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Waves
Wave: A traveling disturbance consisting of coordinated vibrations that transmit energy with no net movement of the matter.
Source: some kind of disturbance from the state of equilibrium.
Propagation: due to some properties of the medium such as elasticity.
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What happens ?
Flick of hand produces a disturbance.
This disturbance travels down the rope.
What happens if we continue to move hand up & down ?
Disturbances travel in form of vibrations
But no matter is moved along the rope, just energy
Quick movement of hand up & down
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Example of a wave pulse on a rope.
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Examples of waves:
Mechanical waves
• Ripples on water, surface waves on water
• Vibrating strings
• Seismic waves (during earthquakes)
• Sound
Electromagnetic waves
Radio waves, Microwave, Infrared, Light, UV, X,
And there are more to come…
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TRANSVERSE WAVE
LONGITUDINAL WAVE
Transverse and longitudinal waves
Transverse: disturbances are perpendicular to propagation
Longitudinal: disturbances are parallel to propagation
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Example of a longitudinal wave:
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Some properties of waves:
QUESTION:
I generate waves on a rope. As I increase the displacement of my hand…
1. The wave will travel faster.
2. There will be no difference.
3. The wave will be “bigger”.
The disturbance will be bigger: The AMPLITUDE will be larger.
Amplitude: The maximum displacement of points in a wave. Measured from zero (equilibrium position).
Amplitude “depends” on the source, but may change in the medium (damping).
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QUESTION:
If I swing my hand up & down faster…
1. The wave will travel faster.
2. The wave will have larger amplitude.
3. None of the above.
Answer 3: The speed of the wave is unaffected by how fast I wiggle my hand up & down. What is affected is the FREQUENCY.
The number of oscillations per second in a wave at any point along the wave.
Frequency is a property of the SOURCE only.
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Speed of the wave – speed of the wave propagation
Speed of the wave is a property of the medium.
In mechanical waves it depends on the elasticity of the medium.
1. Waves in the string:
2. Waves in the air (sound).
3. Seismic waves:
4. In general: property Inertial
property Elastic
density- modulus,bulk - where,
Kin is where,120air for
density - pressure, - where,
density masslinear where,
o
v
DBD
Bv
TT.v
DpD
pv
l
mFv
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Example: If the string is 1 m long and its mass is 5g, The tension is 100 N. Find the speed of wave propagation:
s
m4.141
005.0
100
m
kg005.0
m 1
kg005.0 ,
v
l
mρ
Fv
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How long does it take for each point along the wave wiggle up & down once ?
PERIOD
How far has the wave moved in one PERIOD ?
ANSWER:
One Wavelength
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WAVELENGTH, :
The distance between two equivalent points in a wave, e.g. the distance between two adjacent peaks or two adjacent valleys.
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Amplitude and Wavelength:
1
2
3
4
Which wave has the largest amplitude ?
Which wave has the largest wavelength ?
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QUESTION:
I increase the frequency of a wave traveling on a rope (keeping everything else unchanged). What happened to the wavelength and the speed of the wave ?
1. The wavelength increased, but the speed stayed the same.
2. The wavelength stayed the same, but the speed increased.
3. The wavelength decreased, but the speed stayed the same.
4. Both the wavelength and the speed stayed the same.
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So, if the wave travels one wavelength, , in a time equal to the period, T, how fast is it going ?
v = d/t = /T
Wavelength is a function of speed and frequency
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Speed of a wave:
The speed of a wave depends on things like forces, mass per unit length etc., but not typically on the frequency.
Relationship between frequency, wavelength and the speed of the wave:
v = f
If the frequency changes, the wavelength must change to keep the velocity the same.
Frequency = f = 1/T
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Example:
A wave on a rope travels at 2 m/s. I wiggle one end of the rope at a frequency of 1 Hz. What is the wavelength of the resulting wave ?
= 2 m
v f
v/f
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Wave Propagation: “How waves move”
• REFLECTION
• DIFFRACTION
• INTERFERENCE
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Waves are reflected when they encounter a sudden change in the medium through which they travel.
Examples:
• Mirror
• Satellite dish
• Echo
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What happens when two waves meet ?
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INTERFERENCE!
Destructive Interference
Constructive Interference
“destructive”
“constructive”
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DIFFRACTION
An opening in a room acts as a “point source” sending waves in all directions – causing the wave to “bend”.
