kPa,
So now the total force is the new force of the water, plus the existing air pressure from above the water.

So now the gas has a pressure exerted on it, and using the ideal gas law again, the new volume should be,
V = nRT/P, and I’ll let you substitute it all in, since by now, everything is becoming highly symbolic and lengthy.
Since the volume of the gas gets smaller, the water rises up inside the tube to take its place, lessening ever, ever, ever so slightly the outside pressure, but this is so small we won’t worry about it.


So does this sound right?
In the end when the water is pushed up inside the tube, does that have an lessening effect on the pressure inside since that amount of water is no longer displaced by the gas, and this expands the air slightly, which intern displaces more water which increases the pressure, ……. Or no?

So I believe my end answer came out to be that when the cylinder is pushed X cm under the water, the pressure inside the tube is the pressure outside, P_o + 98.1X kPa,
Sound right?

I actually didn’t intend to solve this all here myself, but I was on a roll. Now I just need it confirmed.
 

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  • #2
You might want to note the tub is significantly larger than the tube, because if it isn't then the water level will rise as you push the tube further in, which can be significant if the tub isn't large.
 
  • #3
Yes, the "tub" would be more accurately described as a swimming pool; the change in water level is negligible.


EDIT:
You know what, my answer of 98.1X kPa doesn't make sense.
Since the pressure at sea level is 1 atmosphere which is about 101.3 kPa, lowering the tube 1 cm into the water would raise the pressure almost 1 whole atmosphere! that cannot be. Perhaps 1 meter, maybe, but not 1 cm.
(do you see why I don't trust myself with my initial answers)
 
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1. What is pressure in a submerged tube?

Pressure in a submerged tube refers to the force per unit area exerted by a fluid, such as water, on the walls of a tube that is submerged in it. It is a result of the weight of the fluid above the tube and is measured in units of pressure, such as pounds per square inch (psi) or pascals (Pa).

2. How is pressure affected by the depth of the submerged tube?

The deeper a tube is submerged in a fluid, the greater the pressure on its walls. This is because the weight of the fluid above the tube increases with depth, resulting in a higher force being exerted on the walls of the tube. Therefore, as the depth of the tube increases, so does the pressure.

3. What factors affect the pressure in a submerged tube?

The pressure in a submerged tube is affected by the depth of the tube, the density of the fluid, and the acceleration due to gravity. Other factors that may impact pressure include the shape and size of the tube, as well as any external forces acting on the fluid, such as wind or currents.

4. How does pressure change as the fluid density changes?

The pressure in a submerged tube is directly proportional to the density of the fluid. This means that as the density of the fluid increases, so does the pressure. Conversely, as the density of the fluid decreases, the pressure decreases as well.

5. What is the significance of pressure in submerged tubes?

The understanding of pressure in submerged tubes is important in various fields such as fluid mechanics, hydrodynamics, and engineering. It allows us to predict the forces exerted on structures submerged in fluids, such as dams, pipelines, and submarines, and to design them accordingly to withstand these pressures. It also has applications in understanding the behavior of marine life and the transport of nutrients and pollutants in aquatic environments.

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