Light and Color
What is Light? A wave of Electromagnetic Radiation Light behaves just like any other wave Reflects, interferes, oscillates with a certain period/frequency, has a wavelength, etc
Analogies to Sound Sound Amplitude Sound Volume/Loudness Light Amplitude Brightness
Frequency Sound Frequency Pitch Light Frequency Color
Pure Tone Sources? Sound? Tuning Forks Light? Lasers
Discrete Sources Discrete sources of sound? Instruments (guitar strings, piano keys) Discrete sources of light? Atoms
Energy Sound Energy Depends upon energy input by source Represented by amplitude Light Energy Also dependent upon energy input by source Represented by frequency
Speed Speed of Sound 340 m/s, depending on the weather Speed of Light (c) m/s, regardless of the weather We’ll use 3.00E8 m/s
Variations in Speed For sound, change the medium For light, change the medium (material, material’s properties)
Mirages
Interference Effects What happens when sound interferes? Beats, Bose Noise Cancellation Headphones What happens when light interferes? Bright and dark regions of light
Types of Light Light comes in a variety of flavors beyond what we can see Visible Infrared (wireless technology, predators) Ultraviolet, UV (black lights, cancer) Gamma Ray (cosmic sources) X Ray (body imaging) Radio (radio signals) Microwave (cell phone signals, cooking)
Each type of light has a specific frequency and wavelength The combination of all types yields the electromagnetic spectrum
How do you “make” light? Electron Transitions Objects with Temperature Radiate Light ms.php?sim=Radio_Waves_and_Electrom agnetic_Fieldshttp://phet.colorado.edu/new/simulations/si ms.php?sim=Radio_Waves_and_Electrom agnetic_Fields
“Black” Body Radiation Any object with a temperature emits light Think about metal that gets extremely hot Why can’t we see ourselves in the dark? We emit IR radiation The higher the temperature, the more energetic the light (lower wavelength)
Gamma Rays Dying, spinning stars Gamma rays do not result in super powers They result in death
How We See
Seeing the World as It Was When you look at any object, you are looking back in time Significant impacts over large distances
How Do We See? Why do we only see “visible” light, while other animals see UV and IR light? The photo detecting cells in our eyes are sensitive to these specific frequencies In fact, the color sensitive cells (cones) are specifically sensitive to red, green, and blue Three primary colors
Light Color Which light property determines color? Frequency/wavelength What we think of as red, blue, or yellow is simply electromagnetic radiation with a specific wavelength
“White” Light Run white light from a light bulb through a prism and something interesting happens You can a rainbow Why? Add all the colors in the rainbow together and you get white light
We learned with sound, that you can add sounds of various frequencies together to get new sounds You can do the same thing with light color
Color by Reflection Imagine you see someone in the class wearing a red shirt Why does the shirt appear red?
Color Filters Shine white light through a color filter and you get colored light Why? The filter absorbs all frequencies but the filter frequency
Color addition What happens when you combine colors? ms.php?sim=Color_Visionhttp://phet.colorado.edu/new/simulations/si ms.php?sim=Color_Vision
Ink? If you add together red, blue, and green light, you get white light If you add together red, blue, and green paint, you get a mess Why?
Pigments Why does a particular shirt look green? Why is it warmer when wearing a dark shirt on a sunny day? The pigments in fabrics absorb light of all colors except what you see When you mix various colors of paint, what happens?
Wave or Particle? 20 th century experiments revealed that light sometimes behaves like a particle We call these particles “photons”