Question

The ejection of the photoelectron from the silver metal in the photoelectric effect experiment can be stopped by applying the voltage of 0.35 V when the radiation 256.7 nm is used. Calculate the work function for silver metal.

Answer 1

From the principle of conservation of energy, the energy of an incident photon (E) is equal to the sum of the work function (W₀) of radiation and its kinetic energy (K.E) i.e.,
E = W₀ + K.E
Energy of incident photon (E) = \(\frac{hc}{\lambda}\)
Where, c= velocity of radiation
h= Planck's constant
\(\lambda\) = wavelength of radiation
Substituting the values in the given expression of E: E = \(\frac{(6.626 × 10 ^{- 34} Js)(3.0 ×10^8 ms^{ - 1})}{256.7 × 10 ^{-9} m}\) = 7.744 × 10^-19 J = \(\frac{7.744×10^{-19}}{1.602\times10^{-19}}\) eV
E = 4.83 eV
The potential applied to silver metal changes to kinetic energy (K.E) of the photoelectron. Hence, K.E = 0.35 V
K.E = 0.35 eV
∴ Work function, W₀= E - K.E = 4.83 eV - 0.35 eV = 4.48 eV
\(\frac{5\lambda_0}{4\lambda_0}=(\frac{5.35}{2.55})^2=\frac{28.6225}{6.5025}\)
\(\frac{5\lambda_0-2000}{4\lambda_0-2000}\)= 4.40177
17.6070 λ₀ - 5 λ₀ = 8803.537 - 2000
λ₀ = \(\frac{6805.537}{12.607}\)
λ₀ = 539.8 nm
λ₀ ≈ 540 nm