In a hydrogen like ion, nucleus has a positive charge Ze, Bohr's quantization rule is, the angular momentum of an electron about the nucleus `l = (nh)/(2pi)`, where 'n' is a positive integer.
If electron is in ground state the magnetic field produced at the site of nucleus due to circular motion of the electron

In a hydrogen like ion, nucleus has a positive charge Ze, Bohr's quantization rule is, the angular momentum of an electron about the nucleus l = (nh)/(2pi) , where 'n' is a positive integer. Change in K.E of electron when it goes from ground state to 1st excited state

In a hydrogen like ion, nucleus has a positive charge Ze, Bohr's quantization rule is, the angular momentum of an electron about the nucleus l = (nh)/(2pi) , where 'n' is a positive integer. If electron goes from ground state to 1st excited state then change in energy of the hydrogen like ion is

The quantity [(nh)//(2piqB)]^(1//2) where n is a positive integer, h is Planck's constant q is charge and B is magnetic field has the dimensions of

In the hydrogen atom, an electron makes a transition from n=2 to n=1. The magnetic field produced by the circulating electron at the nucleus

An electron of charge e moves in a circular orbit of radius r round a nucleus the magnetic field due to orbit motion off the electron at the site of the nucleus is B . The angular velocity omega of the electron is

In a hydrogen atom , the electron atom makes a transition from n = 2 to n = 1 . The magnetic field produced by the circulating electron at the nucleus

Assertion: In the duration electron jumps from fist excited state to ground state in a stationary isolated hydrogen atom, angular momentum of the electron about the nucleus is conserved. Reason: As the electron jumps from first excited state to ground state, in a hydrogen atom, the electrostatic force on electron is always directed twoards the nucleus.

A hydrogen atom is in a state with energy -1.51 eV. in the Bohr model, what is the angular momentum of the electron in the atom with respect to an axis at the nucleus?

An electron in Bohr's hydrogen atom has angular momentum (2h)/(pi) The energy of the electron is