Photoelectric effect and kinetic energy

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Homework Help Overview

The discussion revolves around the photoelectric effect, specifically focusing on why emitted electrons do not all possess the same kinetic energy when subjected to radiation of a single wavelength. The original poster seeks clarification on the relationship between the energy states of electrons in a metal and their kinetic energy upon emission.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore the concept of the work function and its impact on the kinetic energy of emitted electrons. Questions arise regarding the interpretation of maximum kinetic energy in relation to the energy states of electrons within the metal.

Discussion Status

Participants are actively engaging with the concepts, with some providing insights into the energy structure of electrons and the implications of the work function. There is a recognition that not all electrons will achieve maximum kinetic energy, and the discussion is exploring the nuances of this phenomenon.

Contextual Notes

There is an ongoing examination of the energy levels of electrons in the metal and how these levels relate to the kinetic energy of emitted electrons. The discussion acknowledges the complexity of the potential well structure and its effect on electron emission.

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hi
i have a small question:

how come not all emitted electrons have the same kinetic energy despite the radiation of only a single wavelength (that does cause emission of electrons) ?

thanks
 
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The energy structure of the electrons in the metal gives a maximum energy of -φ (the "work function") w.r.t the free state, but the electrons can occupy energy states below this threshhold, as well.
 
thanks for your reply

i don't want to be a troublesome person, but does it mean that the maximum kinetic energy that is calculated by the formula refers to free electrons, while others can occupy different energy levels and therefore have smaller kinetic energy?

thanks again
 
What formula?
 
Ephoton = Φ + KEmax


Ephoton = hf is energy of the photon.

Φ is the work function of the metal.

KEmax is the maximum kinetic energy of the ejected electrons .
 
OK, no. It means that the maximum kinetic energy refers to only those electrons that have a maximum energy "in the potential well of the metal". Actually, not even all of these electrons will obtain the maximum kinetic energy in your formula, because the potential well has some nontrivial structure. For your purposes, it is probably sufficient to realize that there is a minimum required EM radiation frequency to free an electron.
 
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