1 what is a wave? a disturbance that propagates energy transferred examples waves on the surface of...
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What is a wave?A disturbance that propagates energy transferred
Examples• Waves on the surface of water• Sound waves in air• Electromagnetic waves• Seismic waves through the earth• Electromagnetic waves can propagate through a vacuum
• All other waves propagate through a material medium (mechanical waves). It is the disturbance that propagates - not the medium - e.g. water waves
WAVES
CP 478
waves_01
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waves_01: MINDMAP SUMMARY
Wave, wave function, harmonic, sinusodial functions (sin, cos), harmonic waves, amplitude, frequency, angular frequency, period, wavelength, propagation constant (wave number), phase, phase angle, radian, wave speed, phase velocity, intensity, inverse square law, transverse wave, longitudinal (compressional) wave, particle displacement, particle velocity, particle acceleration, mechanical waves, sound, ultrasound, transverse waves on strings, electromagnetic waves, water waves, earthquake waves, tsunamis
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2
2 2 2( , ) sin( ) sin sin
2 2 12
p p
y x t A k x t A x t x v tT
k f f v fT T T k
y yv a
t t
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SHOCK WAVES CAN SHATTER KIDNEY STONES
Extracorporeal shock wave lithotripsy
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SEISMIC WAVES (EARTHQUAKES)S waves (shear waves) – transverse waves that travel through the body of the Earth. However they can not pass through the liquid core of the Earth. Only longitudinal waves can travel through a fluid – no restoring force for a transverse wave. v ~ 5 km.s-1.P waves (pressure waves) – longitudinal waves that travel through the body of the Earth. v ~ 9 km.s-1. L waves (surface waves) – travel along the Earth’s surface. The motion is essentially elliptical (transverse + longitudinal). These waves are mainly responsible for the damage caused by earthquakes.
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8TsunamiIf an earthquakes occurs under the ocean it can produce a tsunami (tidal wave). Sea bottom shifts ocean water displaced water waves spreading out from disturbance very rapidly v ~ 500 km.h-1, ~ (100 to 600) km, height of wave ~ 1m waves slow down as depth of water decreases near coastal regions waves pile up gigantic breaking waves ~30+ m in height.1883 Kratatoa - explosion devastated coast of Java and Sumatra
v g h
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Following a 9.0 magnitude earthquake off the coast of Sumatra, a massive
tsunami and tremors struck Indonesia and southern Thailand Lanka - killing
over 104 000 people in Indonesia and over 5 000 in Thailand.
11:59 am Dec, 26 2005: “The moment that changed the world:
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Waveforms
WavepulseAn isolated disturbance
Wavetraine.g. musical note of short duration
Harmonic wave: a sinusoidal disturbance of constant amplitude and long duration
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• A wavefront is a line or surface that joins points of same phase
• For water waves travelling from a point source, wavefronts are circles (e.g. a line following the same maximum)
• For sound waves emanating from a point source the wave fronts are spherical surfaces
Wavefronts
wavefront
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A progressive or traveling wave is a self-sustaining disturbance of a medium that
propagates from one region to another, carrying energy and momentum. The
disturbance advances, but not the medium.
The period T (s) of the wave is the time it takes for one wavelength of the wave to pass a point in space or the time for one cycle to occur.
The frequency f (Hz) is the number of wavelengths that pass a point in space in one second.
The wavelength (m) is the distance in space between two nearest points that are oscillating in phase (in step) or the spatial distance over which the wave makes one complete oscillation.
The wave speed v (m.s-1) is the speed at which the wave advancesv = x / t = / T = f
Amplitude (A or ymax) is the maximum value of the disturbance from equilibrium
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Harmonic wave - period
• At any position, the disturbance is a sinusoidal function of time
• The time corresponding to one cycle is called the period T
time
disp
lace
men
t TA amplitude
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Harmonic wave - wavelength
• At any instant of time, the disturbance is a sinusoidal function of distance
• The distance corresponding to one cycle is called the wavelength
distance
disp
lace
men
t A amplitude
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Wave velocity - phase velocity
distance
xv f
t T
t 0
t T
t 2T
t 3T
0
2
3
Propagation velocity (phase velocity)
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16Wave function
(disturbance)
2( , ) sin ( )
sin 2
sin( )
y x t A x v t
x tA
T
A k x t
+ wave travelling to the left - wave travelling to the right
CP 484
Note: could use cos instead of sin
e.g. for displacement y is a function of distance and time
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2 2siny t x
TA
Change in amplitude A
SINUSOIDAL FUNCTION – harmonic waves
A = 0 to 10
x = 0
= 0
T = 2
t = 0 to 8
angle in radians
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2 2siny A t x
T
Change in period T
SINUSOIDAL FUNCTION
A = 10
x = 0
= 0
T = 1 to 4
t = 0 to 8
angle in radians
1f T f T f
T
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2 2siny A t x
T
Change in initial phase
SINUSOIDAL FUNCTION
A = 10
x = 0
= 0 to 4
T = 2
t = 0 to 8
angle in radians
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2( , ) sin ( ) sin 2 sin( )
x ty x t A x v t A A k x t
T
Sinusoidal travelling wave moving to the right
Each particle does not move forward, but oscillates, executing SHM.
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Amplitude A of the disturbance (max value measured from equilibrium position y = 0). The amplitude is always taken as a positive number. The energy associated with a wave is proportional to the square of wave’s amplitude. The intensity I of a wave is defined as the average power divided by the perpendicular area which it is transported. I = Pavg / Area
angular wave number (wave number) or propagation constant or spatial frequency,) k [rad.m-1]
angular frequency [rad.s-1]
Phase (k x ± t) [rad]CP 4841 2
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• Energy propagates with a wave - examples?
