HTML Microdata document

This HTML5 document contains 96 embedded RDF statements represented using HTML+Microdata notation.

The embedded RDF content will be recognized by any processor of HTML5 Microdata.

Namespace Prefixes

Prefix	IRI
dcterms	http://purl.org/dc/terms/
dbo	http://dbpedia.org/ontology/
foaf	http://xmlns.com/foaf/0.1/
n4	http://dbpedia.org/resource/File:
n15	https://global.dbpedia.org/id/
rdfs	http://www.w3.org/2000/01/rdf-schema#
dbpedia-pt	http://pt.dbpedia.org/resource/
n12	http://commons.wikimedia.org/wiki/Special:FilePath/
dbpedia-fa	http://fa.dbpedia.org/resource/
rdf	http://www.w3.org/1999/02/22-rdf-syntax-ns#
owl	http://www.w3.org/2002/07/owl#
dbpedia-vi	http://vi.dbpedia.org/resource/
wikipedia-en	http://en.wikipedia.org/wiki/
prov	http://www.w3.org/ns/prov#
dbc	http://dbpedia.org/resource/Category:
xsdh	http://www.w3.org/2001/XMLSchema#
wikidata	http://www.wikidata.org/entity/
dbr	http://dbpedia.org/resource/
n8	https://nucleus.iaea.org/sites/accelerators/Pages/

Statements

Subject Item: dbr:Electrostatic_particle_accelerator
rdfs:label: Electrostatic particle accelerator Acelerador eletrostático
rdfs:comment: An electrostatic particle accelerator is a particle accelerator in which charged particles are accelerated to a high energy by a static high voltage potential. This contrasts with the other major category of particle accelerator, oscillating field particle accelerators, in which the particles are accelerated by oscillating electric fields. Um acelerador eletrostático é um tipo de acelerador de partículas no qual partículas carregadas (elétrons, prótons ou íons) ganham energia cinética por meio de um campo elétrico produzido por uma grande diferença de potêncial (alta tensão). É constituído por um tubo evacuado , de alguns metros de comprimento, com dois eletrodos nas extremidades. Um eletrodo é mantido no potencial de zero volt, e o outro é mantido em alta tensão. Juntamente com o eletrodo sob alta tensão, encontra-se a fonte de íons ou elétrons .
foaf:depiction: n12:Westinghouse_Van_de_Graaff_atom_smasher_-_cutaway.png n12:KEK_Cockcroft-Walton_Accelerator_(1).jpg
dcterms:subject: dbc:Accelerator_physics dbc:Nuclear_physics
dbo:wikiPageID: 26877140
dbo:wikiPageRevisionID: 1116448881
dbo:wikiPageWikiLink: n4:Westinghouse_Van_de_Graaff_atom_smasher_-_cutaway.png dbr:Volt dbr:Conveyor_belt dbr:Helium dbr:Titanium_hydride dbr:Radiation_therapy dbr:Materials_science dbr:Rubber dbr:Van_de_Graaff_generator n4:KEK_Cockcroft-Walton_Accelerator_(1).jpg dbr:Electrostatic_generator dbr:Shrink_wrap dbr:X-ray_machine dbr:Ion_implanter dbr:Gasket dbr:Ion_source dbr:Cockcroft-Walton_accelerator dbr:Alpha_particle dbr:Noble_gas dbr:Van_de_Graaf_generator dbr:High_voltage dbr:Pyrex dbr:Joule dbr:John_Cockcroft dbr:Dielectric_constant dbr:Particle-induced_X-ray_emission dbr:Electrons dbr:Electronvolt dbr:Pelletron dbr:Sputter dbr:Elastic_recoil_detection dbr:Gauss's_law dbr:Charged_particle dbr:Linear_accelerator dbr:Sulfur_hexafluoride dbr:Radioisotope dbr:Elementary_charge dbr:Electrical_breakdown dbr:Coulomb dbr:Insulating_gas dbr:Silicon dbr:Cockcroft-Walton_generator dbr:Impact_ionization dbr:Particle_accelerator dbr:Atomic_nuclei dbr:Capacitor dbr:Toxicity dbr:Tandem dbc:Nuclear_physics dbr:Accelerator_mass_spectrometry dbr:Ernest__Walton dbr:Robert_Van_de_Graaff dbr:Carbon dbr:Chemically_inert dbc:Accelerator_physics dbr:Rutherford_backscattering_spectrometry dbr:Electron_volt dbr:Beryllium
dbo:wikiPageExternalLink: n8:default.aspx
owl:sameAs: dbpedia-pt:Acelerador_eletrostático wikidata:Q5358570 dbpedia-fa:مولد_الکترواستاتیک n15:4jzu4 dbpedia-vi:Máy_gia_tốc_hạt_tĩnh_điện
dbo:thumbnail: n12:Westinghouse_Van_de_Graaff_atom_smasher_-_cutaway.png?width=300
dbo:abstract: An electrostatic particle accelerator is a particle accelerator in which charged particles are accelerated to a high energy by a static high voltage potential. This contrasts with the other major category of particle accelerator, oscillating field particle accelerators, in which the particles are accelerated by oscillating electric fields. Owing to their simpler design, electrostatic types were the first particle accelerators. The two most common types are the Van de Graaf generator invented by Robert Van de Graaff in 1929, and the Cockcroft-Walton accelerator invented by John Cockcroft and Ernest Walton in 1932. The maximum particle energy produced by electrostatic accelerators is limited by the maximum voltage which can be achieved the machine. This is in turn limited by insulation breakdown to a few megavolts. Oscillating accelerators do not have this limitation, so they can achieve higher particle energies than electrostatic machines. The advantages of electrostatic accelerators over oscillating field machines include lower cost, the ability to produce continuous beams, and higher beam currents that make them useful to industry. As such, they are by far the most widely used particle accelerators, with industrial applications such as plastic shrink wrap production, high power X-ray machines, radiation therapy in medicine, radioisotope production, ion implanters in semiconductor production, and sterilization. Many universities worldwide have electrostatic accelerators for research purposes. High energy oscillating field accelerators usually incorporate an electrostatic machine as their first stage, to accelerate particles to a high enough velocity to inject into the main accelerator. Electrostatic accelerators are a subset of linear accelerators (linacs). While all linacs accelerate particles in a straight line, electrostatic accelerators use a fixed accelerating field from a single high voltage source, while radiofrequency linacs use oscillating electric fields across a series of accelerating gaps. Um acelerador eletrostático é um tipo de acelerador de partículas no qual partículas carregadas (elétrons, prótons ou íons) ganham energia cinética por meio de um campo elétrico produzido por uma grande diferença de potêncial (alta tensão). É constituído por um tubo evacuado , de alguns metros de comprimento, com dois eletrodos nas extremidades. Um eletrodo é mantido no potencial de zero volt, e o outro é mantido em alta tensão. Juntamente com o eletrodo sob alta tensão, encontra-se a fonte de íons ou elétrons . Este acelerador é normalmente identificado pelo tipo de gerador de alta tensão utilizado. A alta tensão pode ser gerada retificando-se uma tensão alternada (gerador Cockcroft-Walton), ou usando-se um sistema mecânico para o transporte de carga eletrostática até o terminal de alta tensão (gerador Van de Graaff) .
prov:wasDerivedFrom: wikipedia-en:Electrostatic_particle_accelerator?oldid=1116448881&ns=0
dbo:wikiPageLength: 19034
foaf:isPrimaryTopicOf: wikipedia-en:Electrostatic_particle_accelerator

