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

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

A hydrogne like atom is excited using a radiation . Consequently, six spectral line are observed in the spectrum. The wavelegth of emission radiation is found to be equal or smaller than the radiation used for excitation. This concludes that the gas was initially at

An electron in hydrogen atom after absorbing-an energy photon jumps from energy state n_(1) to n_(2) . Then it returns to ground state after emitting six different wavelengths in emission spectrum.'The energy of emitted photons is either equal to, less than or grater than the absorbed photons: Then n_(1) and n_(2) are:

An electron in a hydrogen atom in its ground state absorbs energy equal to ionisation energy of Li^(+2) . The wavelength of the emitted electron is :-

Electrons having kinetic energy 30 eV are made to collide with atomic hydrogen gas (in ground state) and 42.5% of electron energy is used to excite the hydrogen wavelength in emission spectra are

Atomic hydrogen is excited from the grounds state to the n^(th) state. The number of lines in the emission spectrum will be:

The hydrogen atom in its ground state is excited by means of monochromatic radiation. Its resulting spectrum has six different lines. These radiations are incident on a metal plate. It is observed that only two of them are responsible for photoelectric effect. if the ratio of maximum kinetic energy of photoelectrons is the two cases is 5 then find the work function of the metal.

Why many lines are observed in the hydrogen emission spectrum ?

Determine the minimum wavelength that hydrogen in its ground state can obsorb. What would be the next smaller wavelength that would work?