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## Physics 244 Demonstrations

Here is a composite list of demos that have been used for this course in the past and are grouped by Lecture days. This list is only a reference guide and may differ from actual demos used in lecture depending on which faculty is teaching this course.

Draft from Carlsmith Notices

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 prior notice and setup time")

Lecture 6

• Chapter 3: The Quantum Theory of Light

• 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

Lecture 18

• Chapter 6: Quantum Mechanics in One Dimension

• Standing waves in water

Lecture 19

• Chapter 7: Tunneling Phenomena

• Total internal reflection

Lecture 20

• Chapter 7: Tunneling Phenomena

• Laser and beam splitter and partial transmitting mirror

Lecture 21

• Chapter 7: Tunneling Phenomena

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

Lecture 22

• Chapter 8: Quantum Mechanics in 3 Dimensions

• Waves on a drum movie

Lecture 23

• Chapter 8: Quantum Mechanics in 3 Dimensions

• Atomic orbital models

Lecture 24

• Chapter 8: Quantum Mechanics in 3 Dimensions

Lecture 25

• Chapter 9: Atomic Structure

• Para/Diamagnetism
• Tops

Lecture 26

• Chapter 9: Atomic Structure

Lecture 27

• Chapter 9: Atomic Structure

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

Lecture 28

• Chapter 10: Statistical Physics

• Brownian motion

Lecture 29

• Chapter 10: Statistical Physics

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

Lecture 30

• Chapter 10: Statistical Physics

• No Demo:

Lecture 31

• Chapter 11: Molecular Structure

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

Lecture 32

• Chapter 11: Molecular Structure

• No Demo

Lecture 33

• Chapter 11: Molecular Structure

• No Demo

Lecture 34

• Chapter 12: The Solid State

• Crystal models

Lecture 35

• Chapter 12: The Solid State

• Thermal conductivity
• Electrical resistivity

Lecture 36

• Chapter 12: The Solid State

• Superconductivity

Lecture 37

• Chapter 13: Nuclear Structure

• Model of nucleus
• Table of isotopes

Lecture 38

• Chapter 13: Nuclear Structure

• Aspirator
• Liquid drops ???

Lecture 39

• Chapter 13: Nuclear Structure

• Geiger counter and source

Lecture 40

• Chapter 14: Nuclear Physics Applications

• Mouse Trap Chan Reactor

Lecture 41

• Chapter 14: Nuclear Physics Applications

• Cathode ray bending with magnets - fusion

Lecture 42

• Chapter 14: Nuclear Physics Applications

• Photomultiplier tubes

Lecture 43

• Chapter 15: Elementary Particles

Lecture 44

• Chapter 15: Elementary Particles

• No Demo

Lecture 45

• Chapter 15: Elementary Particles

• Course evaluations

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