Difference between revisions of "Physics H: Franck-Hertz Experiment Not a Verification of the Existence of Definite Energy Quanta"
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Atoms absorb energy in precise and definite amounts because the atom is an oscillator with natural resonant frequencies. When frequencies of incident EM waves coincide with these natural frequencies, then the majority energy absorption takes place. Incident photon lumps cannot explain conceivably the energy absorption process. ?Quantisation? means natural frequencies of an oscillator and not quantised energy packets. | Atoms absorb energy in precise and definite amounts because the atom is an oscillator with natural resonant frequencies. When frequencies of incident EM waves coincide with these natural frequencies, then the majority energy absorption takes place. Incident photon lumps cannot explain conceivably the energy absorption process. ?Quantisation? means natural frequencies of an oscillator and not quantised energy packets. | ||
− | [[Category:Scientific Paper]] | + | [[Category:Scientific Paper|physics h franck-hertz experiment verification existence definite energy quanta]] |
[[Category:New Energy]] | [[Category:New Energy]] |
Revision as of 10:54, 1 January 2017
Scientific Paper | |
---|---|
Title | Physics H: Franck-Hertz Experiment Not a Verification of the Existence of Definite Energy Quanta |
Author(s) | Johann Marinsek |
Keywords | Franck-Hertz Experiment, Energy Quanta |
Published | 2008 |
Journal | None |
Abstract
Atoms absorb energy in precise and definite amounts because the atom is an oscillator with natural resonant frequencies. When frequencies of incident EM waves coincide with these natural frequencies, then the majority energy absorption takes place. Incident photon lumps cannot explain conceivably the energy absorption process. ?Quantisation? means natural frequencies of an oscillator and not quantised energy packets.