Photoelectric Effect: Explaining Cutoff Potential

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SUMMARY

The cutoff potential in the photoelectric effect is defined as the minimum potential difference required to reduce the photo current to zero. When light of sufficient frequency is directed at a metal, electrons are emitted with kinetic energy. By applying a voltage between the emission point and the detection point, the electrons can be decelerated until they stop completely, resulting in no measurable current. This phenomenon is instrumental in determining the work function of the metal used in the experiment.

PREREQUISITES
  • Understanding of the photoelectric effect
  • Familiarity with kinetic energy concepts
  • Knowledge of voltage and current relationships
  • Basic principles of electron emission from metals
NEXT STEPS
  • Research the work function of various metals in photoelectric experiments
  • Explore the relationship between light frequency and electron emission
  • Learn about experimental setups for measuring cutoff potential
  • Investigate the role of voltage in electron dynamics during the photoelectric effect
USEFUL FOR

Students studying physics, educators teaching the photoelectric effect, and researchers interested in electron emission phenomena.

dmitrip
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Cutoff potential?

hello, in the photoelectric effect what is the cutoff potential? the official definition in my textbook is that it is the "smallest potential difference sufficient to reduce the photo current to zero" you guys will probably laugh but that doesn't really make sense to me and I would really appreciate it if somebody could clarify it to me in simpler language.

thanks a lot.
 
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If I remember correctly, one shines light on a piece of metal and, if the frequency is high enough, electrons come out of the metal and their currect can be detected. The electrons come out of the metal at point 'A' with some kinetic energy and they travel to the detection point 'B'. If you put a voltage (potential difference) between A and B you can slow the electrons down. At some point you will eventually get the electrons to stop altogether and there will be no current measured. You can use this type of experiement to measure the work function of the metal.
 

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