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)

Hydrogen atom in ground state is excited by a monochromatic radiation of lambda = 975 Å . Number of spectral lines in the resulting spectrum emitted will be

A gas of hydrogen atoms in its ground state, is excited by means of monochromatic radiation of wavelength 975A^(0) . How many different spectral lines are possible in the resulting spectrum? (hc=12431.25eV-A^(0))

A hydrogen atom in the ground state is excited by monochromatic radiation of wavelength lambda A . The resulting spectrum consits of maximum 15 different lines. What is the wavelength lambda ?

The hydrogen atom in the ground state is excited by mass of monchromatic radiations of wavelength lambda Å . The resulting spectrum consists fo maximum 15 different lines . What is the value of lambda ? ( R_H = 109737 cm^(-1)) .

The hydrogen atom in the ground state is excited by means of monochromatic radiation of wavelength xA_(0) The resulting spectrum consists of 15 different lines. Calculate the value of x.

Hydrogen atom in this ground state is excited by means of monochromatic radiation of wavelength 975Å . How many different lines are possible in the resulting spectrum? Calculate the longest wavelength amongst them. You may assume the ionization energy for hydrogen atom is 13.6eV

The ionization potential of H-atom is 13.6 V. The H-atoms in ground state are excited by mono chromatic radiations of photon energy 12.09 ev. Then the number of spectral lines emitted by the excited atoms, will be

An H- atom in the ground state is excited by monochromatic radiation of photon energy 13.056 eV. The number of emission lines will be (given its ionisation energy is 13.6 eV)

Hydrogen atom in its ground state is excited by means of monochromatic radiation of wavelength 970.6 Å . How many lines are possible in the resulting emission spectrum ? Calculate the longest wavelength amongst them. You may assume that the ionisation energy for hydrogen atom is 13.6 eV. Given Planck's constant = 6.6 xx 10^(-34)Js, " " c = 3 xx 10(8) ms^(-1)