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University of Guyana Faculty of Natural Sciences Depart. of Math, PHYs & Stats
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Transcript of University of Guyana Faculty of Natural Sciences Depart. of Math, PHYs & Stats
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UNIVERSITY OF GUYANAFACULTY OF NATURAL SCIENCESDEPART. OF MATH, PHYS & STATS
PHY 110 – PHYSICS FOR ENGINEERSLECTURE 14
(THURSDAY, DECEMBER 8, 2011)
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Lecture Notes:
For this information, visit my website:http://ugphysics.weebly.com
In the event of any other issues to be resolved, email:[email protected].
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3.8 Variation of Pressure with Fluid Depth
Pressure in a Fluid:
Given that the density and acceleration due to gravity are constant,
hgP
hP
A Level Physics by Stephen Pople, pg 68.
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3.8 Variation of Pressure with Fluid Depth
Upthrust and Archimedes’ Principle:This principle states that for an object wholly or partially immersed in a fluid, the upthrust it experiences is equal the weight of the fluid it displaces. This upthrust is responsible for the apparent loss of weight of the object when submerged in a fluid. Consider an object completely submerged in a fluid of density ρ.
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3.8 Variation of Pressure with Fluid Depth
A Level Physics by Stephen Pople, pg 69.
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3.8 Variation of Pressure with Fluid Depth
A Level Physics by Stephen Pople, pg 69.
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3.8 Variation of Pressure with Fluid Depth
Principle of Floatation:This principle states that a floating object displaces its own weight. In other words, the upthrust U acting on a partially immersed object must be equal to the weight W of the object.
oWU
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3.8 Variation of Pressure with Fluid Depth
Principle of Floatation Cont’d:
ooff
of
o
VVVm
but
gmgmWU
A Level Physics by Stephen Pople, pg 69.
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3.9 Hydrodynamics. Viscosity
This is the study of fluids in motion. Definitions:1. A flowline is a line along which a fluid
element moves.2. A streamline is a stable flowline, along
which every element follows the same path.3. Laminar flow (streamlined) is a stable flow
of fluid elements i.e. stable flowlines established.
4. Turbulent flow is the chaotic (disorderly) flow of fluid elements i.e. flowlines do not exist.A Level Physics by J. Breithaupt and K. Dunn, pg 143.
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3.9 Hydrodynamics. Viscosity
A Level Physics by Stephen Pople, pg 102.
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3.9 Hydrodynamics. Viscosity
Viscosity: This is fluid friction that exists between layers of a fluid moving at different speeds. It is defined as the tangential stress in a fluid required to produce unit velocity gradient across that fluid.A Level Physics by J. Breithaupt and K. Dunn, pg 145.
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3.9 Hydrodynamics. Viscosity
Viscosity:
Units: Pascal - second (Pa s)1 Pa s = 1Nsm-2 =1 kg m-1 s-1
dxdvA
F
A Level Physics by J. Breithaupt and K. Dunn, pg 145.
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3.10 Critical Velocity
Critical Velocity:The flow of a fluid through a pipe is only streamline below a certain critical value. Above this value, the flow becomes turbulent.
lV cc
Re
A Level Physics by Stephen Pople, pg 102.
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3.10 Critical Velocity
Re - Reynold’s Number. ρ - Density of fluid.l - Characteristic
length.For Laminar Flow:
For Turbulent Flow:
500,2Re
500,2Re
l
V cc
Re
A Level Physics by Stephen Pople, pg 102.
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3.10 Critical Velocity
Liquid Flow Through a Pipe:The viscosity of a liquid affects how it can flow through a pipe. Thus for viscous flow through a horizontal uniform pipe, assuming that it is streamlined, the rate of flow is:
lPr
tVQ
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4
A Level Physics by J. Breithaupt and K. Dunn, pg 145.
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3.10 Critical Velocity
Liquid Flow Through a Pipe:
V – Volume of fluidt – Time r - Radius of pipel - Length of pipe.
lPr
tVQ
8
4
A Level Physics by Stephen Pople, pg 103.
