electromagnetic waves and light
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Electromagnetic Waves and Light . Electromagnetic Waves . EM waves are transverse waves that have changing electric fields and changing magnetic fields Carry energy from place to place They travel differently than mechanical waves Are produced differently than mechanical waves . - PowerPoint PPT PresentationTRANSCRIPT
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Electromagnetic Waves and Light
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EM waves are transverse waves that have changing electric fields and changing magnetic fields
Carry energy from place to place They travel differently than mechanical
waves Are produced differently than mechanical
waves
Electromagnetic Waves
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Making Electromagnetic Waves When an electric charge vibrates, the
electric field around it changes creating a changing magnetic field.
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Making Electromagnetic Waves The magnetic and electric fields create
each other again and again.
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Making Electromagnetic Waves An EM wave travels in all directions. The
figure only shows a wave traveling in one direction.
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Making Electromagnetic Waves The electric and magnetic fields vibrate at
right angles to the direction the wave travels so it is a transverse wave.
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Making electromagnetic waves Summary- EM waves are produced when an
electric charge vibrates or accelerates. The electric and magnetic fields regenerate each other and travel in the form of a wave.
IMPORTANT: EM waves do not need a medium to travel through
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Properties of EM Waves All matter contains charged particles that
are always moving; therefore, all objects emit EM waves.
The intensity of light decreases as photons travel farther from the source
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What is the speed of EM waves? All EM waves travel
300,000 km/sec in space. (speed of light-nature’s limit!)
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What is the speed of EM waves? All EM waves travel
300,000 km/sec in space. (speed of light-nature’s limit!)
EM waves usually travel slowest in solids and fastest in gases.
Material Speed (km/s)
Vacuum 300,000
Air <300,000
Water 226,000
Glass 200,000
Diamond 124,000
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What is the wavelength & frequency of an EM wave? Wavelength= distance from crest to crest. Frequency= number of wavelengths that
pass a given point in 1 s. As frequency increases, wavelength
becomes smaller.
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Wave or Particle Electromagnetic radiation behaves
sometimes like a wave and sometimes like a particle
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Can a wave be a particle? In 1887, Heinrich Hertz discovered that
shining light on a metal caused electrons to be ejected.
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Can a wave be a particle? In 1887, Heinrich Hertz discovered that
shining light on a metal caused electrons to be ejected.
Whether or not electrons were ejected depended upon frequency not the amplitude of the light! Remember energy depends on amplitude.
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Can a wave be a particle? Years later, Albert Einstein explained Hertz’s
discovery: EM waves can behave as a particle called a photon whose energy depends on the frequency of the waves.
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Can a particle be a wave? Electrons fired at
two slits actually form an interference pattern similar to patterns made by waves
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Can a particle be a wave? Electrons fired at
two slits actually form an interference pattern similar to patterns made by waves
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Dr Quantum Double Slit Experiment
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Electromagnetic Waves
How they are formed
Kind of wave Sometimes behave as
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Electromagnetic Waves
How they are formedWaves made by vibrating electric charges that can travel through space where there is no matter
Kind of waveTransverse with alternating electric and magnetic fields
Sometimes behave asWaves or asParticles (photons)
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1. What produces EM waves? 2. How fast does light travel in a vacuum? 3. What makes EM waves different from one
another? 4. Explain how light behaves like a stream
of particles. 5. What happens to the intensity of light as
photons move away from the light source?
Review
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Electromagnetic Spectrum
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The whole range of EM wave… The full range of frequencies of
electromagnetic radiation is called the electromagnetic spectrum.
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The whole range of EM waves… The full range of frequencies of
electromagnetic radiation is called the electromagnetic spectrum.
Different parts interact with matter in different ways.
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The whole range of EM wave… The full range of frequencies of
electromagnetic radiation is called the electromagnetic spectrum.
Different parts interact with matter in different ways.
The ones humans can see are called visible light, a small part of the whole spectrum.
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As wavelength decreases, frequency increases…
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Used in radio, television, microwaves and radar◦ Radio broadcasting- ◦ voice converted to electrical signal that are coded
onto a radio wave ◦ Amplitude Modulation- (AM)varies the amplitude ◦ Frequency Modulation – (FM) varies the frequency◦ Your radio receives it, decodes it, and changes it
back into a wave that you can hear
Radio Waves
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◦ Television Radio waves carry information for pictures Signals are received by an antenna Location and weather can affect the signal Satellite TV- broadcast sent to satellite, then
transmitted back to earth
Fun fact- Radiation Control for Health and Safety Act of 1968- required TV recievers must not emit radiation above 0.5 milliroentgen per hour
X-ray emissions come from components of the TV that operate at thousands of volts and can generate x-rays
Radio Waves
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Radio Waves MRI MRI was developed in the 1980s to use
radio waves to diagnose illnesses with a strong magnet and a radio wave emitter and a receiver. Protons in H atoms of the body act like magnets lining up with the field. This releases energy which the receiver detects and creates a map of the body’s tissues.
