Quantum mechanics arose as a superior theory, due to the fundamental failure of classical mechanics to describe several atomic phenomena. The theory describes just about every phenomena in nature, ranging from the blueness of the sky to the structure of the molecules that make organic life possible. The theory sets fundamental limitations on how accurately we can measure particle parameters, replacing classical determinism with probabilistic determinism. It is only described by a wavefunction or state vector, that can compute the probability or likelihood of finding a particle. Electron cannot fall on either side of the particle/wave dichotomy. However, it is easier to take a look at the basics of quantum mechanics, provided one isn’t baffled by the fact that every electron is a particle, as well as a wave at the same time. Introduction to Quantum MechanicsĪs seen by a layman, quantum mechanics appears to be more like a bizarre phenomenon or science fantasy flick, full of jargon and complicated mathematical equations. Once you decide to go down the rabbit hole, the wonderland of quantum physics, will keep you enthralled forever. Ergo, the best we can do is present you with the central mystery at the heart of quantum mechanics and show you the way its theoretical structure works to provide real world predictions.
Though the theory works to provide accurate predictions of phenomena at the subatomic scales, there is no real understanding of why it works, what it really means or what implications it has for our world picture. Quantum mechanics deals with the study of particles at the atomic and subatomic levels.
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