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Quantum Physics
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Quantum Physics
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Results #1-#10 of 43
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1.
Modeling Light Emission to Explain Phosphorescence
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Match Score:
100
Byline:
Kansas State Physics Education Research Group and D. Zollman
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This resource discusses the energy levels of in a solid, including conduction, valence, and impurity bands. Transitions between levels that model phosphorescence are described. The…
https://web.phys.ksu.edu/vqm/tutorials/phosphorescence/index.html
2.
Infrared Detector: Card Model
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Match Score:
100
Byline:
Kansas State Physics Education Research Group and D. Zollman
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This resource describes the physics of a simple infra-red detector. A simulation is used to illustrate energy level dependence and electron transitions in the detector. Discussion…
https://web.phys.ksu.edu/vqm/tutorials/infrareddetector/index.html
3.
Hydrogen Spectroscopy II
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Match Score:
100
Byline:
Kansas State Physics Education Research Group and D. Zollman
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This resource illustrates the spectrum of hydrogen, from wavelengths of 2500 nm to 50 nm. An energy-level diagram tool is used to create a spectrum that matches the experimental…
https://web.phys.ksu.edu/vqm/software/online/vqm/html/h2spec.html
4.
Interpreting Wave Functions
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100
Byline:
Kansas State Physics Education Research Group and D. Zollman
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This resource discusses the meaning of quantum wavefunctions in terms of measurement probabilities. The double-slit experiment is used to motivate the concept of probabilistic…
https://web.phys.ksu.edu/vqm/tutorials/interpretingwavefunctions/index.h...
5.
Modeling Light Emission by Fluorescent Lamps
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Match Score:
100
Byline:
Kansas State Physics Education Research Group and D. Zollman
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This resource discusses the energy levels of a periodic solid, and the effects of impurities on the energy levels. Applications of the energy levels to light emission and color are…
https://web.phys.ksu.edu/vqm/tutorials/mlemain.html
6.
Matter Waves
Related match:
Interpreting Wave Functions
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Match Score:
100
Byline:
Kansas State Physics Education Research Group and D. Zollman
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This resource discusses wave interference and quantum waves associated with particles. A shockwave simulation gives an illustration of the quantum double-slit experiment. Questions…
https://web.phys.ksu.edu/vqm/tutorials/matterwaves/
7.
Light and Waves
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Match Score:
100
Byline:
Kansas State Physics Education Research Group and D. Zollman
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This resource discusses wave interference and quantum waves associated with particles. Two classical experiments are used to illustrate the different behavior of classical waves and…
https://web.phys.ksu.edu/vqm/tutorials/lightwaves/
8.
Gaussian Wave Packet: Step Scattering
[ Computer Program ]
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Match Score:
100
Byline:
J. Palop
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The Gaussian Wave Packet: Step Scattering model simulates the time evolution of a free Gaussian wave packet in position space when it is incident on a potential energy step. The…
https://www.compadre.org/student/document/ServeFile.cfm?ID=10535&DocID=2...
9.
Motion Mountain - The Free Physics Textbook
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Match Score:
100
Byline:
C. Schiller
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This is a freely downloadable physics textbook exploring mechanics, thermodynamics, electromagnetism, special and general relativity, quantum theory, and modern unification attempts.…
https://www.motionmountain.net/
10.
Paradigms in Physics: Linear Combinations of Spherical Harmonics
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Match Score:
100
Byline:
C. Manogue and K. Browne; Publisher: Paradigms in Physics Program
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This computer visualization activity is designed to help upper division undergraduate students visualize linear combinations of spherical harmonics. Students use a Maple worksheet or…
http://sites.science.oregonstate.edu/physics/portfolioswiki/doku59e9.htm...
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Results #1-#10 of 43