• If sound radiates from a source the power per unit area (called intensity) will decrease
• For example if the sound radiates uniformly in all directions, the intensity decreases as the inverse square of the distance from the source.
INTENSITY I [W.m-2]
2 2
1
4
P PI
A r r
Wave energy: ultrasound for blasting gall stones, warming tissue in physiotheraphy; sound of volcano eruptions travels long distances
CP 491
Inverse square law
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The faintest sounds the human ear can detect at a frequency of
1 kHz have an intensity of about 1x10-12 W.m-2 – Threshold of hearing
The loudest sounds the human ear can tolerate have an intensity
of about 1 W.m-2 – Threshold of pain
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Longitudinal & transverse waves
Longitudinal (compressional) wavesDisplacement is parallel to the direction of propagation
waves in a slinky; sound; earthquake waves P
Transverse wavesDisplacement is perpendicular to the direction of
propagation
electromagnetic waves; earthquake waves S
Water wavesCombination of longitudinal & transverse
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Wavelength [m]
y(0,0) = y(,0) = A sin(k ) = 0 k = 2 = 2 / k
Period T [s]
y(0,0) = y(0,T) = A sin(- T) = 0 T = 2 T = 2 / f = 2 /
Phase speed v [m.s-1]
v = x / t = / T = f = / k
2( , ) sin ( ) sin 2 ( / / ) sin( )y x t A x v t A x t T A k x t
CP 484
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As the wave travels it retains its shape and therefore, its value of the
wave function does not change i.e. (k x - t) = constant t
increases then x increases, hence wave must travel to the right (in
direction of increasing x). Differentiating w.r.t time t
k dx/dt - = 0 dx/dt = v = / k
As the wave travels it retains its shape and therefore, its value of the
wave function does not change i.e. (k x + t) = constant t
increases then x decreases, hence wave must travel to the left (in
direction of decreasing x). Differentiating w.r.t time t
k dx/dt + = 0 dx/dt = v = - / k
CP 492
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Each “particle / point” of the wave oscillates with SHM
particle displacement: y(x,t) = A sin(k x - t)
particle velocity: y(x,t)/t = - A cos(k x - t)
velocity amplitude: vmax = A
particle acceleration: a = ²y(x,t)/t² = -² A sin(k x - t) = -² y(x,t) acceleration amplitude: amax = ² A
CP 492
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0 10 20 30 40 50 60 70 80-2
0
2
4
6
8
10
12
14
16
18
t
x
t = T
t = 0
Transverse waves - electromagnetic, waves on strings, seismic - vibration at right angles to direction of propagation of energy
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0 10 20 30 40 50 60 70 80
0
2
4
6
8
10
12
14
16
t
x
t = T
t = 0
Longitudinal (compressional) - sound, seismic - vibrations along or parallel to the direction of propagation. The wave is characterised by a series of alternate condensations (compressions) and rarefractions (expansion
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3 4 5 6 7
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Problem solving strategy: I S E E
Identity: What is the question asking (target variables) ? What type of problem, relevant concepts, approach ?
Set up: Diagrams Equations Data (units) Physical principals
Execute: Answer question Rearrange equations then substitute numbers
Evaluate: Check your answer – look at limiting cases sensible ? units ? significant figures ?
PRACTICE ONLY MAKES PERMANENT
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32Problem 1
For a sound wave of frequency 440 Hz, what is the wavelength ?
(a) in air (propagation speed, v = 3.3×02 m.s-1)
(b) in water (propagation speed, v = 1.5×103 m.s-1)
[Ans: 0.75 m, 3.4 m]
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33Problem 2 (PHYS 1002, Q11(a) 2004 exam)
A wave travelling in the +x direction is described by the equation
where x and y are in metres and t is in seconds.
Calculate
(i) the wavelength,(ii) the period,(iii) the wave velocity, and(iv) the amplitude of the wave
0.1sin 10 100y x t
[Ans: 0.63 m, 0.063 s, 10 m.s-1, 0.1 m]
use the ISEE method
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34Problem 3
A travelling wave is described by the equation y(x,t) = (0.003) cos( 20 x + 200 t )where y and x are measured in metres and t in secondsWhat is the direction in which the wave is travelling?Calculate the following physical quantities:
1 angular wave number2 wavelength3 angular frequency4 frequency5 period6 wave speed7 amplitude8 particle velocity when x = 0.3 m and t = 0.02 s9 particle acceleration when x = 0.3 m and t = 0.02 s
use the ISEE method
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35Solution I S E E
y(x,t) = (0.003) cos(20x + 200t)
The general equation for a wave travelling to the left is y(x,t) = A.sin(kx + t + )
1 k = 20 m-1
2 = 2 / k = 2 / 20 = 0.31 m
3 = 200 rad.s-1
4 = 2 f f = / 2 = 200 / 2 = 32 Hz
5 T = 1 / f = 1 / 32 = 0.031 s
6 v = f = (0.31)(32) m.s-1 = 10 m.s-1
7 amplitude A = 0.003 m
x = 0.3 m t = 0.02 s
8 vp = y/t = -(0.003)(200) sin(20x + 200t) = -0.6 sin(10) m.s-1 = + 0.33 m.s-1
9 ap = vp/t = -(0.6)(200) cos(20x + 200t) = -120 cos(10) m.s-2 = +101 m.s-2 8 9 10 11 12 13