phys16 – lecture 30 fluids: bernoullis principle november 12, 2010 on a windy day in 1735, a new...
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PHYS16 – Lecture 30
Fluids: Bernoulli’s Principle November 12, 2010
On a windy day in 1735, a new wig gives Bernoulli an idea.
Outline for Fluids
• Pressure and Pascal’s Principle• Buoyant Force and Archimedes’ Principle• Fluid dynamics– Ideal Fluids– Equation of Continuity– Bernoulli’s Equation
Revisiting Buoyant Force…
Archimedes’ Principle
• Buoyant force = the weight of the water displaced
gVgmF
FmgFF
underwaterobjectfluiddisplacedfluidB
B
21
http://www.open2.net/open2static/source/file/root/0/30/19/124156/pressure_cube_b.jpg
Sink or Float?
• Floating requires buoyant force to equal gravity
gVgV
FF
objectobjectunderwaterobjectfluid
GB
http://mcat-review.org/fluids-solids.php
Questions…
1) Does the buoyant force change as you go deeper underwater?
2) Does the buoyant force change as you go higher in the atmosphere?
3) Is buoyant force on Diet Coke vs. Coke different? Will Diet Coke or Coke float higher?
No, assume constant density
Yes, changing density
Buoyant force is the same, gravitational force is differet so Diet Coke floats higher…
Demo…
• Rock in boat• Sinking boat• Inverting weight + Styrofoam system• Copper ball vs. wood ball
Ideal Fluids
Ideal Fluids
• Incompressible – density is a constant • Nonviscous – ignore frictional effects• Irrotational – doesn’t rotate• Laminar – no acceleration
Streamlines represent fluid flow
Ideal Fluids
• Mass is conserved• Energy is conserved• Momentum is conserved• Continuum hypothesis is true – properties
defined at infinitesimal points (density, pressure, temperature, etc.)
• Water – can be turbulent (waterfall not ideal, ideal in a slow moving river)
• Air – compressible (piston not ideal, ideal in a laminar wind)
• Honey – viscous fluid such that drag forces can’t be neglected (Not usually ideal)
• Blood – pulsatile flow, filled with proteins/cells (ideal in large arteries or veins, not capillaries)
Which fluids are ideal?
• Water
• Air
• Honey
• Blood
Fluid Dynamics
Equation of Continuity
• For an ideal fluid flowing in a pipe, the volume flow rate through the pipe is constant
2211
constant
vAvA
Avt
V
Narrower sectionLarger speed
Wider sectionSmaller speed
Example: Water out of faucet
• Why does the stream of water flowing from a faucet often get more narrow as the water falls?
Gravity accelerates water so velocity increases. If velocity goes up, then area goes down…
http://thegoldenspiral.org/wp-content/uploads/2008/10/faucet_waterglass.jpg
Example: Arterial branching
• An artery branches into two smaller arteries, each with half the diameter of the first. What is the velocity in the smaller artery compared to the larger artery?
A) HalfB) SameC) TwiceD) Four times
http://cardiovascres.oxfordjournals.org/content/65/3/619/F4.small.gif
Bernoulli’s Equation
• For an ideal fluid flowing in a pipe, pressure in the pipe is related to the velocity and height of fluid
2222
2111 2
1
2
1vghpvghp
Example: Two sheets in the wind?
• What happens if I take two sheets of paper, separate them by 1” and blow between them?
A) sheets will move apartB) sheets will come togetherC) sheets will stay at same spots
http://www.practicalphysics.org/imageLibrary/jpeg273/735.jpg
Example: Blood Pressure
• What would happen if the doctor took a blood pressure reading at the wrist instead of on the bicep?
A) Blood pressure would be higherB) Blood pressure would be lowerC) Blood pressure would be the same
http://www.omron.com
Example: Aneurysm
• In an aneurysm the arterial wall weakens and the diameter increases. Why does this increase the chance of rupture?
http://www.nlm.nih.gov/medlineplus/ency/images/ency/fullsize/18072.jpg
A increases, v decreases, P increases
Example: Water jets out of a bottle
• Which jet will have the largest range?
12345
Main Points
• Buoyant force
• Ideal fluid is incompressible, laminar, nonviscous, and irrotational
• Equation of continuity
• Bernoulli’s Equation
gVF underwaterobjectfluidB
constant Av
constant 2
1 2 vghp
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