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The Doppler effect: dependence of the wavelength on the motion of the source relative to the observer
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Finalize general properties of waves:
1. Main characteristics of waves: f, v, , A, T.
2. Frequency f is a “property” of the source.
3. Wave speed is a “property” of the medium.
4. Every point perturbed by the wave becomes a source for further wave
5. All perturbations that we discuss are linear. Therefore, we have the superposition principle. Wave properties or features as interference are the consequence of this principle.
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Sound
SOUND is a (longitudinal) pressure wave in air, any gas, liquid, or solid.
The amplitude of sound waves are very small compared to the atmospheric pressure:
P/P ~ 0.00001
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SPEED OF SOUND:
• Depends on elasticity (forces between atoms or molecules) and density
• For ideal gases depends on the mass of atom or molecule and temperature.
• Speed of sound in air is about =
• In air at room temperature ~ 343 m/s (768 mph)
T1.20
Example: If the time between the lightning and a thunder is 3 s, how far is the T-storm? The air temperature 75oF.
m040,134.346 :distance theCalculate 3.s
m4.3462971.20 :sound of speed theCalculate 2.
K297)3275(9
5273.15T :Kelvins Convert to .1 o
tvd
v
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Waveform = graph of the pressure variations in air versus time
Pure tone: sound with a sinusoidal waveform, single .
Complex tone: repeats itself (periodic), but multiple ’s – a superposition of pure tones
Noise – irregular
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0.025 sec
What is the frequency of this sound wave ?
1. It cannot be determined.
2. 0.025 Hz
3. 0.05 Hz
4. 40 Hz
5. 20 Hz
What is the wavelength of this sound wave (T=293oK)?
Period T = 0.05 sec f = 1/T = 20 Hz
m2.1720
1.344s
m1.3442931.20
f
v
v
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-1.5
-1
-0.5
0
0.5
1
1.5
0 5 10 15 20
“Generation” of a complex wave using 4 harmonics
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Perception of sound:
• Pitch
• Loudness
• Tone quality
How do these perceptions correspond to physical attributes of sound ?
Production of sound:
• Frequency
• Amplitude
• Complexity (spectrum)
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How is sound produced ?
•Any object vibrating in air will produce pressure waves:
Vibrating strings, plates, membrane…
• Standing waves in ‘wind’ instruments
Frequency depends on length of string or pipe etc. = resonance frequency.
Higher “modes” can be generated by blowing harder.
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Production of the sound: vibration + amplification
A string fixed on both ends can only have such and higher harmonics, the rest are damped.
First harmonics – fundamental
= L/2, v is determined by the string and its tension, f = v/
... 2
4 ,2
3 ,2
2 ,2
... 2
,3
2 , ,2
4321
4321
L
vf
L
vf
L
vf
L
vf
vf
LLLL
Fv
Guitar:
1. Different strings – different ’s.
2. Changing tension – tune v, and hence f
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Amplification : resonator “boxes”
Select (filter) and amplify certain harmonics to produce a complex (or pure) sound.
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Resonance in open pipes:
One end open: organ and wind instruments
Both ends open(Our music BlooglesBloogles are like these.)
Fundamental(420 Hz)
5’th(625 Hz)
Octave(840 Hz)
Only odd harmonics
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How do we hear ?
Sound excites eardrum
These bones amplify the sound mechanically by about 20x.
Sound is sorted by frequency and converted into electrical signals
Nerve sends electrical signals to brain for further analysis
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Loudness:
Which physical quantity is responsible for how loud a sound is ?
1. Frequency
2. Wavelength
3. Amplitude
4. Speed
5. Waveform
Loudness is mostly determined by the amplitude of the sound wave.
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Sound level: Measured in decibel (dB)
If amplitude is 10x bigger, the decibel level is increased by 20 dB.
90 dB sound has 10x the amplitude of 70 dB sound.
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Loudness = Perception of loudness
0 dB – threshold of hearing
1 dB – minimal loudness change detectable by ears
10 dB difference = sounds twice as loud
120 dB - threshold of pain
If you add two sounds of the same loudness, the resultant loudness increases by 3 dB
(sound of 50 dB) + (sound of 50 dB) = (sound of 53 dB)
(Loudness also depends on frequency. Ears are most sensitive around 1000 – 5000 Hz.)
