Chapter 9 Solids and Fluids. Elasticity Archimedes Principle Bernoulli s Equation
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1 Chapter 9 Solids and Fluids Elasticity Archimedes Principle Bernoulli s Equation
2 States of Matter Solid Liquid Gas Plasmas
3 Solids: Stress and Strain Stress = Measure of force felt by material Stress= Force Area SI units are Pascals, 1 Pa = 1 N/m 2 (same as pressure)
4 Solids: Stress and Strain Strain = Measure of deformation F Strain= L L A L dimensionless L
5 Young s Modulus (Tension) F Y = ( F ) A ( ) L L tensile stress tensile strain A L L Measure of stiffness Tensile refers to tension
6 Example 9.1 King Kong (a 8.0x10 4 -kg monkey) swings from a 320- m cable from the Empire State building. If the 3.0- cm diameter cable is made of steel (Y=1.8x10 11 Pa), by how much will the cable stretch? 1.97 m
7 Shear Modulus S= ( F ) A ( ) x h Sheer Stress Sheer Strain
8 Bulk Modulus B= F A = P V V V V ( ) Change in Pressure Volume Strain B= Y 3
9 Pascals as units for Pressure P= F A 1 Pa = 1 N/m 2
10 Example 9.2 A large solid steel (Y=1.8x10 11 Pa) block (L 5 m, W=4 m, H=3 m) is submerged in the Mariana Trench where the pressure is 7.5x10 7 Pa. a) By what percentage does the length change? % b) What are the changes in the length, width and height? mm, mm, mm c) By what percentage does the volume change? %
11 Solids and Liquids Solids have Young s, Bulk, and Shear moduli Liquids have only bulk moduli
12 Ultimate Strength Maximum F/A before fracture or crumbling Different for compression and tension
13 Densities ρ= M V
14 Density and Specific Gravity Densities depend on temperature, pressure... Specific gravity = ratio of density to density of H 2 O at 4 C.
15 Example 9.3 The specific gravity of gold is What is the mass (in kg) and weight (in lbs.) of 1 cubic meter of gold? 19,300 kg lbs
16 Pressure & Pascal s Principle P= F A Pressure applied to any part of an enclosed fluid is transmitted undimished to every point of the fluid and to the walls of the container Each face feels same force
17 Transmitting force Hydraulic press P= F 1 A 1 = F 2 A 2 An applied force F 1 can be amplified : F 2 =F 1 A 2 A 1 Examples: hydraulic brakes, forklifts, car lifts, etc.
18 Pressure and Depth w is weight w=mg=ρvg=ρahg Sum forces to zero, PA P 0 A w= 0 Factor A P=P 0 +ρgh
19 Example 9.5 (skip) Find the pressure at 10,000 m of water. DATA: Atmospheric pressure = 1.015x10 5 Pa. 9.82x10 7 Pa
20 Example 9.6 Assume the ultimate strength of legos is 4.0x10 4 Pa. If the density of legos is 150 kg/m 3, what is the maximum possible height for a lego tower? 27.2 m
21 Example 9.7 Estimate the mass of the Earth s atmosphere given that atmospheric pressure is 1.015x10 5 Pa. Data: R earth =6.36x10 6 m 5.26x10 18 kg
22 Archimedes Principle Any object completely or partially submerged in a fluid is buoyed up by a force whose magnitude is equal to the weight of the fluid displaced by the object.
23 Example 9.8 A helicopter lowers a probe into Lake Michigan which is suspended on a cable. The probe has a mass of 500 kg and its average density is 1400 kg/m 3. What is the tension in the cable? 1401 N
24 Example 9.9a A wooden ball of mass M and volume V floats on a swimming pool. The density of the wood is ρ wood <ρ H20. The buoyant force acting on the ball is: a) Mg upward b) ρ H20 gv upward c) (ρ H20 -ρ wood )gv upward
25 Example 9.9b A steel ball of mass M and volume V rests on the bottom of a swimming pool. The density of the steel is ρ steel >ρ H20. The buoyant force acting on the ball is: a) Mg upward b) ρ H20 gv upward c) (ρ steel -ρ H20 )gv upward
26 Example 9.10 A small swimming pool has an area of 10 square meters. A wooden 4000-kg statue of density 500 kg/m 3 is then floated on top of the pool. How far does the water rise? Data: Density of water = 1000 kg/m 3 40 cm
27 Floating Coke Demo (SKIP) The can will a) Float b) Sink
28 Paint Thinner Demo (SKIP) When I pour in the paint thinner, the cylinder will: a) Rise b) Fall
29 Equation of Continuity What goes in must come out! mass density M =ρa x=ρav t Mass that passes a point in pipe during time t Eq. of Continuity ρ 1 A 1 v 1 =ρ 2 A 2 v 2
30 Example 9.11 Water flows through a 4.0 cm diameter pipe at 5 cm/s. The pipe then narrows downstream and has a diameter of of 2.0 cm. What is the velocity of the water through the smaller pipe? 20 cm/s
31 Laminar or Streamline Flow Fluid elements move along smooth paths Friction in laminar flow is called viscosity
32 Turbulence Fluid elements move along irregular paths Sets in for high velocity gradients (small pipes)
33 Ideal Fluids Laminar Flow -> No turbulence Non-viscous -> No friction between fluid layers Incompressible -> Density is same everywhere
34 Bernoulli s Equation P+ 1 2 ρv2 +ρgy=const ant Sum of P, KE/V and PE/V is constant How can we derive this?
35 Bernoulli s Equation: derivation Consider a volume V of mass M of incompressible fluid, KE= 1 2 Mv Mv 2 1 = 1 2 ρ Vv ρ Vv 2 1 PE=Mgy 2 Mgy 1 =ρ Vgy 2 ρ Vgy 1 W =F 1 x 1 F 2 x 2 =P 1 A 1 x 1 P 2 A 2 x 2 =P 1 V P 2 V P 1 +ρgh ρv 2 1 =P 2 +ρgh ρv 2 2
36 Example 9.12 A very large pipe carries water with a very slow velocity and empties into a small pipe with a high velocity. If P 2 is 7000 Pa lower than P 1, what is the velocity of the water in the small pipe? Venturi Meter 3.74 m/s
37 Applications of Bernoulli s Equation Venturi meter Curve balls Airplanes Beach Ball & Straws Demos
38 Example 9.13a Consider an ideal incompressible fluid, choose >, < or = ρ 1 ρ 2 a) = b) < c) >
39 Example 9.13b Consider an ideal incompressible fluid, choose >, < or = Mass that passes 1 in one second mass that passes 2 in one second a) = b) < c) >
40 Example 9.13c Consider an ideal incompressible fluid, choose >, < or = v 1 v 2 a) = b) < c) >
41 Example 9.13d Consider an ideal incompressible fluid, choose >, < or = P 1 P 2 a) = b) < c) >
42 Example 9.14 Water drains out of the bottom of a cooler at 3 m/s, what is the depth of the water above the valve? a b 45.9 cm
43 Viscosity Diffusion Osmosis Three Vocabulary Words
44 Viscosity F=ηA v d Friction between the layers Pressure drop required to force water through pipes (Poiselle s Law) At high enough v/d, turbulence sets in
45 Diffusion Molecules move from region of high concentration to region of low concentration Fick s Law: Diffusionrate= Mass time =DA C 2 C 1 L D = diffusion coefficient
46 Osmosis Movement of water through a boundary while denying passage to specific molecules, e.g. salts
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