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1 Light By Mike Maloney
© 2003 Mike Maloney2 Light What is LIGHT? WHERE DOES IT COME FROM?
© 2003 Mike Maloney3 What is Light? Light is a wave, or rather acts like a wave. How do we know? –Reflection –Refraction –Dispersion –Diffraction –Interference –Polarization
© 2003 Mike Maloney4 What is Light Light is a special type of wave What we know as light or VISIBLE LIGHT is actually a type of something called ELECTROMAGNETIC RADIATION. So, what is electromagnetic radiation and electromagnetic waves?
© 2003 Mike Maloney5 Electromagnetic Waves When something creates energy it also emits radiation. Depending on the amount of energy, the object will emit different types of electromagnetic radiation. When we studied mechanical waves, they were all transferred through a medium. What medium is light transferred through? LIGHT DOES NOT NEED ONE!
© 2003 Mike Maloney6 Electromagnetic Waves Electromagnetic waves are special in the fact that they do not need a medium to propagate through. But what is creating the disturbance? What is emitting this energy? ELECTRONS
© 2003 Mike Maloney7 Electromagnetic Waves Electrons in materials are vibrated and emit energy in the form of photons, which propagate across the universe. Photons have no mass, but are pure energy. Electromagnetic Waves are waves that are made up of these “photons”. When these photons come in contact with boundaries, E-M waves interact like other waves would.
© 2003 Mike Maloney8 Electromagnetic Waves Electromagnetic waves are everywhere. Light is only a small part of them –Radios –TVs –Microwaves –Light ( Visible/UV/InfraRed ) –Radiation –Lasers –CD/DVD players –X-Rays
© 2003 Mike Maloney9 Electromagnetic Spectrum
© 2003 Mike Maloney10 Speed of E/M Waves From last chapter, we found that –V = f * We also said that the speed of a wave in a certain medium is always constant. It has been found that the speed of E- M waves and light is --- –3 x 10 8 or 300,000,000 m/s –671,000,000 mph –186,000 miles per second –We call this value “c”
© 2003 Mike Maloney11 c = f * C is constant throughout the universe, as long as light is in a vacuum. When it is in other materials, c can change, but can never be larger than its value in a vacuum. Since “c” is constant, all of E-M waves will have a corresponding frequency to go along with their wavelength.
© 2003 Mike Maloney12 c = f * f = c / Lets find the corresponding frequency ranges for a few of the groups of E-M waves.
© 2003 Mike Maloney13 Energy in E-M Waves Which waves have more energy, Radio waves or gamma waves?Radio waves gamma waves The greater the frequency of an E-M wave, the more crests pass a point in a certain amount of time, therefore the more photons pass that point. This means that more energy moves past that point in a certain amount of time or that the wave contains more energy.
© 2003 Mike Maloney14 Back to Light So, why can we only see a small portion of these E-M waves?
© 2003 Mike Maloney15 Our Eyes
© 2003 Mike Maloney16 Visible Light We now know what we see is part of the electromagnetic spectrum. We know that the light waves enter our eye, and stimulate parts of it that cause a electrical impulse to be sent to the brain which creates this visual image. But everything does not emit radiation. How do we see those things? And why cant we see a window?
© 2003 Mike Maloney17 Seeing things We know that when waves run into a boundary they are partially transmitted and partially reflected. Light behaves as a wave, so it to is reflected. Therefore, an object does not need to emit photons itself to be seen, it just has to reflect light back to our eyes where we can detect it. Objects that do not allow light to pass through them are called opaque. Objects that allow light to pass through them are considered transparent. Objects in between are called translucent.
© 2003 Mike Maloney18 Polarization Polarization is a phenomenon of light that is used in sun-glasses and 3-D movies. Play with the two polarizing filters for a few minutes and note what is happening and see if you can think of any reasons for it.
© 2003 Mike Maloney19 Polarization Hint Light vibrates in all directions. A polarizing filter acts like a picket fence. It only lets certain direction vibrations pass through it. Therefore, if you pass light through two of them you can completely block the light from passing through. HOW?
© 2003 Mike Maloney20 Polarization
© 2003 Mike Maloney21 Color Different objects may emit different wavelengths of E-M radiation, so we would see that light as different colors. But why do we see colors in objects that reflect light? If you shine a white light on my clothes, and it gets reflected why doesn’t all of my clothes appear white? When I shine white light through a colored piece of plastic, why does it change color?
© 2003 Mike Maloney22 Color The light we see is know as visible or white light – although it is not that simple. The light is not really white, the white we see is a combination of all the colors of the rainbow. Remember R-O-Y G. B-I-V from art class. When all of these light waves are combined we see white light.all of these
© 2003 Mike Maloney23 Color Reflection So if we see something as WHITE, that means … –It reflected back all the wavelengths of light to our eyes If we see something as RED or BLUE –It reflected only the RED or only the BLUE wavelengths –The others were absorbed. And if we see something as black? –It did not reflect back any of the light.
© 2003 Mike Maloney24 Color Transmission Filters work in a similar way. –Red filters only let RED light thru. –Blue let only BLUE light thru. What do you think that UV sticker means on your sunglasses? Why do they sell those orange glasses that are supposed to reduce glare?supposed to reduce glare
© 2003 Mike Maloney25 Some Sweet Color Tricks Combining colors in art class How does color printing work?color printing work Combining lights Why is the sky blue? Why are sunsets red? Why is water greenish-blue? How does 3-D work?How does 3-D work Why does a CD reflect a rainbow, and a mirror does not? How can you help people who are color blind? OTHERS link to site
© 2003 Mike Maloney26 Flux We now know how light behaves, but we must measure how strong it is. The rate at which a source emits light is called the LUMINOUS FLUX (P). What do you think this is measured in? What are light bulbs measured in. LUMINOUS FLUX (P) is actually measured in something called a lumen (lm). A typical 100-W bulb emits 1750 lm.
© 2003 Mike Maloney27 Illuminance Flux is the total of all the light that is emitted from a source. This is not very useful, often we would like to know how much of that light is hitting a surface at some point. The illumination of a surface is called illuminance, E. It is measured in lumens per square meter, lm/m 2
© 2003 Mike Maloney28 Illuminance How do you think illuminance is affected when the object moves away from the source? –Right the illuminance decreases So what would you expect an equation to look like for E in terms of P and the distance away d? –Close it is actually E = P 4d24d2
© 2003 Mike Maloney29
© 2003 Mike Maloney30 Electromagnetic Spectrum BACK
© 2003 Mike Maloney31 BACK
© 2003 Mike Maloney32 BACK
© 2003 Mike Maloney33 BACK
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