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Sound Propagation
• Sound becomes weaker further away from a sound source.
By how much ?
Energy is conserved, but sound is spreading over an area ~ d2.
Energy ~ Amplitude2
Energy per unit area ~ 1/d2
Therefore: Amplitude ~ 1/d
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PITCH
“How high a low a sound is”
Which physical quantity is pitch due to ?
1. Amplitude
2. Frequency
3. Speed of sound
4. Shape of waveform
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PITCH:
A sound with a higher frequency will sound “higher”, a sound with a lower frequency will sound “lower”.
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Range of human hearing: Maximum 20 – 20,000 Hz
Why do CD players have a range of 20 – 20,000 Hz, when musical instruments range from 50 – 5000 Hz only ?
Tone quality is determined by the actual waveform of the sound. For accurate representation of the sound higher frequencies are needed. “High fidelity”
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Sounds of instruments etc. are due to
Complex waveforms = combination of waves of several frequencies.
Lowest frequency = “Fundamental”, determines pitch
Higher frequencies = “Harmonics”, determine tone quality. Frequencies of harmonics are whole number multiples of the fundamental frequency.
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=tone quality
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QUESTION:
You are a designer for a new concert hall. Which wave effects do you have to take into account ?
1. Reflection
2. Diffraction
3. Interference
4. All of the above
5. None of the above
6. These things have nothing to do with sound.
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Answer: All of the above
Example: Reflection
Which path takes the most time ?
1. Path 1
2. Path 2
3. Path 3
4. Path D
5. They all take the same amount of time.
The goal: deliver the same complex sound to all places…
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Multiple Reflection lead to reverberation.
Reverberation – good and bad:
•Amplifies the sound
•Makes it more uniform
•Can make echo or multiple sounds
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ELECTROMAGNETISM
1. A moving charge, an electric current, or changing electric field induce a magnetic field
2. A changing magnetic field induces an electric field.
3. The electric charge is the source of electric and magnetic fields
4. Electric and magnetic fields are related
with each other Maxwell equations – complete picture of electro-magnetism
Predicted Electro-Magnetic waves
Light – EM wave
James Clerk Maxwell (1831 – 1879)
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Electromagnetic Waves
Heinrich R. Hertz
1857 – 1894
Wave: A traveling disturbance consisting of coordinated vibrations that transmits energy but not matter.
EM waves:
1. Source of EM waves
2. What oscillates?
3. EM waves propagation
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I disturb the electric field by moving charges back and forth. What happens ?
• The oscillating electric field will produce a new opposing magnetic field.
• The oscillating magnetic field produces a new changing electric field opposing the original electric field.
• The moving charge creates an oscillating electric field and an oscillating magnetic field.
An oscillating (accelerating) charge is a source of EM wave
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What kind of wave is an electromagnetic wave ?
1. Transverse Wave
2. Longitudinal wave
3. Neither
• EM wave is transverse – E and B fields are mutually perpendicular and both perpendicular to the direction of propagation
• Both E and B fields oscillate in phase
• EM wave propagates with speed of light
• does not need a medium…
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Differences between EM waves and mechanical waves:
• EM waves are really two (coupled) waves: an electric field and a magnetic field wave.
• EM waves do not require a medium and can travel through vacuum.SPEED of EM waves:
In vacuum: c = 299,792,458 m/s
c 300,000 km/s = 186,000 miles/s
In a medium they are slower
cmed = c/n n – index of refraction
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A radio station transmits EM waves with frequency 100 MHz. What is the wavelength of the EM waves ?
f = 100 MHz = 100 x 106 Hz = 100,000,000 Hz
v = c = f
= c/f = (300,000,000 m/s/(100,000,000 Hz) = 3 m
Or alternatively
c/fm/s/Hzm
c
ff
cfc
cv
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RADIO WAVES:
EM Waves with
f = 100 … 109 = 1,000,000,000 Hz
= 3000 km … 0.3 mCan be generated directly by moving charges back and forth (changing electric field) in an antenna.
• Radio: AM = 700 – 1400 kHz, FM = 88 – 108 Mhz
• TV
• Emissions from Planets and stars
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Very Large Array, New Mexico
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MICROWAVES:
EM waves with
f = 109 … 1012 Hz
l = 30 cm … 0.3 mm
Can be generated by very sophisticated electronics and antennas.