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MRI
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Radar◦ Radio Detection and Ranging◦ Uses short bursts of radio waves ◦ Waves reflect off of objects ◦ Returning waves are picked up by a receiver
Police Radar◦ Uses the Doppler Effect◦ Radio waves sent from police car◦ The higher the frequency the returning wave is, the
faster the car is going◦ Computer calculates the speed of the car based on
the frequency of wave
Radio Waves
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Microwaves Microwaves have wavelengths less than
30 cm - higher frequency & shorter wavelength than a radio wave
Cell phones and satellites use microwaves between 1 cm & 20 cm for communication.
In microwave ovens, a vibrating electric field causes water molecules to rotate billions of times per second causing friction, creating TE which heats the food.
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Infrared Waves EM with wavelengths between 1mm & 750
billionths of a meter. Used daily in remote controls, to read CD-
ROMs Every objects gives off infrared waves;
hotter objects give off more than cooler ones.
Fun Fact- Satellites can ID types of plants growing in a region with infrared detectors
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Visible Light Range of EM humans can see from 750
billionths to 00 billionths of a meter. You see different wavelengths as colors.
◦ Blue has shortest◦ Red is the longest◦ Light looks white if all colors are present
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Ultraviolet Waves EM waves with wavelengths from about 400
billionths to 10 billionths of a meter. Have enough energy to enter skin cells
◦ Longer wavelengths – UVA◦ Shorter wavelengths – UVB rays◦ Both can cause skin cancer
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Can UV radiation be useful? Helps body make vitamin D for healthy
bones and teeth Used to sterilize medical supplies & equip Detectives use fluorescent powder (absorbs
UV & glows) to find fingerprints
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A range of frequenciesIn order of increasing frequency
and decreasing wavelength, the EM spectrum consists of: very long wave radio, used for communication with submarines; long, medium and short wave radio (used for AM broadcasting); FM radio, television and radar; infra-red (heat) radiation, which is recorded in the Earth photographs taken by survey satellites; visible light; ultraviolet light, which, while invisible, stimulates fluorescence in some materials; x rays & gamma rays used in medicine and released in radioactive decay
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What is the ozone layer? 20-50 km above earth Molecule of 3 O atoms Absorbs Sun’s harmful
UV rays Ozone layer
decreasing due to CFCs in AC, refrigerators, & cleaning fluids
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What could happen to humans… And other life on Earth if the ozone layer is
destroyed? phet molecules and light
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X Rays and Gamma Rays EM waves with
shortest wavelength & highest frequency
High Energy- go through skin & muscle
High level exposure causes cancer
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X Rays and Gamma Rays EM with wavelengths
shorter than 10 trillionths of a meter.
Highest energy, can travel through several centimeters of lead.
Both can be used in radiation therapy to kill diseased cells.
The composite image shows the all sky gamma ray background.
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Identify which statement is not true: A. Gamma rays are low frequency waves. B. X rays are high-energy waves. C. Gamma rays are used to treat diseases.
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F Fill in the boxes with the waves of the EM spectrum.
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phet simulation molecules and light
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Behavior of Light
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Transparent- a material you can see through clearly
Translucent-a material that scatters light
Opaque- a material that absorbs or reflects all light
Light and Materials
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When light strikes a new medium it can be◦ Reflected◦ Absorbed ◦ Transmitted
Interactions of Light
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Image- copy of an object formed by reflected or refracted waves of light
◦ Regular reflection- when parallel light waves strike a surface and reflect all in the same direction
◦ Diffuse reflection – parallel light waves strike a rough uneven surface and reflect in different directions
Reflection
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Regular (Specular) Reflection A reflection produced by a smooth surface.
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Diffuse Reflection Reflection from a rough surface.
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http://micro.magnet.fsu.edu/primer/java/reflection/specular/specularjavafigure1.jpg
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When a wave crosses a boundary between Medium 1 and Medium 2, the wave changes direction because it changes velocity.
Frequency remains constant. Velocity changes as a result of wavelength
change.
Refraction
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Also known as a mirage – false or distorted image
On a sunny day air is hotter closer to the surface of the road or hot sand – as light goes through the cooler air into the hotter air, the light waves bend and make it look like there are layers of water
Refraction
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Refraction
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Polarized light waves vibrate only in one plane
Polarization
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Polarization
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Scattering- light is redirected as it passes through a medium
Scattering
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Small particles in the atmosphere scatter shorter wavelength blue light more than light of longer wavelengths – the only light that hasn’t been scattered by the time your eyes see it is the red and orange
When the sun is high in the sky its light travels a shorter distance through the earth’s atmosphere and scatters
Scattering