In hydrogen atom, an electron is making `6.6 xx 10^15` rps around the nucleus in an orbit of radius 0.523 A. Calculate the equivalent magnetic dipole moment.

In a Bohr model of hydrogen atom, the electron circulates around the nucleus in the path of radius 5.1 xx 10^-11m at a frequency of 6.8 xx 10^15 rev//s . Calculate the magnetic Induction B at the centre of the orbit. What is the equivalent dipole moment ?

In an atom two electrons move around the nucleus in circular orbits of radii R and 4R. The ratio of the time taken by them to complete one revolution is

In the first excited state of hydrogen atom, its radius is found to be 21.2xx10^(-11) m. Calculate its Bohr radius in the ground state. Also calculate the total energy of the atom in the second excited state.

In a hydrogen atom, an electron jumps from third orbit to the first orbit. Find out the frequency and wavelength of the spectral line. Given R=1.097xx 10^(7) m^(-1)

Write the expression for the magnetic moment due to an electron circulating around the nucleus of an atom.

Show that the electron revolving around the nucleus in a radius 'r with orbital speed 'r' has magnetic moment evr/2. Hence, using Bohr's postulate of the quantization of angular momentum, obtain the expression for the magnetic moment of hydrogen atom in its ground state.

when a certain energy is applied to an hydrogen atom, an electron jumps from n =1 to n = 3 state. Find (i) the energy absorbed by the electron. (ii) wavelength of radiation emitted when the electron jump back to its initial state. ( Energy of electron in first orbit = - 13.6 eV , Planck's constant = 6.6225 xx10^(-34) Js, Charge on electron = 1.6 xx10^(-19) C, speed of light in vacuum = 3xx10^(8)ms^(-1)

The ground state energy of hydrogen atom is - 13.6 eV. If an electron makes a transition from an energy level - 0.85 eV to -3.4 eV, calculate the wavelength of the spectral line emitted. To which series of hydrogen spectrum does this wavelength belong?