• Communication: Satellites
• Radar
• Cooking your food
• MRI
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Radar:
Microwaves bounce off metallic objects (Reflection).
Measure time it takes to reach object and return.
If it takes 20 microseconds for the signal to return, how far away is the airplane ?
20 s = 20 x 10-6 s = 0.00002 s
d = c t/2 = (300,000 km/s)(0.00002 s)/2 = 3 x 105 km/s x 2 x10-5 s /2 = 3 km
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Pause here ……
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Venus’ surface measured by radar:
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Microwave oven:
Water molecules have are electric dipoles.
Oxygen,negative
Hydrogen,positive
Water molecules rotate. When heated, they rotate more vigorously.
If we apply a changing electric field to the water, it will be forced to rotate, increasing its kinetic energy.… and its temperature!
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INFRARED
EM waves with
f = 1012 … 4 x 1014 Hz
= 0.3 mm … 0.75 m (750 nm)
Emitted by warm objects, lasers, LEDs
• Heat radiation
• Remote controls
• Some Wireless devices
• Lasers
• Fiber-optic communication
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Infrared Photography:
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VISIBLE LIGHT:
EM waves with
f = 4 x 1014Hz … 7.5x 1014Hz
= 750 nm … 400 nm
Very narrow range of EM waves which happens to be detectable by human eyes.
• Seeing
• Optics
• TV
• Photography
• Telescopes
• Microscopes
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Why do we see visible light and not other EM waves ?
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ULTRAVIOLET
EM waves with
f = 7.5 x 1014 … 1018 Hz
= 400 nm … 0.3 nm
Emitted by the sun, very hot objects
• Tanning
• Lithography to make computer chips
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X RAYS
EM waves with
f = 1016 … 1020 Hz
= 30 nm … 0.3 pm
Made by bombarding a target with electrons.
Can travel through matter almost unhindered.
• X-ray imaging
• X-ray diffraction
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Materials with “heavier” atoms in them stop x-rays more efficiently. For example Calcium in Bone.
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Since X-rays have wavelength the size of atoms, they can reveal atomic structure of crystals and molecules.
For example:
Structure of DNA
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How are X-rays generated ?
Electron gun
TargetElectrons
X-rays
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GAMMA () RAYS
EM waves with
f = 3 x 1019 … > 1023 Hz
= 10 pm … < 3 fm
Emitted by nuclear processes, such as radioactivity
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BLACKBODY RADITATION
Bodies emit heat radiation that depends on their temperature.
T
0029.0max
Wien’s law
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Color of stars is due to their temperatureRigel: T = 10,000 K
Betelgeuse: T = 3,200 K
Sun: T = 5,800 K
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Cosmic background radiation
Blackbody radiation of universe discovered in 1965
T = 2.7326 K, microwave radiation
m mm
Arno Penzias and Robert Wilson
Robert Dicke
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Passage of the EM waves through the atmosphere
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EM waves passage through the Earth’s atmosphere:
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Ionosphere:
Ions high up (~ 90 km) in atmosphere can reflect certain radiowaves (shortwave).
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Ozone layerAt about 20-40 km above sea level: High concentration of ozone (O3)
Stops UV light, protects life on earth.
Ozone hole: Certain pollutants can reduce amount of ozone in ozone layer (CFC’s)
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Greenhouse effect:
Certain gases (H2O, CO2, CH4) reflect or absorb infrared radiation. Keep heat from escaping earth into space.
•Keeps it about 35o higher than without… Important for life conditions
•Regulates temperature on Earth
•Responsible for high temperature on Venus (460 C) – runaway greenhouse effect
•Global warming
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Ozone layerAt about 20-40 km above sea level: High concentration of ozone (O3)
Stops UV light, protects life on earth.
Ozone hole: Certain pollutants can reduce amount of ozone in ozone layer (CFC’s)
Do not confuse ozone
problem with the greenhouse
effect
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BLACKBODY RADITATION
Bodies emit heat radiation that depends on their temperature.
T
0029.0
law sWien'
max 4~
law sStefan'
TPThe power of EM radiation emitted by an object is proportional to the fourth power of its temperature (K)
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Light:• Light is an electromagnetic wave with frequencies in the range of 4 x 1014 to 7.5 x 1014 Hz
• In air & vacuum, wavelengths range from 450 nm to 750 nm, where 1 nm = 1 billionth of a meter.
