Notes a year ago Flag Paschen-Back effect The Paschen-Back effect refers to the splitting of spectral lines in the presence of a strong magnetic field, which causes the energy levels of atoms or ions to change. This ...
Notes a year ago Flag Lande - g factor for two electron system for j j coupling The Lande g factor, often denoted as g, describes the splitting of energy levels in atoms due to the interaction of the magnetic moment associated with angular momentum (either orbital ...
Notes a year ago Flag Hyperfine Structure of Spectral lines The hyperfine structure of spectral lines refers to the splitting of atomic energy levels in atoms or ions due to interactions between the magnetic moments associated with the electron spin, ...
Notes a year ago Flag Spin Orbit interaction energy for atoms having two valence electrons assuming L- S coupling For single valence electron system, the spin orbit interaction energy in terms of wavenumber is given byIn case of two valence electrons, there are four angular momenta l_1*, s_1*, ...
Notes a year ago Flag Spin orbit interaction energy for non penetrating orbit The spin-orbit interaction energy refers to the interaction between the intrinsic angular momentum (spin) of a particle and its orbital angular momentum as it moves in a potential field, typically ...
Notes a year ago Flag Fine structure line in the hydrogen spectrum The "fine structure" in the hydrogen spectrum refers to the splitting of spectral lines that occurs due to the interaction between the magnetic moment of the electron and the magnetic ...
Notes a year ago Flag Importance of Mosely's law Moseley's Law is of significant importance in the field of atomic physics and chemistry for several reasons:Refinement of the Periodic Table: Moseley's work led to a refinement of ...
Notes a year ago Flag Moseley's law "Moseley's Law" typically refers to one of two scientific principles, named after the English physicist Henry Moseley.Moseley's Law in X-ray Spectroscopy: In the context of X-ray spectroscopy, …
