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Welcome to PH 103 Dr. Cecilia Vogel Lecture 1. Class structure  Syllabus  oc

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Presentation on theme: "Welcome to PH 103 Dr. Cecilia Vogel Lecture 1. Class structure  Syllabus  oc"— Presentation transcript:

1 Welcome to PH 103 Dr. Cecilia Vogel Lecture 1

2 Class structure  Syllabus  http://helios.augustana.edu/~cv/103/103syl10.d oc http://helios.augustana.edu/~cv/103/103syl10.d oc  Materials  Text: Giancoli, “Physics”  Calculator  Quizdom remote  WebAssign registration  online or bookstore

3 You don’t have to…  read the book before class  come to class  ask questions in class  understand the assignments you get help with … unless you want to do well in the class!

4 Light  Electromagnetic wave  oscillating electric and magnetic fields  -- not moving matter!  wave moves at speed v  wavelength = distance between repeats  frequency = # oscillations per second f =v f (speed c=3X10 8 m/s in vacuum)

5 How fast?  Frequency of wave  how fast is it oscillating?  depends on the thing that’s creating the oscillations  Speed of wave  how fast is it getting from point A to point B?  depends on the properties of the thing the wave is traveling through

6 MEMORIZE EM SPECTRUM  Visible:  Longer:  Shorter: =400-700nm Infrared, microwave, radio UV, X-rays, gamma violet thru red

7 Speed of light  Speed of light is c=3X10 8 m/s, only in vacuum  Speed in other materials  is slower than vacuum  index of refraction, n  tells how much slower  in material, v=c/n  n=1 vacuum, n=1.0003 air,  n=1.33 water, n=2.42 diamond

8 Material and Wavelength  Speed in other materials  is slower than vacuum  If light passes from vacuum to material  frequency is unchanged  but speed changes – what happens to   so wavelength decreases when speed decreases  in material,  v=c/n  =  /n

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