• Color is determined by frequency (wavelength)
• White light is a mixture of all colors
• In vacuum, the speed of light is 3 x 108 m/s.
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DIFFRACTION:Light passing through a very narrow slit will spread out.
Every point reached by the wave (including those in the slit) becomes a source of waves
The resultant signal at any point is a result of interference from all directly arriving waves
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INTERFERENCE: summation of waves – superposition principle
Destructive Interference
Constructive Interference
Destructive: Constructive:
Waves in opposite phases Waves in the same phase
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LAMP
Slits
Interference pattern
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Summation of waves with different paths
– for a maximum the difference in paths has to be the integer number of wavelengths
- for a minimum – half integer
Two slit interference
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Interference effects: thin films
Some wavelengths interfere destructively, some constructively
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Electromagnetic waves:
Do the E & M vectors always have to point in the same direction ?
1. Yes
2. No
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Polarization
Answer: No, in most light the E-vector points in random directions.
Polarized light, e.g. laser light:
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Unpolarized light can be polarized by
• Reflection
• Passing through a polarization filter (polaroid)
Note: B field direction and magnitude is always related to the E field’s direction and magnitude
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Polarized plated filter out different polarizations leaving only one – along its axis
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LCD Displays
No signal – transparency because of correct rotation of polarization
Electric signal changes polarization in the crystal – no transparency - image
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Reflection: Specular reflection
Specular reflection – depends on the reflecting surface only – all rays are reflected similarly
– the surface is flat enough
- Depends on the wavelength –the shorter the wavelength, the better quality mirror is required for to obtain the specular reflection
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Diffuse reflection:Reflection off rough surfaces – most common.
Most light we see is diffuse reflected light.
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The Law of Reflection:
The angle of incidence equals the angle of reflection.
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Colored Objects:• Reflect only some frequencies of light and absorb others.If an object appears red, it
Reflects red and absorbs other colors such as blue, yellow, green, etc.
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REFLECTION, plane mirror
When you look into a mirror, what is reversed ?
1. Nothing is reversed.
2. Left and Right are reversed.
3. Up and Down are reversed.
4. Front and Back are reversed.
Front
Up
Right
http://perg.phys.ksu.edu/vqm/laserweb/Java/MirrImge/Imageme1.htm
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One-way mirrors
Normally, part of light is reflected and the rest is transmitted
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Curved mirrors
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Convex mirror
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Van Eyck: “The Arnolfini couple”
An image from a convex mirror – always virtual, always smaller than the object
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Concave mirror – virtual image if the object is closer than the focus
Virtual image
Enlarged & upright
object
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Concave mirror – real image if the object is farther than focus
Real image
reduced & inverted
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Concave mirror Convex mirror
Plane mirror
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Curved Mirrors Application: TELESCOPES
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Aberrations:
Spherical aberration
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Hubble space telescope
Tiny error in mirror, repaired in 1993
before after
2.4 m mirror, too flat on one edge by 1 / 50th of the width of a single human hair
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Why ?
1. The pencil actually bends when in contact with water.
2. It’s some kind of interference effect.
3. It’s a magic trick.
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REFRACTION!
When light enters a medium it slows down.
Now assume light hits a boundary (= interface) between two media under an angle:
What happens ?
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1. Some of it reflects off the interface.
2. Some gets transmitted, but how ?
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Analogy: Car leaving road and entering mud
Because the right wheel slows down first, the car rotates.
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Light does the same thing when it crosses the interface between two different media:
= REFRACTION
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LAW OF REFRACTION:
A light ray bends towards the normal when it enters a transparent medium in which light travels slower.
It bends away from the normal if it enters a medium in which light travels faster.
1 2
Which way is faster for the light, 1 or 2 ?
A
B
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Air into glass
Glass into air
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How to explain the pencil in water ?
Image
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It increases to some maximum angle (critical angle), at which something strange happens: the light does not come out from the more dense medium
If this angle is exceeded: it is completely reflected – total internal reflection
From more optically dense medium to less optically dense medium:
What happens if the incident angle is increased?
