Consider the radiation emitted by large nu,ber of singly charged positive ions of a certain element. The sample emit fifteen types of spectral line. One of which is same as the first line of lyman series. What is the binding energy in the hinhest energy state of this configuration ?

Consider the radiation emitted by large number of singly charged positive ions of a certain element. The sample emit fifteen types of spectral line. One of which is same as the first line of lyman series. What is the binding energy in the highest energy state of this configuration ?

Atomic hydrogen is excited to the nth energy level . The maximum number of spectral lines which it can emit while returning to ground state,is:

Atomic hydrogen is excited to the n^(th) energy level . The maximum number of spectral lines which it can emit while returning to ground state, is:

A neutrons beam, in which each neutron has same Kinetic energy , is passed through a sample of hydrogen like gas (but not hydrogen) in ground state and at rest . Due to collision of neutrons with the ions of the gas, ions are excited and then they emit photons . Six spectral lines arer obtained in which one of the lines is of wavelength (6200//51) nm ltbr. what is the minimum possible value of kinetic energy of the neutrons for this possible . The mass of neutron and protons can be assumed to be nearly same . Use hc=12400

What is the lowest energy of the spectral line emitted by the hydrogen atom in the Lyman series ? (h = Planck constant, c = Velocity of light, R = Rydberg constant)

What is the lowest energy of the spectral line emitted by the hydrogen atom in the Lyman series? (h = Planck constant, c = Velocity of light, R = Rydberg constant)