Unlike other physical theories, quantum mechanics was the invention of not only one or two scientists. Planck, Einstein, Bohr, Heisenberg, Born, Jordan, Pauli, Fermi, Schrodinger, Dirac, de Broglie, Bose are the scientists that made notable contributions to the invention of quantum theory. The axioms of quantum mechanics provide a consistent framework in which it is once again possible to predict the results of experiment, at least statistically.Its fundamental features are that a property does not exist unless it is measured, and that indeterminacy is a fundamental property of the universe.
The main merit of QM is that its predictions -- such as that for the two slit experiment -- perfectly match the results, while classical mechanics fails to do so. For a scientist, nothing else much matters.
Quantum Mechanics is the study of the intimate behavior of the smallest forms of particles, and their interaction amongst, with special emphasys on the emissions of energy, which is delivered in quanta, or photons. Wave Mechanics is the study of many physical phenomena that happen in a non linear and recurrent behavior, usually addressed as wave, with special emphasys in both the features of said wave, and the energy that involves specific wave phenomena.
Yes, Raman effect or, more usually, Raman scattering, is indeed supported by the quantum theory of light. Raman scattering is the inelastic scattering of light (photons) off matter, and it is included in quantum theory. Most photons scatter elastically, and Rayleigh scattering explains this. But a tiny fraction of photons come away from a scattering event at the same energy as they entered it. Raman described this effect in liquids, and Landsberg and Mandelstam later described it in crystals. One of the curiosities of quantum theory is that it has been modified over the years as new information has been presented. It was a good theory in its inception, and the basic tenants remain at its foundation. But as with any effective explanation of the way things work, it has been "expanded" to encompass the later discoveries that more clearly detailed and refined what it says. Why would it not have been?
Many scientists worked on it over the years, however it was James Clerk Maxwell that finally developed the set of partial differential equations that fully and correctly describe their wave behavior.Albert Einstein was the first to correctly describe the photoelectric effect in terms of particles called photons. This lead in the 1930s to the modern quantum mechanical theory of electromagnetic radiation.
Quantum Mechanics is one of the three branches of Modern Physics, being the other two, Classical Mechanics and Relativist Mechanics. Quantum Mechanics is needed to learn the intimate behavior of the smallest particles existent: subatomic particles. It deals with the interaction amongst, the forms of energy they receive and deliver, and the way they emit energy, a way done in packets, or quanta, also called photons. Quantum Mechanics is one of the base knowledges for the design of modern electronics.
A theory
Quantum theory was not the result of a single experiment, a single discovery, or even a single scientist. Quantum theory evolved gradually, over several decades.
explain planks quantum theory? Planck did not make the whole Quantom thoery. He only made up Quanta. Other scientists helped inprove it over time.
what are the merits and demerits of tally?
Quantum Mechanics is the study of the intimate behavior of the smallest forms of particles, and their interaction amongst, with special emphasys on the emissions of energy, which is delivered in quanta, or photons. Wave Mechanics is the study of many physical phenomena that happen in a non linear and recurrent behavior, usually addressed as wave, with special emphasys in both the features of said wave, and the energy that involves specific wave phenomena.
I cool
"Modern physics" starts with two great theories, both of which have radically changed our understanding of the world. One is the Theory of Relativity, written by Albert Einstein (although some of the ideas were already known before his time). The other is quantum physics. This one can't be clearly attributed to a single person; rather, it gradually developed over several years, with several people contributing important bits and pieces.
Yes, Raman effect or, more usually, Raman scattering, is indeed supported by the quantum theory of light. Raman scattering is the inelastic scattering of light (photons) off matter, and it is included in quantum theory. Most photons scatter elastically, and Rayleigh scattering explains this. But a tiny fraction of photons come away from a scattering event at the same energy as they entered it. Raman described this effect in liquids, and Landsberg and Mandelstam later described it in crystals. One of the curiosities of quantum theory is that it has been modified over the years as new information has been presented. It was a good theory in its inception, and the basic tenants remain at its foundation. But as with any effective explanation of the way things work, it has been "expanded" to encompass the later discoveries that more clearly detailed and refined what it says. Why would it not have been?
Quantum internet refers to the application of quantum cryptography over a "quantum" network. Quantum cryptography yields unbreakable encryption due to the uncertainty principle. The technology is still very new and needs more research for commercialization.
Classical criminology theory focuses on rational decision-making and assumes that individuals choose to commit crimes based on a weighing of potential costs and benefits. However, this theory fails to consider factors such as social, economic, and psychological influences that may contribute to criminal behavior. Additionally, classical criminology promotes punitive measures over rehabilitative interventions, which may not effectively address the root causes of criminal behavior.
Many scientists worked on it over the years, however it was James Clerk Maxwell that finally developed the set of partial differential equations that fully and correctly describe their wave behavior.Albert Einstein was the first to correctly describe the photoelectric effect in terms of particles called photons. This lead in the 1930s to the modern quantum mechanical theory of electromagnetic radiation.
experiment safely, swiftly and calmly over and again until you know that you know that quantum physics in all its many forms is true; but do not forget the classical physics of the past. What do we get when the past and present meet? Hmm...???
The wave theory of light is the idea, supported by a number of scientists over the years, that light behaves as waves. It has been superseded by Quantum theory, which says (in part) that light sometimes behaves like a particle and sometimes like a wave.