Science

Main features of radioactivity: [pic] [pic] [pic] Wave function & Probability closeness: [pic] [pic] Bohrs toughie: [pic] The Bohr exemplification of the atom, showing an negatron quantum jumping to recruit state n = 1. In 1913 Niels Bohr proposed a new model of the atom that included quantized negatron oscilloscopes. In Bohrs model, electrons could put up only certain orbits around the atomic nucleus. When an atom emitted (or absorbed) vital force, the electron did not move in a continuous charge of stairs from virtuoso orbit around the nucleus to another, as mogul be expected classically. Instead, the electron would jump instantly from one orbit to another, giving off the emitted light in the miscellany of a photon. The possible energies of photons assumption off by apiece element were determined by the differences in cogency amongst the orbits, and so the emission spectrum for each element would contain a number of lines. Bohr theori sed that the angular momentum, L, of an electron is quantised: [pic] where n is an integer and h is the Planck constant.

Starting from this assumption, ampere-seconds law and the equations of circular motion show that an electron with n units of angular momentum will orbit a proton at a distance r given by [pic], where ke is the Coulomb constant, m is the mass of an electron, and e is the charge of an electron. For informality this is write as [pic] where a0, called the Bohr radius, is equal to 0.0529 nm. The Bohr radius is the radius of the smallest allowed orbit. The energy of the electron thunder mug also be calculated! , and is given by [pic]. An electron loses energy by jumping straightaway from its original orbit to a tear down orbit; the extra energy is emitted in the form of a photon. Conversely, an electron that absorbs a photon gains energy, hence it jumps to an orbit that is farther from the nucleus. individually photon from eager atomic hydrogen is due to an electron contemptible from a higher orbit, with radius rn, to a lower...If you want to subscribe to a full essay, order it on our website: OrderCustomPaper.com

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