What Determines the Pressure at Mid-Point in a Siphon Tube?

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SUMMARY

The pressure at the mid-point (point P) of a siphon tube is determined using Bernoulli's Equation and the Equation of Continuity. By assuming the initial flow rate (v1) to be zero and knowing the height of the water column, density of water, and atmospheric pressure, one can calculate the velocity (v2) at the exit of the tube. This velocity can then be used to find the pressure at point P, confirming that water behaves as an incompressible fluid in this scenario.

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Homework Statement


A wide vessel and a tube is connected as shown in the figure(see attachment). Water is filled inside vessel and tube. When tube is opened the water flows out as shown in the figure. The pressure at point P,at mid-point of the tube is (cross-section of the tube is very very small)

Homework Equations


Bernoulli Equation
Equation of Continuity

The Attempt at a Solution


Applying Bernoulli's Equation at the top of vessel and at point P and assuming datum level to be the base of the vessel

P_o + \rho gH+\frac{1}{2} \rho v_1 ^2 = P_p + \frac{1}{2}\rho v_2 ^2 + \rho g (-H)

Assuming area of cross section of vessel and tube be A and a and applying eqn of continuity

Av_1 = av_2

Substituting value of v1 in prev eqn

P_o + \rho gH+\frac{1}{2} \rho \dfrac{a^2 v_2 ^2}{A^2} = P_p + \frac{1}{2}\rho v_2 ^2 + \rho g (-H)

Now there comes another unknown variable v2 the value of which is unknown to me :(
 

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You might want to consider this as a simple siphon, and given the wording of the question, you should take the first flow rate to be zero. V1 = 0. You know the height between the surface of the water and the exit point, the density of water, atmospheric pressure, etc. The pressure at the exit is atmospheric also.

So you calculate v2 from that. Once you have v2, you can use the equation of continuity to get the velocity at point P (hint: it's super easy 'cause water is incompressible). Then you can work out what the pressure is at point P from there.

http://en.wikipedia.org/wiki/Siphon#Velocity
 
DeShark said:
You might want to consider this as a simple siphon, and given the wording of the question, you should take the first flow rate to be zero. V1 = 0. You know the height between the surface of the water and the exit point, the density of water, atmospheric pressure, etc. The pressure at the exit is atmospheric also.

So you calculate v2 from that. Once you have v2, you can use the equation of continuity to get the velocity at point P (hint: it's super easy 'cause water is incompressible). Then you can work out what the pressure is at point P from there.

http://en.wikipedia.org/wiki/Siphon#Velocity

Cool! That worked. Thanks for your help.
 

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