Resource Lesson
Chapter 3: Electrons
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Leyden Jar
Volta
Voltaic pile
Geissler tubes
Eugen Goldstein
Crooke's Tube
charge to mass ratio of an electron (cathode rays)
blackbody radiator
Wien's Law
Stefan's Law Student Experiment
Roentgen x-rays
-
luminescence
von Laue
crystal diffraction pattern
equipment
Bragg diffraction
equation
Hertz spark gap discharge
Photoelectric Effect
simulation
lecture on the path to the electron
Hallwachs effect
Compton Effect
animation
deBroglie matter waves
Davisson-Germer
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A Photoelectric Effect Analogy
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Basic Particles
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Experimental Radius
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Hydrogen Spectrum
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Hydrogen Spectrum
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Mass of an Electron
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Mass of the Top Quark
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Mirror Symmetry
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Quantized Mass
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Radiation of a Metal Cylinder
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Using Young's Equation - Wavelength of a Helium-Neon Laser
Resource Lesson:
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An Outline: Dual Nature of Light and Matter
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Atomic Models and Spectra
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Derivation of Bohr's Model for the Hydrogen Spectrum
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Energy-Level Diagrams
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Famous Discoveries and Experiments
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Famous Discoveries: Bohr Model
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Famous Discoveries: de Broglie Matter Waves
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Famous Discoveries: The Franck-Hertz Experiment
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Famous Discoveries: The Photoelectric Effect
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Famous Experiments: Davisson-Germer
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Famous Experiments: Michelson-Morley
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Famous Experiments: Millikan's Oil Drop
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Famous Experiments: The Compton Effect
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Famous Experiments: The Discovery of the Neutron
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Fundamental Forces
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Nuclear Reaction
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Radioactive Halflife
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Speed of Light in Transparent Media
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What is Mass?
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Orbitals
Worksheet:
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Eternally Bohring
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Nuclear Flu
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The Science Fair
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What's My Line
CP -
Atomic Nature of Matter
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Atomic Nucleus and Radioactivity
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Balancing Nuclear Equations
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Natural Transmutations
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Nuclear Fission and Fusion
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Radioactive Half Life
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The Atom and the Quantum
NT -
Atomic Number
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Beta Decay
NT -
Binding Energy
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Black Holes
NT -
Electrostatic Attraction
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General Relativity
NT -
Helium Balloons
NT -
Hot Springs
NT -
Hydrogen Atom
NT -
Hydrogen Fusion
NT -
Nuclear Equations
NT -
Photoelectric Effect
NT -
Radiant Energy
NT -
Radioactive Cookies
NT -
The Ax Handle
NT -
Uranium Decay
NT -
Uranium Fission
WS -
Atomic Models and Spectra
WS -
Energy Level Diagrams
WS -
Parallel Reading - The Atom
WS -
Rotational and Reflection Symmetries
WS -
Standard Model: Particles and Forces
TB -
38A: Atomic Physics
TB -
Half-Life Properties
PhysicsLAB
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