What is the threshold wavelength for a cesium surface, for which the work function is 1.8 eV ?

If threshold wavelength for sodium is 6800Å then the work function will be

If the threshold wavelength for sodium is 5420 Å , then the work function of sodium is

The threshold wavelength of a metal having work function 2 eV is 6000 Å . What will be the threshold wavelength for the metal having a work function of 6 eV ?

A metal has a work function phi_(0) and its corresponding threshold wavelength is lambda_(0) . If the threshold wavelength for a metal whose work function is (phi_(0))/(3) is n lambda_(0) , then what is the value of n ?

The threshold wavelength for tungsten is 2730 Å . The work function of tungsten is

Work function of a metal is the maximum amount of energy required by an electron, to just escape form the metal surface without any kinetic energy. The expression for work function of metal is phi_(0)=hv_(0)=hc//lambda_(0) , where h is Planck's constant, v_(0) is the threshold frequency, lambda_(0) is the threshold wavelength and c is the velocity of light in vacuume. Read the above paragraph and answer the following questions: (i) Why different metals have different work function? (ii) What is the threshold wavelength of the incident radiation for a metal surface whose work function is 1.2 eV. Given h=6.63xx10^(-34)Js, 1eV=1.6xx10^(-19)J . (iii) What do you learn from this study?

Electromagnetic radiations of wavelength 2000Å are incident on a metal surface which has a work function 5.01 eV The stopping potential for the given setup is