Hydrogen atom in its ground state is excited by means of monochromatic radiation of wavelength `975A^(@)`. How many different lines are possible in the resulting spectrum? Calculate the longest wavelength amongst them.

Hydrogen atom in its ground state, is excited by means of monochromatic radiation of wavelength 975 Å . How many different lines are possible in the resulting spectrum ? Calculate the longest wavelength amongst them. Given, ionisation energy of hydrogen atom is 13.6 eV.

Hydrogen atom in its good state is excited by means of monochromatic radiation of wave length 975A^(@) . How many different lines are possible in the resulting spectrum ? Calculate the longest wavelength among them. You may assume to ionization energy of hydrogne atom as 13.6 eV .

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

Hydrogen atom is its ground state is excited by means of monochromatic radiation of wavelength 1023 Å . How many different lines are possible in the resulting spectrum? Calculate the longes wavelength among them. You may assume the ionization energy of hydrogen atom as 13.6 eV.

Hydrogen atom is its ground state is excited by means of monochromatic radiation of wavelength 1023 Å . How many different lines are possible in the resulting spectrum? Calculate the longes wavelength among them. You may assume the ionization energy of hydrogen atom as 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)

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)

Hydrogen atom is ground state is excited by mean of monochromatic radiation of wavelength 975Å How many different lines are possible in the resulting spectrum ? Calculate the longest wavelength for hydrogen atom as ionization energy is 13.6 eV

Hydrogen atom in its ground state is excited by means of a monochromatic radiation of wavelength 970.6 Å. How many different transitions are possible in the resulting emission spectrum? Find the longest wavelength amongst these. (lonisation energy of hydrogen atom in its ground state is 13.6 eV and take h=6.6xx10^(-34)Js) Data : Wavelength of incident radiation = 970.6 Å = 970.6 X 10^(-10)m Ionisation energy of hydrogen atom in its ground state = 13.6 eV (i) Number of possible transitions = ? (ii) Longest wavelength emitted = ?