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Principle
Electrons are accelerated in a tube filled with mercury vapour. The excitation energy of mercury is determined from the distance between the equidistant minima of the electron current in a variable opposing electric field.
Benefits
- Experience the essence of the Nobel Price: Franck, Hertz (1925)
- Classical Version with Mercury (Hg)
- One operating unit for 2 experiments (Hg, Ne)
- Precise determination of electron excitation energy of Hg
- Direct connection to computer, no extra interface necessary
Tasks
- To record the countercurrent strength Ι in a Franck-Hertz tube as a function of the anode voltage U.
- To determine the excitation energy E from the positions of the current strength minima or maxima by difference formation.
Learning objectives
- Energy quantum
- Electron collision
- Excitation energy
Device name
Article no.
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Name
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Digital learning
(de) Versuchsbeschreibung deutsch
p2510311d .pdf
File size 0.49 Mb
pdf
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(de) Versuchsbeschreibung deutsch docx
p2510311d .docx
File size 0.49 Mb
docx
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(en) Versuchsbeschreibung
p2510311_en .pdf
File size 1.27 Mb
pdf
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(ru) Versuchsbeschreibung
p2510311_ru .pdf
File size 1.45 Mb
pdf
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Franck-Hertz experiment with a Hg-tube
- .H5P
File size -
.H5P
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