About: Positron Manipulation   Sponge Permalink

An Entity of Type : dbkwik:resource/xoykDFxJFBgF02W_HRnEzw==, within Data Space : dbkwik.org associated with source dataset(s)

User can create, shape and manipulate positrons, the antiparticle/antimatter counterpart of the electrons. The subatomic particles have the same mass as an electron and a numerically equal but positive charge. When a low-energy positron collides with a low-energy electron, annihilation occurs, resulting in the production of two or more gamma ray photons (electron–positron annihilation).

AttributesValues
rdf:type
rdfs:label
  • Positron Manipulation
rdfs:comment
  • User can create, shape and manipulate positrons, the antiparticle/antimatter counterpart of the electrons. The subatomic particles have the same mass as an electron and a numerically equal but positive charge. When a low-energy positron collides with a low-energy electron, annihilation occurs, resulting in the production of two or more gamma ray photons (electron–positron annihilation).
dcterms:subject
Row 1 info
  • manipulate positrons
Row 1 title
  • Power/Ability to:
Box Title
  • Positron Manipulation
Caption
  • Icon can manipulate an energy based on positron
dbkwik:powerlistin...iPageUsesTemplate
imagewidth
  • 300(xsd:integer)
BGCOLOR
  • Green
abstract
  • User can create, shape and manipulate positrons, the antiparticle/antimatter counterpart of the electrons. The subatomic particles have the same mass as an electron and a numerically equal but positive charge. When a low-energy positron collides with a low-energy electron, annihilation occurs, resulting in the production of two or more gamma ray photons (electron–positron annihilation). Positrons have properties of both particles and waves, and so can collide with other particles and can be diffracted like light. They are involved in many of the physical phenomena that involve electrons such as electricity, magnetism, and thermal conductivity. Positrons also participate in gravitational, electromagnetic and weak interactions. An positron moving relative to an observer generates a magnetic field; external magnetic fields will deflect an electron.
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