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Proton
*** Shopping-Tip: Proton
:''For alternative meanings see proton (disambiguation).''
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! align="center" bgcolor=gray | Proton
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! align="center" bgcolor=gray | Classification
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| Subatomic particle
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| Fermion
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| Hadron
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| Baryon
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| Nucleon
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|''Proton''
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! align="center" bgcolor=gray | Properties
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|Mass:
|1.6726 × 10 −27 kg
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|938.272 029(80) MeV/Speed of light c2
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|Elementary charge Electric Charge:
| 1.602 176 53(14) × 10−19 Coulomb C
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|Spin:
|1/2
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|Quark Composition:
|1 Down, 2 Up
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In physics, the '''proton''' (Greek language Greek ''proton'' = first) is a subatomic particle with an electric charge of one positive Elementary charge fundamental unit (1.602 × 10−19 coulomb) and a mass of 938.3 MeV/''Speed of light c''2 (1 E-27 kg 1.6726 × 10−27 kg), or about 1836 times the mass of an electron. The proton is observed to be stable isotope stable, with a lower limit on its half-life of about 1035 years, although some theories predict that the proton decay proton may decay. The proton has a density of about 2.31 × 1017 kg m-3.
Protons are spin (physics) spin-1/2 fermions and are composed of three quarks, making them baryons. The two up quarks and one down quark of the proton are also held together by the strong interaction strong nuclear force, mediated by gluons. Protons may be transmuted into neutrons by inverse beta decay (that is, by capturing an electron); since neutrons are heavier than protons, this process does not occur spontaneously but only when energy is supplied. The proton's antimatter equivalent is the antiproton, which has the same magnitude charge as the proton but the opposite sign.
Protons and neutrons are both nucleons, which may be bound by the nuclear force into atomic nucleus atomic nuclei. The most common isotope of the hydrogen atom is a single proton. The nuclei of other atoms are composed of various numbers of protons and neutrons. The number of protons in the nucleus determines the chemical properties of the atom and which chemical element it is.
In chemistry and biochemistry, the proton is thought of as the hydrogen ion, denoted H+. In this context, a proton donor is an acid and a proton acceptor a base (chemistry) base (see acid-base reaction theories).
History
Ernest Rutherford, 1st Baron Rutherford of Nelson Ernest Rutherford is generally credited with the discovery of the proton. In 1918 Rutherford noticed that when alpha particles were shot into nitrogen gas, his scintillation (physics) scintillation detectors showed the signatures of hydrogen nuclei. Rutherford determined that the only place this hydrogen could have come from was the nitrogen, and therefore nitrogen must contain hydrogen nuclei. He thus suggested that the hydrogen nucleus, which was known to have an atomic number of 1, was an elementary particle. Prior to Rutherford, Eugene Goldstein had observed canal rays, which were composed of positively charged ions.
Technological applications
Since protons have intrinsic spin (physics) spin, they can exist in different spin states. This property is exploited by nuclear magnetic resonance spectroscopy. In NMR spectroscopy, a magnetic field is applied to a substance to force the protons in hydrogen atoms into a particular spin direction. Then, sequences of perturbations to the magnetic field are applied, causing the substance to electromagnetic radiation radiate with distinct spectrum spectra. These spectra depend on the shielding around the protons in the nuclei of that substance, which is provided by the surrounding electron clouds. Scientists can use this information to determine the molecular structure of the molecule under study.
Antiproton
{{main|antiproton}}
The '''antiproton''' is the antiparticle of the proton. It was discovered in 1955 by Emilio Segre and Owen Chamberlain, for which they were awarded the 1959 Nobel Prize in Physics.
CPT-symmetry puts strong constraints on the relative properties of particles and antiparticles and, therefore, is open to stringent tests. For example, the charges of the proton and antiproton must sum to exactly zero. This equality has been tested to one part in 108. The equality of their masses is also tested to better than one part in 108. By holding antiprotons in a Penning trap, the equality of the charge to mass ratio of the proton and the antiproton has been tested to 1 part in 9×1011. The magnetic moment of the antiproton has been found with error of 8×10-3 nuclear Bohr magnetons, and is found to be equal and opposite to that of the proton.
High-energy physics
Due to their stability and large mass (compared to electrons), protons are well suited to use in particle colliders such as the Large Hadron Collider at CERN. Protons also make up a large majority of the cosmic rays which impinge on the Earth's atmosphere. Such high-energy proton collisions are more complicated to study than electron collisions, due to the composite nature of the proton. Understanding the details of proton structure requires quantum chromodynamics.
See also
*particle physics
*subatomic particle
*quark model
*neutron
*proton-proton chain reaction
*proton pump
*proton pump inhibitor
*proton therapy
*list of particles
*fermion field
External links
- Particle Data Group
{{composite}}
Category:Nucleons
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