Momentum of an Electron
Bohr put forward a theory about the rotational energy of an electron inside the atom. In Bohr’s atomic model, electrons are positioned in specific paths around the nucleus, and these paths play a crucial role in defining the electron’s angular momentum. Bohr proposed that the orbital angular momentum of an electron is quantized, meaning it can only be found in certain fixed values.
Bohr also specified that the angular momentum of an electron must be a multiple of h/2π, where h is Planck’s constant. This limitation confines electrons to specific stable paths around the nucleus.
Angular Momentum of Electron
In the world of physics, angular momentum helps us understand how objects behave when they rotate. It is not only limited to big objects like planets but it also helps us gain insight into the motion of smaller particles such as electrons. Let’s understand angular momentum of an electron with the basic introduction of momentum in this article.