Monochromatic radiation of wavelength `lambda` are incident on a hydrogen sample in ground state. Hydrogen atoms absorb the light and subsequently emit radiations of 10 different wavelength . The value of `lambda` is nearly :

Monnohramatic radition of wavelength lambda is incident on a hydrogen sample in ground state hydrogen atoms obserb a frection of light and subsequently and radition of six different wavelength .Find the value of lambda

Calculate the wavelength of radiation and energy per mol necessary to ionize a hydrogen atom in the ground state.

Monochromatic radiation of specific wavelength is incident on H-atoms in ground state. H-atoms absorb energy and emit subsequently radiations of six different wavelength. Find wavelength of incident radiations:

A monochromatic radiation of wavelength lambda is incident on a sample containig He+ . As a result the Helium sample stars radiating. A part of this radiation is allowed to pass through a sample of atomic hydrogen gas in ground state. It is noticed that the hydrogen sample has stared emitting electrons whose maximum kinetic energy is 37.4 eV . (hc = 12400 eV Å) . Then lambda is

A sample of H-atoms in ground state absorb the electromagnetic radiation of x eV/quanta. Subsequently, the sample emit radiation of 15 different photon energies. The energy of emitted photon of longest wavelength is-

A hydrogen atom is in ground state. In order to get six lines in its emission spectrum, wavelength of incident radiation should be

The ionization enegry of the electron in the hydrogen atom in its ground state is 13.6 ev . The atoms are excited to higher energy levels to emit radiations of 6 wavelengths. Maximum wavelength of emitted radiation corresponds to the transition between