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Fluids

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... to move any layer depends on Area of contact(A) Velocity of layer(v) Distance from immobile surface(y) Coefficient of viscocity ( ) ... – PowerPoint PPT presentation

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Title: Fluids


1
Chapter 11
  • Fluids

2
Defining a Fluid
  • Ability to flow
  • Gas or liquid
  • Difference between gas and liquid
  • Liquid has a definite volume

3
Mass Density
  • Mass per unit volume
  • Symbol gt r????
  • Units gt kg/m3
  • Specific Gravity
  • Ratio of density of a substance to the density of
    water at 4 C
  • Density of water is 1000 kg/m3 at 4C

4
Pressure
  • Force per unit area
  • Units gt
  • N/m2 pascal(Pa)
  • psi
  • 1 bar 105 Pa

5
Atmospheric Pressure
  • Caused by the weight of air above
  • Extremely large pressure
  • 1 atm 1.013105 Pa
  • Exerted in all directions
  • Barometers measure pressure

6
Pressure and Depth
  • Fluid pressure increases with depth

7
Pressure and Depth
  • Gauge pressure is only pressure relative to the
    atmospheric pressure
  • Absolute or Total pressure must include the
    pressure of the atmosphere

8
Example Problem
  • How much pressure would a submarine have to
    withstand at a depth of 5 km in the ocean? (? of
    sea water1.025 103kg/m3)

9
Example Problem
10
Example Problem
11
Pascals Principle
  • Applied pressure to a fluid in a closed container
    is transmitted equally throughout the fluid
  • Example Hydraulic lifts

12
Archimedes Principle
  • A Buoyant Force that acts upward on an object
    submerged in or floating on a liquid
  • Apparent weight of the object will be less

13
Archimedes Principle
14
Archimedes Principle
15
Archimedes' Principle
  • A buoyant force is equal to the weight of the
    fluid displaced

FB
Fg
16
Floating Object
FB
  • Net force is zero on floating object

Fg
17
Archimedes' Principle
  • Submerged object

FB
Fg
18
Archimedes Principle
  • Objects will float if the density of the object
    is less than or equal to the density of the liquid

19
Example Problem
  • A piece of metal weighs 100.0 N in the air and 68
    N in water. What is the density of the metal?
    (Density of water1.00103kg/m3)

20
Example Problem
21
Example Problem
22
Fluids in Motion
  • Steady vs Unsteady Flow
  • Steady flow
  • Velocity of particles at any point is constant
  • Velocity at another point may be different, but
    still constant for that point
  • RiverFaster in the center and slower on the
    edges
  • Unsteady flow
  • Velocity of particles at a point continually
    changes
  • Turbulent flow-an extreme case of unsteady flow
  • River Rapids

23
Fluid in Motion
  • Compressible vs Incompressible
  • Incompressible
  • Density of fluid is constant
  • Liquids
  • Compressible
  • Gases are highly compressible

24
Fluid in Motion
  • Viscous vs Nonviscous
  • Viscous
  • Does not flow readily
  • One layer hinders other layers from flowing
    freely
  • Honey-High Viscosity
  • Water-Low viscosity
  • No real fluid is nonviscous

25
Ideal Fluid
  • Incompressible
  • Non-viscous
  • Non-turbulentwould form nice straight constant
    streamlines

26
Equation of Continuity
  • Mass flow rate
  • mass of fluid per second that flows through a
    tube
  • Kg/s

27
Equation of Continuity
  • Mass flow rate is constant for any given section
    of pipe
  • What enters at one end of the pipe, must exit the
    other side of the pipe
  • Thus, fluids will flow faster if size of tube
    gets smaller.
  • Incompressible fluid
  • Density is constant
  • Called the volume flow rate

28
Example Problem
  • Water flows through a 4.1 m diameter tunnel at a
    speed of 3.0 m/s. It then enters a 2.7m tunnel
    at the same level where the pressure is 82 kPa.
  • Find the velocity of the water in the small
    tunnel.

29
Example Problem
30
Bernoullis Equation
  • Pressure in a fluid is inversely proportional to
    fluid velocity
  • Explains unbalanced force in acceleration of
    fluids
  • Lift in planes
  • As a fluid raises its elevation, the pressure
    decreases because of less fluid above it

31
Principles of Fluid Flow
  • Bernoullis Equation
  • Conservation of energy in fluids
  • Work-energy theorom
  • Uses energy per unit volume

32
Example Problem
  • A large storage tank, open at the top, develops a
    hole 5 m below the surface of the water. What is
    the velocity of the water when it leaves the
    hole?

33
Example Problem
34
Example Problem
35
Example Problem
  • Water flows through a 4.1 m diameter tunnel at a
    speed of 3.0 m/s. It then enters a 2.7m tunnel
    at the same level where the pressure is 82 kPa.
  • Find the pressure in the wide portion of the
    tunnel.

36
Viscous Flow
  • Fluid Flow is hindered by viscosity
  • A fluid is visualized as thin layers
  • Slowest at a boundary
  • Fastest at the center
  • Called Laminar flow
  • A force is required to keep offset the forces
    from neighboring layers

37
Viscous Flow
  • Force required to move any layer depends on
  • Area of contact(A)
  • Velocity of layer(v)
  • Distance from immobile surface(y)
  • Coefficient of viscocity (?)Units are Pa?s

38
Viscous Flow
  • This force is caused by a difference in pressure
    between two points in a pipe for viscous flow
  • Flow rate depends on
  • Pressure difference
  • Radius of pipe
  • Length of pipe
  • Viscosity of fluid
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