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TOTAL INTERNAL REFLECTION
Happens after exceeding the CRITICAL ANGLE
Application:
Optical fiber
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LENSES AND IMAGES:
Recall: Light rays can be focused by a curved mirror.They can also be focused by using refraction:
Convex surface
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Opposite case:
Concave surface
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Lenses:
= Combinations of concave and convex surfaces, utilizing refraction to manipulate light
Two convex surfaces = biconvex lens
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How does it work ?
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Converging Lens
Diverging Lens
Biconcave Lens
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LAW OF REFRACTION:
A light ray bends towards the normal when it enters a transparent medium in which light travels slower.
It bends away from the normal if it enters a medium in which light travels faster.
1 2
Which way is faster for the light, 1 or 2 ?
A
B
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How does it work ?
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Converging Lens
Diverging Lens
Biconcave Lens
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Image formationLenses are used to form images of objects.
How they do that can be determined by “ray tracing”.
Optical Axis
Focal points
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Example:
In this case light re-converges and projects a real image that is inverted.
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Another example:
The light rays are not converging, the lens is not projecting an image. Looking through the lens a virtual image appears.
= Magnifier
What’s different ??
image
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Is the image in a camera real or virtual ?
1. Real
2. Virtual
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Lens formula
fs
sfp
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Example:
In a slide projector a slide is located 11 cm from a lens with a 10 cm focal length. Where should the screen be located to get a sharp image ?
fs
sfp
p = (10 x 11)/(11-10) = 110/1 = 110 cm = 1.1 m
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Example:
A magnifying glass has a focal length of 10 cm. You place a coin at 5 cm from the lens. Where is the image?
fs
sfp
p = (5 x 10)/(5-10) = 50/(-5) = -10 cm
What does that mean ??
1. There is no image
2. There is a real image
3. There is a virtual image
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Magnification:
s
pM
Example: Magnifier, s = 5 cm, p = -10 cm
Example : slide projector, s = 11 cm, p = 110 cmM = -(110)/11 = -10 What does that mean ?
M = -(-10)/5 = 10/5 = 2 Virtual upright image
Real, inverted image
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Telescope, microscope, etc.
The object – first lens – first image – second lens –
second image and so on.
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The human eye
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Focusing
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Nearsightedness
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DISPERSION
Refraction depends on wavelength of light (color)
In glass, shorter wavelengths travel slower than longer wavelengths.
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Prism
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Rainbow and halo are results of collective refraction and reflection:
Primary rainbow
Secondary rainbow
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Blue Skies and Evening glow – Scattering of light
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Discovery of radioactivity H. Becquerel, 1896 – discovery of
natural radioactivity – some matter emits invisible radiation (Uranium salt)
The emitted rays are not X-rays discovered earlier by Wilhelm Roentgen
Marie and Pierre Curie explored newly found radiation, separated polonium and radium
Discovery of radon by F.E. Dorn, 1900 F. Soddy, A. Fleck, Antonius Van den
Broek - Becquerel’s found radioactivity is due to particle (charge +2) – helium nucleus
Final contribution Moseley – X-ray characteristic spectra: charge of the nucleus = its atomic number
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Rutherford experiment Rutherford scattered -particles on gold foil – first
scattering experiment 1906-1909 J.J. Thomson model “plum pudding” – there is certain
density of matter – given enough energy a particles should get through being scattered by certain angles and having lost certain energy
The results are quite unexpected:
most of a particles go through hardly scattered at all, not losing energy Some, very few, -particles are scattered backwards
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He coined the word “proton”, 1920.
Was looking for the structure of -particle
Predicted neutron, discovered by James Chadwick, 1932
Nuclear Physics: Physics of the nucleus itself – 1921 – strong interactions!
Consequences: structure – matter consists of extremely dense and small positively charged nuclei and electrons orbiting them. The distances between the nuclei are many times larger than their sizes (by a factor of about 105)
Rutherford continued scattering experiments after WW I – 1919 HON
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Masses of components
kg1011.9
kg10675.1
kg10673.1
31
27
27
electron
neutron
proton
m
m
m
Because of the mass – energy equivalence, it is convenient to introduce different units for masses:
u00055.0MeV/c 511.0
u00869.1MeV/c 6.939
u00730.1MeV/c 3.938
MeV 6.932101.6/1091066.1 :1u
isotope Cabundant most theof 1/12unit mass atomic
/
2
2
2
1916270
20
20
electron
neutron
proton
m
m
m
E
cEmmcE
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Nuclear Definitions
Nucleus: “made of” protons & neutrons = nucleons
Mass number, A: Number of nucleons in nucleus
Atomic Number, Z: Number of protons in nucleus, amount of positive charge, position on periodic table
Neutron Number, N: Number of neutrons in nucleus
A = Z + N
Isotopes: Nuclei with same Z (same element), but different N & A.
