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.

From the principle of conservation of energy, the energy of an incident photon (E) is equal to the sum of the work function `(W_(0)) `of radiation and its kinetic energy (K.E) i.e.,
`E=W_(0)+K.E`
`implies W_(0)=E-K.E`
Energy of incident photon (E)`=(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=((6.26xx10^(-34)Js)(3.0xx10^(8) ms^(-1)))/(256.7xx10^(-9) m)`
`=7.744xx10^(-19) J`
`(7.44xx10^(-19))/(1.602xx10^(-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
`therefore`Work function,` W_(0)` = E – K.E
= 4.83 eV – 0.35 eV
= 4.48 eV
`(5 lambda_(0)-2000)/(4 lambda_(0)-2000)=((5.35)/(2.55))^(2)=(28.6225)/(6.5025)`
`5 lambda_(0)-2000)/(4 lambda_(0)-2000)=4.40177`
`17.6070 lambda_(0)=5 lambda_(0)=8803.537-2000`
`lambda_(0)=(6805.537)/(12.607)`
`lambda _(0)=539.8 nm`
`lambda_(0)=540 nm`