Fluid Mechanics - Highest Possible Water Can go in a Straw

nymetfan21

I need to figure out the highest possible height that water can be sucked up into a straw on Earth. You have unlimited water.

So far I've figured out that when you suck, you create a vacuum that allows the water to rise up due to the atmospheric pressure and the force is creates pushing down on the rest of the water, which forces to water up the tube. I also figure that the highest height will be when the force the air pressure creates = weight of the water.

I have been unable to figure out the equations to solve this problem to acutally get the height.

Thanks a lot for your help!

lightgrav

the pressure causes a Force = P times Area (cross-section A of tube)
the Volume of water in the tube = Area times height.

How do you get a weight from a Volume?

This is NOT advanced Physics ...
you should post questions like these in the INTRODUCTORY physics Area.

Cyrus

I believe its something like 32 feet.

gandharva_23

Can this be another form of the same question ?
a mercury barometer is under free fall . what would be the height of mercury column in the barometer ?

nymetfan21

lightgrav-

Your method would work if I knew the cross-sectional area. We arent given the cross-sectional area. All we are given is how high can the straw be. We have no other information.

Meir Achuz

All you need is \rho g H=P_{atmospheric}.

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lightgrav Recognitions: Homework Help	the pressure causes a Force = P times Area (cross-section A of tube) the Volume of water in the tube = Area times height. How do you get a weight from a Volume? This is NOT advanced Physics ... you should post questions like these in the INTRODUCTORY physics Area.

gandharva_23	Fluid Mechanics - Highest Possible Water Can go in a Straw Can this be another form of the same question ? a mercury barometer is under free fall . what would be the height of mercury column in the barometer ?

nymetfan21	lightgrav- Your method would work if I knew the cross-sectional area. We arent given the cross-sectional area. All we are given is how high can the straw be. We have no other information.

Meir Achuz Recognitions: Homework Help Science Advisor	All you need is \rho g H=P_{atmospheric}.