kaje said:Hi,
I need any good books or articles about the mathematical analysis and modelling of orbital angular momentum
Regards
Orbital angular momentum is a physical quantity that describes the rotational motion of a body around a fixed point or axis. It is a vector quantity that takes into account the mass, velocity, and distance of the rotating object.
Orbital angular momentum is associated with the motion of an object in a circular or elliptical path, while spin angular momentum is associated with the intrinsic rotation of a particle around its own axis. They are two distinct types of angular momentum and can both exist simultaneously.
Angular velocity is the rate of change of an object's angular displacement, while orbital angular momentum is the product of the object's moment of inertia and angular velocity. In other words, orbital angular momentum is directly proportional to angular velocity.
Orbital angular momentum, like other forms of angular momentum, is quantized, meaning it can only take on certain discrete values. This is a consequence of the wave-like nature of particles at the quantum level, and is described by the laws of quantum mechanics.
Orbital angular momentum has many applications in physics and engineering, such as in the study of celestial bodies and their motion, the design of satellites and spacecraft, and the development of new technologies like optical tweezers and quantum computing. It also plays a crucial role in understanding the behavior of atoms and molecules in chemistry and material science.