MCQEasyJEE 2023Photoelectric Effect

JEE Physics 2023 Question with Solution

From the photoelectric effect experiment, the following observations are made. Identify which of these are correct: A. The stopping potential depends only on the work function of the metal. B. The saturation current increases as the intensity of incident light increases. C. The maximum kinetic energy of a photo electron depends on the intensity of the incident light. D. Photoelectric effect can be explained using wave theory of light. Choose the correct answer from the options given below:

  • A

    B, C only

  • B

    A, C, D only

  • C

    B only

  • D

    A, B, D only

Answer

Correct answer:C

Step-by-step solution

Standard Method

Given: Statements about the photoelectric effect are to be checked.

Find: Which statement among A, B, C, D is correct.

For the stopping potential,

Vs=KmaxeV_s = \frac{K_{\max}}{e}

and from Einstein's photoelectric equation,

Kmax=hνϕK_{\max} = h\nu - \phi

So the stopping potential depends on both the frequency of incident light and the work function of the metal. Therefore, Statement A is false.

The saturation current increases when the intensity of incident light increases, because higher intensity means more photons strike the surface per unit time and hence more photoelectrons are emitted. Therefore, Statement B is true.

Again using

Kmax=hνϕK_{\max} = h\nu - \phi

the maximum kinetic energy depends on the frequency of incident light and the work function, not on the intensity. Therefore, Statement C is false.

The wave theory of light cannot explain key observations of the photoelectric effect such as threshold frequency and instantaneous emission. The effect is explained by the particle nature of light. Therefore, Statement D is false.

Only Statement B is correct. Hence, the correct option is C.

Statement-wise Analysis

Statement A: The claim says stopping potential depends only on work function. But

Vs=Kmaxe,Kmax=hνϕV_s = \frac{K_{\max}}{e}, \qquad K_{\max} = h\nu - \phi

Hence stopping potential depends on both ν\nu and ϕ\phi. So this statement is false.

Statement B: Saturation current is related to the number of emitted photoelectrons. Increasing light intensity increases the number of incident photons per unit time, so the emitted photoelectrons and hence the saturation current increase. So this statement is true.

Statement C: The maximum kinetic energy is fixed by the photon energy and work function:

Kmax=hνϕK_{\max} = h\nu - \phi

Intensity changes the number of emitted electrons, not their maximum kinetic energy. So this statement is false.

Statement D: Classical wave theory fails to explain the photoelectric effect completely. The correct explanation requires photons and quantized energy. So this statement is false.

Therefore, only B is correct, which corresponds to option C in the given list.

Common mistakes

  • Assuming the stopping potential depends only on the work function is incorrect because it also depends on the frequency of the incident light through Kmax=hνϕK_{\max} = h\nu - \phi. Always check both terms in Einstein's equation.

  • Confusing intensity with frequency leads to the wrong conclusion about maximum kinetic energy. Intensity changes the number of emitted electrons, whereas frequency determines the maximum kinetic energy.

  • Believing that wave theory alone explains the photoelectric effect is incorrect because it cannot account for threshold frequency and instantaneous emission. Use the photon model for explanation.

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