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Chapter 14
Fluid Mechanics
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Fluids
• Fluids (Ch. 6) – substances that can flow (gases, liquids)
• Fluids conform with the boundaries of any container in which they are placed
• Fluids lack orderly long-range arrangement of atoms and molecules they consist of
• Fluids can be compressible and incompressible
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Blaise Pascal(1623 - 1662)
Density and pressure
• Density
• SI unit of density: kg/m3
• Pressure (cf. Ch. 12)
• SI unit of pressure: N/m2 = Pa (pascal)
• Pressure is a scalar – at a given point in a fluid the measured force is the same in all directions
• For a uniform force on a flat area
V
mV
0lim
A
FP
A
0lim
A
FP
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Atmospheric pressure
• Atmospheric pressure:
• P0 = 1.00 atm = 1.013 x 105 Pa
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Fluids at rest
• For a fluid at rest (static equilibrium) the pressure is called hydrostatic
• For a horizontal-base cylindrical water sample in a container
mgFF 12 gyyAAPAP )( 2112 gyyPP )( 2112
hgPP 0
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Fluids at rest
• The hydrostatic pressure at a point in a fluid depends on the depth of that point but not on any horizontal dimension of the fluid or its container
• Difference between an absolute pressure and an atmospheric pressure is called the gauge pressure
hgPPPg 0
hgPP 0
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Chapter 14Problem 12
The tank is filled with water 2.00 m deep. At the bottom of one sidewall is a rectangular hatch 1.00 m high and 2.00 m wide that is hinged at the top of the hatch. (a) Determine the force the water causes on the hatch. (b) Find the torque caused by the water about the hinges.
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Measuring pressure
• Mercury barometer
• Open-tube manometer
hgP 0
0;
;0
22
011
Phy
PPygyyPP )( 2112
PPhy
PPy
22
011
;
;0gyyPP )( 2112
hgPPPg 0
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Pascal’s principle
• Pascal’s principle: A change in the pressure applied to an enclosed incompressible fluid is transmitted undiminished to every portion of the fluid and to the walls of its container
• Hydraulic lever
• With a hydraulic lever, a given force applied over a given distance can be transformed to a greater force applied over a smaller distance
2
2
1
1
A
F
A
FP
2
121 A
AFF
2211 xAxAV
1
221 A
Axx
11 xFW 22 xF
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Archimedes’ principle
• Buoyant force: For imaginary void in a fluid
p at the bottom > p at the top
• Archimedes’ principle: when a body is submerged in a fluid, a buoyant force from the surrounding fluid acts on the body. The force is directed upward and has a magnitude equal to the weight of the fluid that has been displaced by the body
gmB f
Archimedes of Syracuse
(287-212 BCE)
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Archimedes’ principle
• Sinking:
• Floating:
• Apparent weight:
• If the object is floating at the surface of a fluid, the magnitude of the buoyant force (equal to the weight of the fluid displaced by the body) is equal to the magnitude of the gravitational force on the body
Bmg
Bmg
Bmgweightapparent
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Chapter 14Problem 28
A spherical aluminum ball of mass 1.26 kg contains an empty spherical cavity that is concentric with the ball. The ball barely floats in water. Calculate (a) the outer radius of the ball and (b) the radius of the cavity.
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Motion of ideal fluids
Flow of an ideal fluid:
• Steady (laminar) – the velocity of the moving fluid at any fixed point does not change with time (either in magnitude or direction)
• Incompressible – density is constant and uniform
• Nonviscous – the fluid experiences no drag force
• Irrotational – in this flow the test body will not rotate about its center of mass
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Equation of continuity
• For a steady flow of an ideal fluid through a tube with varying cross-section
xAV tAv tvAtvA 2211
2211 vAvA
constAv
Equation of continuity
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Bernoulli’s equation
• For a steady flow of an ideal fluid:
• Kinetic energy
• Gravitational potential energy
• Internal (“pressure”) energy
Daniel Bernoulli(1700 - 1782)
intEUKE gtot
2
2mvK
mgyU g
VPE int
2
2vV
gyV
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Bernoulli’s equation
• Total energy
intEUKE gtot
VPgyVvV
2
2
Pgyv
V
Etot 2
2
const
22
22
11
21
22Pgy
vPgy
v
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Chapter 14Problem 49
A hypodermic syringe contains a medicine having the density of water. The barrel of the syringe has a cross-sectional area A = 2.50 × 10-5 m2, and the needle has a cross-sectional area a = 1.00 × 10-8 m2. In the absence of a force on the plunger, the pressure everywhere is 1 atm. A force F of magnitude 2.00 N acts on the plunger, making medicine squirt horizontally from the needle. Determine the speed of the medicine as it leaves the needle’s tip.
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Questions?
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Answers to the even-numbered problems
Chapter 14
Problem 6(a) 1.01 × 107 Pa(b) 7.09 × 105 N outward
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Answers to the even-numbered problems
Chapter 14
Problem 8225 N
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Answers to the even-numbered problems
Chapter 14
Problem 223.33 × 103 kg/m3
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Answers to the even-numbered problems
Chapter 14
Problem 38(a) 0.825 m/s (b) 3.30 m/s (c) 4.15 L/s