What is the velocity of gasoline in a siphon tube after opening?

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The discussion revolves around calculating the velocity of gasoline in a siphon tube after it is opened, with specific parameters provided, including the height difference and cross-sectional area. A participant attempts to apply Bernoulli's equation but encounters difficulties in determining the correct height (y1) to use in their calculations. They initially calculate a velocity of 2.17 m/s, which they believe is incorrect, and seek clarification on the appropriate values for y1. Other participants emphasize that the pressure at both heights remains constant and suggest focusing on the correct height at the surface of the gasoline. The conversation highlights the importance of accurately identifying the reference points in fluid dynamics calculations.
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A siphon tube is filled with gasoline and closed at each end. One end is inserted into a gasoline tank 0.20 m below the surface of the gasoline. The outlet is placed outside the tank at a distance 0.45 m below the surface of the gasoline. The tube has an inner cross-sectional area of 3.8 × 10-4 m2. The density of gasoline is 680 kg/m3. Ignoring viscous effects, what is the velocity of the gasoline in the tube shortly after the tube is opened?

P1+.5*rho*v1^2+rho*g*y1=P2+.5*rho*v2^2+rho*g*y2
1 atm = 1.05E5

So I plugged in 1.05E5+0 (because v at top=0)+680*9.8*-.2 = 1.05E5+.5*680*v2^2+680*9.8*-.44
Completing this calculation gives v2= 2.17m/s which is incorrect. Any suggestions on what I am doing wrong?

And to find the flow rate I would use the equation Q=Av and use the provided area given with the v discovered?
 
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Hi smillphysics! :smile:

(have a rho: ρ and try using the X2 tag just above the Reply box :wink:)
smillphysics said:
… because v at top=0)+680*9.8*-.2 …

but -.2 isn't the height at the top :wink:

And to find the flow rate I would use the equation Q=Av and use the provided area given with the v discovered?

Yup! :biggrin:
 
What is the height at the top? I then tried to put .45-.2=.25 and used that as the height at the top but that is also incorrect.
 
Any help on this would be great- I can't seem to find the correct y1 to use.
 
smillphysics said:
Any help on this would be great- I can't seem to find the correct y1 to use.

Hi smillphysics! :smile:

(Sorry I didn't reply earlier :redface:)

y1 is at the surface

it doesn't matter where the top of the tube is, or what shape it is, the pressure at each height is the same. :wink:
 
I've used the same pressure at both points. I still don't know where I have gone wrong?
 
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