particle physics prevod, Englesko - Srpski rečnik i prevodilac teksta

Prevod reči: particle physics

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particle physics [ imenica {fizika} ]
Generiši izgovor

The branch of physics that studies subatomic particles and their interactions; SYN. high-energy physics.
The study of the properties of elementary particles and of fundamental interactions (see fundamental forces).
Pioneering research took place at the Cavendish laboratory, Cambridge, England. In 18Joseph Thomson discovered that all atoms contain identical, negatively charged particles called electrons that could easily be freed. By 19Ernest Rutherford had shown that electrons surround a very small, positively-charged nucleus, (which in the case of a hydrogen atom consists of a single positively charged particle, a proton, identified by James Chadwick 1932). The nuclei of all the other elements are made up of protons and uncharged particles called neutrons.
19also saw the discovery of a particle (predicted in 19by Paul Dirac), with the mass of an electron, but an equal and opposite charge, called the positron. This was the first example of an antiparticle; it is now known that almost all particles have corresponding antiparticles. In 19Wolfgang Pauli argued that a hitherto unsuspected particle must accompany electrons in beta-ray emission—the so-called electron-neutrino.
particles and fundamental forces
By the mid-1930s, four fundamental kinds of force had been identified: (The electromagnetic force acts between all particles with electric charge, and was thought to be related to the exchange between the particles of photons, packets of electromagnetic radiation. (In 19the Japanese physicist Hideki Yukawa suggested that the strong force (holding protons and neutrons together in the nucleus) was caused by the exchange of particles with a mass of about a tenth that of a proton; these particles, called pions (originally pi-mesons), were found by British physicist Cecil Powell in 194(Theoretical work on the weak nuclear force began with Enrico Fermi in the 1930s. The existence of the particles that carry the weak force, the W and Z particles (weakons), was confirmed in 19at CERN. (The fourth fundamental force, gravitation, is experienced by all matter, the postulated carrier of this force being the graviton.
leptons, hadrons, and quarks
The electron, three types of neutrinos, and the positive and negative muons are the leptons—particles with half-integral spin that “feel” the weak, but not the strong, force. The muon (found by US physicist Carl Anderson in cosmic radiation in 193produces the muon neutrino when it decays. The tauon, a surprise discovery of the 1970s, produces the tauon neutrino when it decays.
Hadrons (particles that “feel” the strong force) started to turn up in bewildering profusion in experiments in the 195and 1960s. They are classified into mesons, with whole-number or zero spins, and baryons (which include protons and neutrons), with half-integral spins. It was shown in the early 196that if hadrons of the same spin are represented as points on suitable charts, simple patterns are formed. This symmetry enabled a hitherto unknown particle, the omega-minus, to be predicted from a gap in one of the patterns; it then turned up in experiments. In 196Murray Gell-Mann suggested that all hadrons were composed of just three types or “flavors” of a new particle with half-integral spin and a charge of magnitude either 1/3 or 2/3 that of an electron; Gell-Mann christened the particle “quark”. Mesons are quark-antiquark pairs (spins either add to one or cancel to zero), and baryons are quark triplets. To account for new mesons, such as the psi, the number of quark flavors was discovered to be six b
y 19(up, down, top, bottom, strange, and charm).

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