Isobars: Nuclei with same A (roughly same mass), but different Z (element) and N
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Notation for nuclei and particles:
XAZ
Examples:Carbon:CC 14
6126
Z
A
Two different isotopes of Carbon
p11
Proton: Neutron: n10
Electron: e01
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Several remarks about nuclei
We say that nuclei are “made of” nucleons – protons and neutrons
This is not quite so – the nucleons (although are the building blocks) are not the same as bare protons and neutrons: a bare neutron is not stable – it decays in about 887 seconds!
There are more effects like magic numbers, stable and unstable isotopes that are not just a straight consequence of the protons and neutrons being together
The strong force is needed to keep the nucleus together and overcome electrostatic repulsion
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RADIOACTIVITY
= Radioactive Decay
Some isotopes are unstable: too many neutrons, too few neutrons, too heavy.
These nuclei will transform into more stable nucleus.
In the process the nucleus will emit particles:
Alpha (): Helium nucleus,
Beta (): Electron,
Gamma (): electromagnetic radiation, gamma photon
He42
e01
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Penetration of radiationRadiation loses energy (scatters) and is then absorbed
In general, the larger the energy is, the smaller is the cross section.
The damage is done in interaction - at smaller energies
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Alpha Decay
Very heavy nuclei (Z>82) decay by emitting an alpha particle.
Example:
HeUPu 42
23892
24294
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Question:
Radium-226 decays via an alpha decay. What does it decay to ?
He?Ra 42
22688
1. Radon (Rn 222), Z = 86
2. Radon (Rn 230), Z = 86
3. Thorium (Th 222), Z = 90
4. Thorium (Th 230), Z = 90
HeRnHeXRa 42
22286
42
4226288
22688
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Beta Decay
In Beta decay a neutron is spontaneously converted to a proton and an electron.
NOTE: A neutron is not a proton and an electron stuck together.
Example:
eNC 01
147
146
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QUESTION:
Consider the following reaction. Which isotope are we starting with ?
eXe? 01
13154
1. Cesium (Cs), Z=55, A=130
2. Cesium (Cs), Z=55, A=131
3. Cesium (Cs), Z=55, A=132
4. Iodine (I), Z=53, A=132
5. Iodine (I), Z=53, A=131
6. Iodine (I), Z=53, A=132
νeXeI 01
13154
13153
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νeXeI 01
13154
13153
What’s that ? In order to ensure energy conservation, another particle has been predicted by W. Pauli in 1930 (before the discovery of neutron). It has been discovered only in 1955 by F. Reines and C. Cowan
This particle is a neutrino. It is almost massless, has no charge and moves with almost the speed of light, very weakly interacts with matter…
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Gamma DecayNuclei can be excited, just like electrons in an atom. They will emit a gamma photon and revert back to the ground state.
γ?Sr8738
γSrSr 8738
8738
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Beta+ decay
Positron – the anti-particle of an electron – same mass and spin, but the charge is the same, but opposite sign
Positron was predicted by P.A.M. Dirac in 1930 and discovered by C. Anderson in 1932.
Many elements undergo a so-called + decay emitting a positron (e+).
eNeNa 01
2210
2211
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Radioactivity and Energy
Particles emitted during radioactive decay have kinetic energy Heat
Responsible for keeping the earth’s core molten continental drift, volcanismUsed in some thermoelectric generators for space missions.
But where does this energy come from?Binding energy is negative!
Each spontaneous decay works in such a way that the binding energy of the products is larger than the BE of the initial nucleus – the total energy of the nuclei is reduced and an excess of energy is expelled as kinetic energy of products
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Not all radioactive isotopes decay at the same rate
Measured by half-life: Time in which half of original material has decayed.
Note: “decaying” isotopes don’t disappear, they just transform into a different isotope.
Half-Life
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Half-life is a constant for a given isotope.
