radiation - translation to spanish
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radiation - translation to spanish

WAVES OR PARTICLES PROPAGATING THROUGH SPACE OR THROUGH A MEDIUM, CARRYING ENERGY
Radiological; Radioactive radiation; Radiating
  • reason=The text does not mention the diagram. The caveats should probably be listed in a note using Template:Efn}}
  • [[Alpha particle]] detected in an [[isopropanol]] [[cloud chamber]]
  • The [[electromagnetic spectrum]]
  • [[Electrons]] (beta radiation) detected in an [[isopropanol]] [[cloud chamber]]
  • Gamma radiation detected in an [[isopropanol]] [[cloud chamber]].
  • unshielded]] humans. Radiation, in general, exists throughout nature, such as in light and sound.
  • Graphic showing relationships between radioactivity and detected ionizing radiation
  • Some kinds of [[ionizing]] radiation can be detected in a [[cloud chamber]].

radiation         
radiación
radiation         
radiación (f) [Noun]
radiation         
(n.) = radiación
Ex: A radiograph is a photograph produced by the passage of radiation, such as X rays, gamma rays, or neutrons, through an opaque object.
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* radiation chemistry = química para la radiación
* radiation source = fuente de radiación
* radiation therapy = radioterapia
* solar radiation = radiación solar

Definition

radiation
1.
Radiation consists of very small particles of a radioactive substance. Large amounts of radiation can cause illness and death.
They suffer from health problems and fear the long term effects of radiation...
N-UNCOUNT: also N in pl, oft N n
2.
Radiation is energy, especially heat, that comes from a particular source.
The satellite will study energy radiation from stars.
N-UNCOUNT: also N in pl, usu with supp

Wikipedia

Radiation

In physics, radiation is the emission or transmission of energy in the form of waves or particles through space or through a material medium. This includes:

  • electromagnetic radiation, such as radio waves, microwaves, infrared, visible light, ultraviolet, x-rays, and gamma radiation (γ)
  • particle radiation, such as alpha radiation (α), beta radiation (β), proton radiation and neutron radiation (particles of non-zero rest energy)
  • acoustic radiation, such as ultrasound, sound, and seismic waves (dependent on a physical transmission medium)
  • gravitational radiation, that takes the form of gravitational waves, or ripples in the curvature of spacetime

Radiation is often categorized as either ionizing or non-ionizing depending on the energy of the radiated particles. Ionizing radiation carries more than 10 eV, which is enough to ionize atoms and molecules and break chemical bonds. This is an important distinction due to the large difference in harmfulness to living organisms. A common source of ionizing radiation is radioactive materials that emit α, β, or γ radiation, consisting of helium nuclei, electrons or positrons, and photons, respectively. Other sources include X-rays from medical radiography examinations and muons, mesons, positrons, neutrons and other particles that constitute the secondary cosmic rays that are produced after primary cosmic rays interact with Earth's atmosphere.

Gamma rays, X-rays and the higher energy range of ultraviolet light constitute the ionizing part of the electromagnetic spectrum. The word "ionize" refers to the breaking of one or more electrons away from an atom, an action that requires the relatively high energies that these electromagnetic waves supply. Further down the spectrum, the non-ionizing lower energies of the lower ultraviolet spectrum cannot ionize atoms, but can disrupt the inter-atomic bonds which form molecules, thereby breaking down molecules rather than atoms; a good example of this is sunburn caused by long-wavelength solar ultraviolet. The waves of longer wavelength than UV in visible light, infrared and microwave frequencies cannot break bonds but can cause vibrations in the bonds which are sensed as heat. Radio wavelengths and below generally are not regarded as harmful to biological systems. These are not sharp delineations of the energies; there is some overlap in the effects of specific frequencies.

The word "radiation" arises from the phenomenon of waves radiating (i.e., traveling outward in all directions) from a source. This aspect leads to a system of measurements and physical units that are applicable to all types of radiation. Because such radiation expands as it passes through space, and as its energy is conserved (in vacuum), the intensity of all types of radiation from a point source follows an inverse-square law in relation to the distance from its source. Like any ideal law, the inverse-square law approximates a measured radiation intensity to the extent that the source approximates a geometric point.

Examples of use of radiation
1. Lawrence Radiation Laboratory, where researchers were exploring the medical and therapeutic uses of radiation.
2. No radiation leaked outside the compound, and no one was exposed to radiation, Toshikiyo said.
3. In 2002, the Utilization of Radiation and Radioisotopes Act was enacted to accelerate radiation technology development.
4. Radiation remains a concern, and the bleak steppe is dotted with bright–yellow radiation warning signs.
5. Doe she fear the effects of her exposure to radiation? Radiation?