What does the photoelectric effect demonstrate

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SUMMARY

The photoelectric effect demonstrates the dual nature of light, illustrating both its particle and wave characteristics. While some argue that it primarily shows the particle nature due to the quantization of light into photons, others emphasize the importance of frequency, a wave property, in explaining the phenomenon. Historical context reveals that the photoelectric effect played a crucial role in the debate over light's nature, particularly in Einstein's contributions. Ultimately, the question posed in the exam was deemed ambiguous, as it could be interpreted to support both perspectives.

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  • Understanding of the photoelectric effect and its implications in physics
  • Familiarity with the concepts of photons and their energy described by the equation E=hf
  • Knowledge of wave-particle duality in quantum mechanics
  • Basic principles of electromagnetic radiation
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  • Research the historical significance of the photoelectric effect in quantum mechanics
  • Study the mathematical derivation of the energy of photons using E=hf
  • Explore experiments that demonstrate wave-particle duality, such as the double-slit experiment
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Chen
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In an exam today the teacher asked "What does the photoelectric effect demonstrate" and the answers were "The wave nature of light", "The particle nature of light", "The dual nature of light" (i.e both)" and "Neither".

I answered that it demonstrates the dual nature of light, but she insists that it is only the particle nature of it. I think she is wrong, because when analyzing the effect we talk about the photon's energy which is equal to h\nu, but \nu is the frequency of light and that is clearly a wave property.
 
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Chen said:
In an exam today the teacher asked "What does the photoelectric effect demonstrate" and the answers were "The wave nature of light", "The particle nature of light", "The dual nature of light" (i.e both)" and "Neither".

I answered that it demonstrates the dual nature of light, but she insists that it is only the particle nature of it. I think she is wrong, because when analyzing the effect we talk about the photon's energy which is equal to h\nu, but \nu is the frequency of light and that is clearly a wave property.
Isn't it talking of light in terms of photons, which show a particle behaviour rather than a wavelike behaviour...
 
Chen,

Well, it wasn't a very fair question. If I had asked it on a test, I think I would have given credit for both answers.

That said, I think the pure particle answer is more right than the wave particle duality anwer. Frequency isn't just a wave property; it's a property of any vibration. So, the photoelectric effect could be explained with vibrating particles. It can't be explained with a wave.
 
But we define the energy of each photon as h\nu and that is a wave property. If I throw balls at a wall one a at a time I can't talk about their wave frequency, can I?

(Just saw your post) I agree that it's a "trick question". If the question was "Which behaviour of light does the effect prove", the answer would have been particle behaviour of course. But that wasn't the question...
 
Chen said:
But we define the energy of each photon as h\nu and that is a wave property. If I throw balls at a wall one a at a time I can't talk about their wave frequency, can I?

But that what makes it NOT a wave property. The energy of a classical wave is DEFINED as NOT being a function of frequency, but rather AMPLITUDE. The frequency only comes in as the "power" of the energy being transfered. The "frequency" involved in h\nu involves the oscillation of the E-field within the "energy packet". This isn't a wave that most of us are familiar with.

So the photoelectric effect is one example of the discrete energy nature of EM radiation. So I would side with your teacher in this case.

Zz.
 
That's a bad question. Because in my mind, the explanation offered for the photoelectric effective effectively demonstrates the dual nature of light. Since light had already been thought of as a wave, when this experiment was explained by Einstein, it showed that light could be thought of as both a particle and a wave.
 
What's the wave amplitude of a photon?
 
The photoelectric effect demonstrates the particle nature of light as it shows that light arrives in little packets called photons. in calssical wave nature the light could knock an electron out of orbit just by the accumulation of energy from one wave, but the photoelectric effect shows the light has to be above a certain frequency to free the electron thus dismissing the classical idea.
 
Oh, tight spot!

Historically, the photoelectric effect played an important role in the debate about the wave vs particle nature of light, and this history is a ghost at our banquet (and is echoed in how teachers write exam questions). Also, ZapperZ well summarises a common view.

However, on balance I think Chen should have been sharp enough to intuit (?) what the teacher was looking for - after all, isn't the secret to getting good marks in a multiple-choice test to ask "now just what is the test-setter looking for here?"?

It reminds me of the student who was flunked for answering a question about using a barometer to measure the height of a very tall building (she answered, in effect, drop it from the top and measure how long it takes to smash into the footpath below). But that's for a different day ... :wink:
 
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Indeed, einstein's Photoelectric Effect does show the possiblity of the dual nature of light. Most commonly observed phenomena with light can be explained by waves. But the photoelectric effect suggested a particle nature for light. This effect shows that light behaves as particles.I really think the answer depends on what level class you are taking. If it's an intro physics class, then I would have answered, "the particle nature of light."
 
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