Explanation Write the equation for the energy of the photon. E = h f (I) Here, E is the energy of the photon, h is the Planck’s constant and f is the frequency of the photon Write the equation for the maximum kinetic energy of the electrons when ejected from the metal surface. K = E − ϕ (II) Here, K is the maximum kinetic energy of the electrons when light of frequency f falls on the metal and ϕ is the work function of the metal Rewrite the above equation for E . E = K + ϕ (III) Replace f by 2 f in equation (I) to find the energy of photon when the frequency is doubled. E ′ = h ( 2 f ) = 2 h f (IV) Here, E ′ is the energy of the photon with frequency doubled Use equation (II) to find the expression for the maximum kinetic energy of electrons when the frequency of light is doubled. K ′ = E ′ − ϕ Put equation (IV) in the above equation

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Question

Chapter 28, Problem 12MCP

To determine

The maximum kinetic energy of the emitted electrons when the frequency of the light is doubled.

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Chapter 28, Problem 11MCP

Chapter 28, Problem 1P

Chapter 28 Solutions

COLLEGE PHYS. VOL 1 LLF W/MODMAST >IC<

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