The `IE_(1)` of `H` is `13.6 eV`. It is exposed to electromagnetic waves of `1028Å` and gives out induced radiation. Find out orbit of these induced radiation.

A hydrogen -like ion He^(o+) (Z = 2) is expased to electromagnetic waves of 256.4 Å The excited electron gives out induced radiation .Find the wavelength of the induced radiation when the electron de-excetes back to the ground state (R = 109677 cm^(-1))

The ionisation potential of H-atom is 13.6eV . It is exposed to electromagnetic radiation of wavelength 1028A^(@) and gives out induced radiations, then

H-atom is exposed to electromagnetic radiation of lambda=1025.6 Å and excited atom gives out induced radiation. What is the minimum wavelength of the induced radiation?

H-atoms is exposed to electromagnetic radition of 1028Å and gives out induced raditions ( raditions emitted wher e^(-) return to ground state ) .Calculate lambda of induced radiations.

A hypothetical electromagnetic wave is shown in figure. Find out the wavelength of the radiation.

If energy of electron in ground state is -13.6 then find out speed of electron in fourth orbit of H-atom

The bank gap of an alloy semiconductor galiumarseide phosphie is 1.98eV . Calculate the wavelength of radiation that is emitted when electrons and holes in this material combine directly. What is the colour of the emitted radiation? Take h=6.6xx10^(-34) Js

The ionisation potential of H -atom is 13.6 eV . When it is excited from ground state by monochromatic radiations of 970.6 Å , the number of emission lines will be (according to Bohr's theory)