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The energy of the Hydrogen 1.4GHz resonance is 5.8 μeV.The energy of the photoelectric work function is typically around 3-5 eV.
The electron is a negatively uniformly charged ball and the metal ion is a positively uniformly charged ball. The two are about the same size
we're getting to Hooke's Law. Therefore, we have for the spring constant...
A photon counter counts photons less often at low intensity because they are arriving less often.
So, the metal ion has a finite size and the electron is infinitely smaller.Yet you say they are about the same size.
Quote from: alancalverd on 29/01/2019 16:47:43A photon counter counts photons less often at low intensity because they are arriving less often.Yes, it can be explained this way and that. And the sensitivity curves of the photon detectors speak also for the resonance. They look like the damped resonance curve (figure below).
Yes, it can be explained this way and that. And the sensitivity curves of the photon detectors speak also for the resonance. They look like the damped resonance curve (figure below).
A quick search of the internet lead me to the magnetohydrodynamic drive. As I mentioned above, a very similar theory and the same keywords/buzzwords are employed to explain your photoelectric effect as resonance effect, with practical variation implemented
The metal ion is immobile. The electron, on the other hand, is very fast. In its chaotic movement around the metal ion, it blurs into a sphere.