Subject Item: dbr:Davisson–Germer_experiment
dbo:wikiPageWikiLink: dbr:Electrostatic_particle_accelerator

Subject Item: dbr:Particle_accelerator
dbo:wikiPageWikiLink: dbr:Electrostatic_particle_accelerator

Subject Item: dbr:Electrostatic_nuclear_accelerator
dbo:wikiPageWikiLink: dbr:Electrostatic_particle_accelerator
dbo:wikiPageRedirects: dbr:Electrostatic_particle_accelerator

Subject Item: dbr:Denys_Wilkinson_Building
dbo:wikiPageWikiLink: dbr:Electrostatic_particle_accelerator

Subject Item: dbr:Paul_Scherrer_Institute
dbo:wikiPageWikiLink: dbr:Electrostatic_particle_accelerator

Subject Item: dbr:Tandem_accelerator
dbo:wikiPageWikiLink: dbr:Electrostatic_particle_accelerator
dbo:wikiPageRedirects: dbr:Electrostatic_particle_accelerator

Subject Item: dbr:Linear_particle_accelerator
dbo:wikiPageWikiLink: dbr:Electrostatic_particle_accelerator

Subject Item: dbr:Photoinjector
dbo:wikiPageWikiLink: dbr:Electrostatic_particle_accelerator

Subject Item: dbr:Space_dust_measurement
dbo:wikiPageWikiLink: dbr:Electrostatic_particle_accelerator

Subject Item: dbr:Electrostatic_accelerator
dbo:wikiPageWikiLink: dbr:Electrostatic_particle_accelerator
dbo:wikiPageRedirects: dbr:Electrostatic_particle_accelerator

Subject Item: dbr:Tandem_accelerators
dbo:wikiPageWikiLink: dbr:Electrostatic_particle_accelerator
dbo:wikiPageRedirects: dbr:Electrostatic_particle_accelerator

Subject Item: wikipedia-en:Electrostatic_particle_accelerator
foaf:primaryTopic: dbr:Electrostatic_particle_accelerator