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Problems 12: 1,4,5,10;11,13,15,18 4/21/08 '''Chapter 13:'''
 '''''Nuclear Structure'''''
 * Aspirator
 * Liquid drops ???
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Chapter 13: Nuclear Structure 4/23/08
Demo: aspirator, liquid drops 4/23/08
'''Chapter 13:'''
 '''''Nuclear Structure'''''
 * Geiger counter and source
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Chapter 13: Nuclear Structure 4/25/08
Demo: Gieger counter and source 4/25/08
'''Chapter 14:'''
 '''''Nuclear Physics Applications'''''
 * Mouse Trap Chan Reactor
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Chapter 14: Nuclear Physics Applications 4/28/08
Demo: model for fission 4/28/08
Problems 13: 2,4,9,12;18,23,30,33 4/28/08
'''Chapter 14:'''
 '''''Nuclear Physics Applications'''''
 * Cathode ray bending with magnets - fusion
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Chapter 14: Nuclear Physics Applications  4/30/08
Demo:
cathode ray bending with magnets - fusion 4/30/08
'''Chapter 14:'''
'''''Nuclear Physics Applications'''''
* Photomultiplier tubes
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Chapter 14: Nuclear Physics Applications 5/2/08
Demo: photomultiplier tubes 5/2/08
'''Chapter 15:'''
 '''''Elementary Particles'''''
 * Van de Graaff
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Chapter 15: Elementary Particles 5/5/08
Demo: van de graaff electrostatic machine 5/5/08
Problems14: 2,3,7,11;22,30,41,47 5/5/08
'''Chapter 15:'''
 '''''Elementary Particles'''''
 * No Demo
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Chapter 15: Elementary Particles  5/7/08
D
emo: 5/7/08
'''Chapter 15:'''
'''''Elementary Particles'''''
 * Course evaluations
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Chapter 15: Elementary Particles 5/9/08
Demo: course evaluations 5/9/08
Problems 15: 2,3,5,6;11,13,15,17 5/9/08

Draft from Carlsmith

Physics 244 Demonstrations

Lecture 1

  • Chapter 1: Relativity I

  • Laser and double slit

Lecture 2

  • Chapter 1: Relativity I

  • Michelson interferometer

Lecture 3

  • Chapter 2: Relativity II

  • Geiger counter and sources

Lecture 4

  • Chapter 2: Relativity II

  • no demos

Lecture 5

  • Chapter 2: Relativity II

  • Cavandish of "G" Gravity ("Requires 48 hours pre notice and setup time")

Lecture 6

  • Chapter 3: The Quantum Theory of Light

  • Shortwave radio
  • Glowing filament/blackbody

Lecture 8

  • Chapter 3: The Quantum Theory of Light

  • Photoelectric effect

Lecture 9

  • Chapter 3: The Quantum Theory of Light

  • Electron diffraction
  • X-ray diffraction (do not have)

Lecture 10

  • Chapter 4: The Particle Nature of Matter

  • Cathode ray tube
  • Electrolysis and plating

Lecture 11

  • Chapter 4: The Particle Nature of Matter

  • Mercury spectrum

Lecture 12

  • Chapter 4: The Particle Nature of Matter

  • Frank-Hertz Experiment

Lecture 13

  • Chapter 5: Matter Waves

  • Waves on a rope

Lecture 14

  • Chapter 5: Matter Waves

  • laser with 1 and 2 slits

Lecture 15

  • Chapter 5: Matter Waves

  • No Demos

Lecture 16

  • Chapter 6: Quantum Mechanics in One Dimension

  • Standing waves on a string

Lecture 17

  • Chapter 6: Quantum Mechanics in One Dimension

  • harmonic oscillators

Chapter 6:

  • Quantum Mechanics in One Dimension

  • Standing waves in water

Chapter 7:

  • Tunneling Phenomena

  • Total internal reflection

Chapter 7:

  • Tunneling Phenomena

  • Laser and beam splitter and partial transmitting mirror

Chapter 7:

  • Tunneling Phenomena

  • Cloud chamber ("Requires 48 hours pre notice and setup time")
  • alpha source

Chapter 8:

  • Quantum Mechanics in 3 Dimensions

  • Waves on a drum movie

Chapter 8:

  • Quantum Mechanics in 3 Dimensions

  • Atomic orbital models

Chapter 8:

  • Quantum Mechanics in 3 Dimensions

Chapter 9:

  • Atomic Structure

  • Para/Diamagnetism
  • Tops

Chapter 9:

  • Atomic Structure

  • Periodic table

Chapter 9:

  • Atomic Structure

  • H lamp, Hg,Ne,He lamp tower, gratings

Chapter 10:

  • Statistical Physics

  • Brownian motion

Chapter 10:

  • Statistical Physics

  • Heat Capcity of water (Joule) (Need a new Demo)

Chapter 10:

  • Statistical Physics

  • No Demo:

Chapter 11:

  • Molecular Structure

  • Molecular models
  • Two balls connected by a string
  • Two balls connected by a spring

Chapter 11:

  • Molecular Structure

  • No Demo

Chapter 11:

  • Molecular Structure

  • No Demo

Chapter 12:

  • The Solid State

  • Crystal models

Chapter 12:

  • The Solid State

  • Thermal conductivity
  • Electrical resistivity

Chapter 12:

  • The Solid State

  • Superconductivity

Chapter 13:

  • Nuclear Structure

  • Model of nucleus
  • Table of isotopes

Chapter 13:

  • Nuclear Structure

  • Aspirator
  • Liquid drops ???

Chapter 13:

  • Nuclear Structure

  • Geiger counter and source

Chapter 14:

  • Nuclear Physics Applications

  • Mouse Trap Chan Reactor

Chapter 14:

  • Nuclear Physics Applications

  • Cathode ray bending with magnets - fusion

Chapter 14:

  • Nuclear Physics Applications

  • Photomultiplier tubes

Chapter 15:

  • Elementary Particles

  • Van de Graaff

Chapter 15:

  • Elementary Particles

  • No Demo

Chapter 15:

  • Elementary Particles

    • Course evaluations

[:Demonstrations:Demonstrations]

[:Instructional:Home]

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