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Published byChristian Hugh White Modified over 9 years ago
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Light Chapter 16 & 17
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What is light? Usually we think of only visible light but visible light is just a part of the electromagnetic spectrum. Light sources: sun, flames, sparks, fireflies, glow sticks. Lamps. LEDs, lasers, TV etc., If there is NO light in a room you cannot see anything.
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Let’s define light Light is the a range of frequencies in the electromagnetic spectrum that stimulate the retina of the eye. Light waves have a λ of 4.00 x 10 -7 m to 7.00 x 10 -7 m ( 400-700nm) Light travels in a vacuum, does not need medium. Travels in a straight line.
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Ray model of light Light travels in a straight-line path. That is why you see a shadow. The light in the straight path is blocked and the light does not go around.
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Speed of Light Galileo was the first to guess that light has a certain speed and he tried to measure it. Albert Michelson measured time of light to pass between 2 mountains. 1 st American to receive Nobel prize in science. Speed of light 2.99899 x 10 8 m/s We just say 3.00 x 10 8 m/s speed of light in a vacuum. Represented by c
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Equation for the speed of light c= λf EX; What is the frequency of yellow light if it has a wavelength of 556 nm? 3.00 x 10 8 m/s= 5.56 x 10 -7 m(f) f=5.40 x 10 14 Hz
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Electromagnetic spectrum
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Visible LIGHT White light is split into colors (rainbow). ROYGBIV Longest wavelength is red,lowest f
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Color White light is not a single color; it is made up of a mixture of the seven colors of the rainbow. 24 year old Issac Newton did first experiments on splitting light (Spectrum) We can demonstrate this by splitting white light with a prism: ROY G BIV This is how rainbows are formed: sunlight is “split up” by raindrops.
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Adding colors White light can be split up to make separate colors. These colors can be added together again. The colors of light are red, blue and green: Adding blue and red makes magenta (purple) Adding blue and green makes cyan (light blue) Adding all three makes white again Adding red and green makes yellow
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Color Perception
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Using colored light If we look at a colored object in colored light we see something different. For example, consider a soccer uniform : White light Shorts look blue Shirt looks red
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In different colors of light this kit would look different: Red light Shirt looks red Shorts look black Blue light Shirt looks black Shorts look blue
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Because light travels as wavelengths If you change what wavelengths are reflected- you change the color. Try this with polarized filters.
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Ready for some confusing terms? Luminous Flux (P) = the rate at which visible light is emitted from a source. Or total amount of light from source Units for luminous flux = lumen (lm) This is over a large (usually circular area)
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Illuminance (E)- how much light emitted by a luminous object. Ex. How much light is on the book. (Rate light falls on a surface) Units for Illuminance = lux (lx) = lm/m 2
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What is the illumination of a spherical area’s surface if a 100 watt bulb is in the middle of the sphere? 100 watt bulbs lets off 1750 lm of flux Area of the surface is 4 πr 2 At a distance of 1 m from the bulb, comparer amt of light emitted to area – 1750 lm/4πr 2 m 2 = 140 lx
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Luminous intensity Measured in candela (cd) or candle power What is it? It is the luminous flux (rate light comes from a source) that falls on 1 m 2 of a sphere 1 m in radius. So…. Lum flux = 1750 lm = 139 cd 4 πd 2 4 πd 2 candela is SI unit for light intensity
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How can you increase light on a surface? 1) Use brighter bulbs (increases lum flux – lm) 2) Move surface closer (decreasing distance) 3) Use twice as much candle power
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Summary of terms Term UsedDefinitionvariableunits Luminous fluxRate light emitted Plm IlluminanceIllumination of a surface E lux or lx Luminous intensity Rate light is emitted over a square meter of a sphere cd= candela Represented by I cd
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How to use this An equation that represents this Illuminance E = P P= lum flux (lm) 4 πd 2 d = distance from surface
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Example Problem #1 What is the illumination on your desktop if it is lighted by a 1750 lm lamp that is 2.50 m above your desk? 2.50 m
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Solution Luminous flux, P = 1750 lm d = 2.50 m Illuminance, E = ? E= PE= 1750 lm 4 πd 2 4π(2.50)2 22.3 lm/m 2 = 22.3 lx
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