The radiation emitted when a hydrogen atom goes from a higher energy state to a lower energy state. The wavelength of one line in visible region of atomic spectrum of hydrogen is `6.63xx10^(-7)`m. Energy difference between the two state is

When an electron of H-atom jumps from a higher to lower energy state, then-

The electron in a hydrogen atom is in the third energy state. How many different frequencies can the emitted photon have ?

Calculate the energy emitted when electrons of 1g atom of hydrogen undergo transition giving the spectral line of lowest energy in the visible region of its spectrum.

On absorption of radiation of wavelength 1219 Å, a hydrogen atom is excited from ground state to the n-th energy state. What is the value of n?

Using Bohr's postulates, derive the expression for the frequency of radiation emitted when electron in hydrogen atom undrgoes transition from higher energy state (quantum number n_i ) to the lower state ( n_f ). When electron in hydrogen atom jumps from energy state n_i=4 to n_f=3,2,1 , identify the spectral series to which the emission lines belong.

The ionisation potential hydrogen atom is 13.6 V. when the atom is in n-th energy state. The maximum energy of the emitted photon is 12.1eV . What is the value of n?

In the Bohr of the hydrogen atom, what is the ratio of the kinetic energy to the total energy of the electron in any quantum state ?

The total energy of an electron in the ground state , of hydrogen atom is

Energy in the second energy state of hydrogen atom is E_2 . Then

The electron in a hydrogen atom is in n=2 state. When it drops to the ground state a photon is emitted. What is the wavelength of photon?