Example: Half-life = 1 day
1 g radioactive isotope initially
How much is left after one day ?
Answer: ½ gram
QUESTION: How much is left after 1 additional day ?1. Nothing, since the other ½ g has now decayed
as well.
2. ¼ gram
3. ½ gram
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Answer: ¼ gram.
The half-life is always the time it takes for ½ of the original amount to decay, whatever the initial amount maybe.
How is this possible ?
Quantum mechanics: We can not predict how long a single nucleus will be stable. We can only predict the probability that it will decay in a certain time.
Half-life: Time interval during which nucleus has 50% chance to decay.
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Half-lifes vary over a HUGE range:
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Radioactive Dating
Since half-lives are fixed they can be used to date things as long as we know the initial ratio of isotopes.Example: Carbon dating
C-14 is produced in the upper atmosphere by bombardment of nitrogen by cosmic rays:
pCNn 11
146
147
10
C-14 decays with a half-life of 5,730 years back into nitrogen:
eNC 01
147
146
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Carbon Dating
As we breath, we continuously add carbon to our body that has a certain (very small) percentage of C-14.
Therefore the C-14/C-12 ratio is fixed as long as an organism is alive.
Once the organism dies, no new carbon is added and C-14 content goes down.
Half of the C-14 will be gone after 5,700 years, ¾ will be gone after 11,400 years etc.
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Radioactive dating:Carbon dating good for up to 40,000 years on organic materials (bones, wood).
Dating of rocks: Uranium-Lead, Potassium-Argon, Rubidium-Strontium, can date rocks back to billions of years
Note: you do not need to know how much of the original isotope was there in the first place. Example: Rubidium-Strontium “isochrones”.
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Time scales
Age of an average human: 8 x 101 years
Age of human civilization: 5 x 103 years
Age of upright walking human species: 2 x 106 years
Age of first known life: 3.7 x 109 years
Age of the Earth: 4.55 x 109 years
Age of universe: 1.37 x 1010 years
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Artificial nuclear reactionsRadioactive isotopes occur naturally
But they can also be made artificially by bombarding nuclei with particles:
ePuNp
eNpU
UnU
01
23994
23993
01
23993
23992
23992
10
23892
Making nuclear fuel for reactors.
Irene and Frederic Joliot – Curie, 1934
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Making use of binding energyMass and Energy are equivalent: 2
0 mcE Binding energy – mass difference
2
2
2
MeV/c 511.0
MeV/c 6.939
MeV/c 3.938
electron
neutron
proton
m
m
m
MeV 1.498Energy Binding
MeV/c 8.583,52MeV/c 7.085,52u 85.55
MeV 5.25Energy Binding
MeV/c 8.755,3MeV/c 3.730,3u 00.4
22
22
Fem
m
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Nuclear binding energy per nucleon
Release energy by fusion
Release energy by fission
Most stable nucleus
Fe has the largest binding energy per nucleon – the most desired position for a nucleus: lower fuse, higher decay
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Nuclear Fission:Very heavy nuclei can be broken up into more stable (larger binding energy), smaller nuclei if bombarded by neutrons
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Each time a U-235 nucleus undergoes fission, it releases three more neutrons.
These neutrons can hit other U-235 nuclei and split them, releasing 9 more neutrons… 27 neutrons … 81 neutrons … 243 … 729 … 2,187 … 6,561 … 19,683 …
Chain reaction!
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Atomic bombs
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Fission can also be controlled…
Fission of U-235 is more efficient of neutrons are slow. Use “moderator” (carbon, water) to slow down neutrons.
Use low concentration of U-235. U-238 does not fission, but is much more abundant.
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Some materials (cadmium, boron) absorb neutrons: Use as “control rods”:
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Nuclear fusionIf we combine a proton and a neutron they form a deuteron
They bind together (binding energy) and their combined mass is reduced.
Binding energy = “lost” mass x c2.Fusion in stars
FeSSiNaNeONeOCHeH ,,,,,
Fe is the heaviest element produced by fusion; more heavy elements are produced during supernovae explosions – similarly to the production of elements in neutron irradiation
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Nuclear Fusion
eHHH 2
HeHH 32
HHHeHeHe 433“proton-proton chain”
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Tokamak Temperature required is 1-3×108 K
ITER - 2005