![]() ![]() ![]() One might compare this transition with that of a mechanical system that changes from displaying unstable to stable behavior or from displaying simple to chaotic behavior, or even a rocket ship slowing and going below escape velocity and entering orbit around some star or other celestial object. The electron is then bound to the atom and its angular momentum with respect to the atomic nucleus is restricted to quantized values of the orbitals it can occupy. Even though the free electron displays some quantum properties (such as spin), as the unbound electron approaches the atom and slows down (perhaps by emitting photons), it undergoes a transition from classical to quantum behavior as its energy goes below the ionization energy. Massy particles go through a classical-to-quantum transition. Quantum mechanics is a large subject area but every part of its mathematics involves the Planck constant. The limit to the lifetime of these virtual particles is the energy (mass) of the particle times that lifetime. For example, in the subject area of particle physics, the notion of virtual particles are messy particles that spontaneously appear out of the vacuum for a tiny fraction of a section and play a role in a particle interaction. The units of the Planck constant can also be viewed as energy times time.The Planck constant also plays a role in the quantum theory of light, where the quantum of light is the photon and where matter and energy interact via the atomic electron transition or "quantum leap" of the bound electron. In contrast, the angular momentum of a nearby unbound electron is not quantized. This quantization gives rise to electron orbitals of a series of integer primary quantum number. For example, the angular momentum of an electron bound to an atom or molecule is quantized and can only have values that are multiples of the reduced Planck constant.As the name quantum mechanics implies, certain physical quantities such as angular momentum can change only in discrete amounts, and not in a continuous ( cf. The value of the Planck constant is extremely small, its units are those of angular momentum, and the notion of action is the more general mathematical concept. Likewise, for interacting subatomic particles, the quantum of angular momentum is the reduced Planck constant (the Planck constant divided by 2π) denoted by ħ and called "h-bar". In quantum mechanics, the quantum of action is the Planck constant, usually denoted as h. ![]() Start with learning about the physical significance of the Planck constant. ![]()
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