The stopping potential for photoelectrons ejected from a surface by 375 mm photons is 1.870 V. Calculate the stopping potential for 600 nm photons .

The stopping potential for photoelectrons ejected from a surface by 375 nm photons is 1.870 V. Calculate the stopping potential for 600 nm photons .

At stopping potential, the photoelectrons have

At stopping potential, the photoelectrons have

The stopping potential for the photoelectrons , from a photocell , is proportional

The stopping potential for the photoelectrons, from a photocell, is proportional

The stopping potential for photoelectrons emitted from a surface illuminated by light wavelength of 5893A is 036 V . Calculate the maximum kinetic energy of photoelectrons, the work function of the surface, and the threshold frequency.

The stopping potential for photoelectrons emitted from a surface illuminated by light wavelength of 5893A is 0.36 V . Calculate the maximum kinetic energy of photoelectrons, the work function of the surface, and the threshold frequency.

The maximum kinetic energy of photoelectrons emitted from a surface when photons of energy 6 eV fall on it is 4 eV. Find the stopping potential in volts.

Electrons in hydrogen like atom (Z= 3) make transition from the fifth to the fourth orbit and from the third orbit. The resulting radiation are incident normally on a metal plate and eject photoelectrons. The stopping potential for the photoelectrons ejected by the shorter wavelength is 3.95 volts. Calculate the work function of the metal and the stopping potential for the photoelectron ejected by longer wavelength (Rydberg constant = 1.094 xx10^(7) m^(-1)