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3.10 Critical Velocity
Stokes’ Law:When an object passes through a viscous fluid, the object experiences a frictional drag. For a uniform sphere moving at a constant velocity through this fluid, the drag force is:
rvFD 6
A Level Physics by J. Breithaupt and K. Dunn, pg 145.
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3.10 Critical Velocity
Terminal Velocity:A falling sphere will reach its terminal velocity when the forces are balanced.
ButUFW D
gVgmUgVgmW
fff
sss
A Level Physics by Stephen Pople, pg 103.
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3.10 Critical Velocity
Terminal Velocity Cont’d:
But
Rearranging gives
3
34 rVV fs
gVrvgV ffTss 6
T
fs
vgr9
2 2
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3.11 Bernoulli’s Theorem
Equation of Continuity:Fluid flow along a stream-tube will be fastest where the tube is narrowest. If the fluid is incompressible (density is constant), then the mass flow of the fluid per unit time along any segment of the tube is constant. This is the equation of continuity.
CONSTANTAvtAl
tV
tm
A Level Physics by J. Breithaupt and K. Dunn, pg 144.
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3.11 Bernoulli’s Theorem
Equation of Continuity:Given that the fluid is incompressible,
A – cross-sectional area.
v – velocity of fluid.
332211 vAvAvA
A Level Physics by Stephen Pople, pg 103.
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3.11 Bernoulli’s Theorem
Bernoulli’s Equation:For streamline motion of an incompressible non-viscous fluid, Bernoulli stated,“the sum of the pressure at any part plus the kinetic energy per unit volume plus the potential energy per unit volume there is always a constant.”This is the principle of the conservation of energy expressed for a fluid element.A Level Physics by Tom Duncan, pg .
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3.11 Bernoulli’s Theorem
Bernoulli’s Equation :Three terms are:1. Work done per unit
volume.2. Kinetic energy per
unit volume.3. Gravitational
Potential energy.ConstghvP 2
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22221
211 2
121 ghvPghvP
A Level Physics by J. Breithaupt and K. Dunn, pg 144.
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3.12 Applications in Aerofoil
A Level Physics by Stephen Pople, pg 103.
Aerofoil:
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3.12 Applications in Aerofoil
A Level Physics by Stephen Pople, pg 103.
Venturi meter:
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3.12 Applications in Aerofoil
A Level Physics by Stephen Pople, pg 103.
Spinning Ball:
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3.13 Surface Tension. Capillarity.
Surface Tension:This is the ability of a liquid to wet a surface. This is due to the intermolecular attractions between the molecules of the liquid (Cohesive forces) as well as the attractions between the molecules of the surface and the liquid (Adhesive forces). Surface tension is responsible for a number of phenomena. For example, why does water wet glass but mercury does not? Why droplets of water are spherical? How does the water skater walk on water?
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3.13 Surface Tension. Capillarity.
Surface Tension Cont’dIt is defined as the surface tension force per unit length acting along the surface, perpendicular to a line in the surface.Units:1 Nm-1 = 1 kg s-2
lF
A Level Physics by J. Breithaupt and K. Dunn, pg 146.
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3.13 Surface Tension. Capillarity.
Capillarity:This is the rise of water up the inside of a narrow vertical capillary tube with its lower end immersed in a beaker of water. This due to surface tension forces (adhesion) causing water to adhere to the glass. For mercury, it is a depression due to strong cohesive forces.
Angle of Contact θ:This is the angle (in the liquid) that a liquid makes with a solid surface at the point of contact.
A Level Physics by J. Breithaupt and K. Dunn, pg 147.
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3.13 Surface Tension. Capillarity.
Capillary Rise:
e.g. Water on Glass.Capillary Fall:
e.g. Mercury on glass.
grH
2
090
090
A Level Physics by J. Breithaupt and K. Dunn, pg 147.
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3.14 Molecular Forces. Implications.
Bubbles:The internal pressure of a bubble must be greater than the external pressure, so that the pressure difference is sufficient to withstand the surface tension forces that would burst the bubble.
NB: For soap bubbles, it is doubled.
rP 2
A Level Physics by J. Breithaupt and K. Dunn, pg 147
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Lecture Notes:
For this information, visit my website:http://ugphysics.weebly.com
In the event of any other issues to be resolved, email:[email protected].
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END OF LECTURES.