The Bohr Magneton experimental value is a physical constant that describes the magnetic moment of an electron in an atom. It is equal to approximately 9.274 x 10^-24 joule per tesla.
The Bohr Magneton experimental value was first discovered by Danish physicist Niels Bohr in 1913. He developed the Bohr model of the atom, which explained the behavior of electrons in an atom and led to the discovery of the Bohr Magneton.
The Bohr Magneton experimental value is significant because it helps us understand the behavior of electrons in atoms. It is also used in various fields of physics such as quantum mechanics, atomic and molecular physics, and solid-state physics.
The Bohr Magneton experimental value can be measured using various experimental techniques, such as nuclear magnetic resonance (NMR) and electron paramagnetic resonance (EPR). These techniques involve subjecting atoms to a magnetic field and measuring the resulting energy levels.
Yes, the Bohr Magneton experimental value has been revised over time as measurement techniques have improved. The current accepted value is based on the most precise measurements made using modern techniques and is considered to be accurate to within a few parts per million.