Find the velocity of photoelectrons liberated by electromagnetic radiation of wavelength `lambda=18.0nm` from stationary `He^(+)` ions in the ground state.

Suppose the energy liberated in the in the recombination of a hole-electron pair is converted into electromagnetic radiation.If the maximum wavelength emmited is 820nm,What is the band gap?

Ground state energy of H-atom is (-E_(1)) ,t he velocity of photoelectrons emitted when photon of energy E_(2) strikes stationary Li^(2+) ion in ground state will be:

The electrical conductivity of a semiconductor increases when electromagnetic radiation of wavelength shorter than 2480 nm is incident on it. Find the band gap of the semiconductor.

The hydrogen atom in ground state is excited by a monochromatic radiation of wavelength lambda = 1025 A . The possible number of emmision spectral lines in the spectrum will be (hc = 12400 eV A)

In a hydragen spectrum third line of Balmer's series having wavelength lambda . Find the binding energy o the ground state.

The energy required to stop ejection of electrons from a Cu plate is 0.24 eV .Calculate the work function Cu when a radiation of wavelength lambda = 250 nm strikes the plate

In a set of experiment on a hydrogen on a hypotherical one-electron atom, the wavelength of the photons emitted from transition ending in the ground state (n = 1) are shown in the energy level diagram lambda_(5 to 1) = 73.86 nm lambda_(4 to 1) = 75.63 nm lambda_(3 to 1) = 79.76 nm lambda_(2 to 1) = 94.54 nm The possible energy of the atom in n = 3 cannot be

In a set of experiment on a hydrogen on a hypotherical one-electron atom, the wavelength of the photons emitted from transition ending in the ground state (n = 1) are shown in the energy level diagram lambda_(5 to 1) = 73.86 nm lambda_(4 to 1) = 75.63 nm lambda_(3 to 1) = 79.76 nm lambda_(2 to 1) = 94.54 nm The energy of the atom in level n = 1 is nearly

Photoelectrons ar ejected from a surface when light of wavelenght lamda_1=550 nm is incident on it. The stopping potential for such electrons is lamda_(S1)=0.19V . Suppose that radiation of wavelength lamda_2=190nm is incident of the surface. Q. Calulate the work function of the surface.

Photoelectrons ar ejected from a surface when light of wavelenght lamda_1=550 nm is incident on it. The stopping potential for such electrons is lamda_(S1)=0.19V . Suppose that radiation of wavelength lamda_2=190nm is incident of the surface. Q. Calculate the stopping potential V_(S2) .