Sunlight Plasma at extremely high temperatures. 6,000 ºC Outer 1.5x10 7 ºC Inner [http://www.astronomy.com/asy/objects/images/sun_full_disk_soho_09_14_1997.jpg]

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Presentation transcript:

Sunlight Plasma at extremely high temperatures. 6,000 ºC Outer 1.5x10 7 ºC Inner [

Rather uniform spectrum of colors [

Incandescent Light These heat a piece of metal until it produces light. The thin piece of metal is called a filament.

[ Mainly red/orange/yellow in spectrum of incandescent lights

Incandescent Light About 80% of the energy used is converted to heat (infrared).

Fluorescent Lights A glass tube is covered with phosphors that give off light when UV rays from the gas inside are given off.

[ Mainly blue/green in spectrum of fluorescent lights

Fluorescent Lights Uses one-fifth the energy of an incandescent light bulb. Can contain mercury so must be recycled after use.

Neon Lights Electricity is passed through a glass tube filled with gas, and the particles collide and give off light.

This creates an emission spectrum of “lines” at certain colors [

Lasers Atoms of a gas are charged with energy and they in turn all give off light with the same wavelength.

Lasers Used in medicine and in reading optical data (CD’s, DVD’s)

Tungsten-Halogen Lights The filament is made of the Tungsten which can create a tremendous amount of heat, and light. [

Has a rather uniform spectrum and is somewhat energy efficient. [

Sodium-Vapor Lamps Sodium metal becomes very hot and changes to a vapor to produce yellow- orange light. [

Can be used outdoors to reduce light pollution at night. [

Uses of Light Polarizing Filters Only light waves that are vibrating in one direction pass through. Used in sunglasses to block “glare”

Uses of Light Optical Fibers Light waves pass through a glass tube for communication purposes. Telephone, TV, Internet

Total Internal Reflection allows the light waves to “travel” through the tube. Click here for a demonstration