Translation and analysis of words by ChatGPT artificial intelligence
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far infra-red radiation - translation to russian
общая лексика
инфракрасное далекое излучение
![Active-infrared night vision: the camera illuminates the scene at infrared wavelengths invisible to the [[human eye]]. Despite a dark back-lit scene, active-infrared night vision delivers identifying details, as seen on the display monitor.](https://commons.wikimedia.org/wiki/Special:FilePath/Active-Infrared-Night-Vision.jpg?width=200 "Active-infrared night vision: the camera illuminates the scene at infrared wavelengths invisible to the [[human eye]]. Despite a dark back-lit scene, active-infrared night vision delivers identifying details, as seen on the display monitor.")
![Infrared light from the [[LED]] of a [[remote control]] as recorded by a digital camera](https://commons.wikimedia.org/wiki/Special:FilePath/Blue infrared light.jpg?width=200 "Infrared light from the [[LED]] of a [[remote control]] as recorded by a digital camera")
![[[Beta Pictoris]] with its planet Beta Pictoris b, the light-blue dot off-center, as seen in infrared. It combines two images, the inner disc is at 3.6 μm.](https://commons.wikimedia.org/wiki/Special:FilePath/ESO - Beta Pictoris planet finally imaged (by).jpg?width=200 "[[Beta Pictoris]] with its planet Beta Pictoris b, the light-blue dot off-center, as seen in infrared. It combines two images, the inner disc is at 3.6 μm.")
![Materials with higher [[emissivity]] appear closer to their true temperature than materials that reflect more of their different-temperature surroundings. In this thermal image, the more reflective ceramic cylinder, reflecting the cooler surroundings, appears to be colder than its cubic container (made of more emissive silicon carbide), while in fact, they have the same temperature.](https://commons.wikimedia.org/wiki/Special:FilePath/Effect of emissivity on apparent temperature.jpg?width=200 "Materials with higher [[emissivity]] appear closer to their true temperature than materials that reflect more of their different-temperature surroundings. In this thermal image, the more reflective ceramic cylinder, reflecting the cooler surroundings, appears to be colder than its cubic container (made of more emissive silicon carbide), while in fact, they have the same temperature.")
![The [[greenhouse effect]] with molecules of methane, water, and carbon dioxide re-radiating solar heat](https://commons.wikimedia.org/wiki/Special:FilePath/Greenhouse-effect-t2.svg?width=200 "The [[greenhouse effect]] with molecules of methane, water, and carbon dioxide re-radiating solar heat")
![hair salons]], c. 2010s](https://commons.wikimedia.org/wiki/Special:FilePath/Hooded dryer for infrared hair drying at hair salon - shown from three perspectives.jpg?width=200 "hair salons]], c. 2010s")
![An infrared reflectogram of ''[[Mona Lisa]]'' by [[Leonardo da Vinci]]](https://commons.wikimedia.org/wiki/Special:FilePath/Infrared reflectograms of Mona Lisa.jpg?width=200 "An infrared reflectogram of ''[[Mona Lisa]]'' by [[Leonardo da Vinci]]")
![IR satellite picture of cumulonimbus clouds over the [[Great Plains]] of the United States.](https://commons.wikimedia.org/wiki/Special:FilePath/NOAA Shares First Infrared Imagery from GOES-17 (43904870711).gif?width=200 "IR satellite picture of cumulonimbus clouds over the [[Great Plains]] of the United States.")
![Thermography helped to determine the temperature profile of the [[Space Shuttle thermal protection system]] during re-entry.](https://commons.wikimedia.org/wiki/Special:FilePath/STS-3 infrared on reentry.jpg?width=200 "Thermography helped to determine the temperature profile of the [[Space Shuttle thermal protection system]] during re-entry.")
![false-color]] infrared space telescope image has blue, green and red corresponding to 3.4, 4.6, and 12 [[μm]] wavelengths, respectively.](https://commons.wikimedia.org/wiki/Special:FilePath/Wide-field Infrared Survey Explorer first-light image.jpg?width=200 "false-color]] infrared space telescope image has blue, green and red corresponding to 3.4, 4.6, and 12 [[μm]] wavelengths, respectively.")
[infrə'red]
общая лексика
радиационный
инфракрасный
Смотрите также
прилагательное
физика
инфракрасный
существительное
[infrə'red]
общая лексика
инфракрасная область спектра
общая лексика
инфракрасное излучение
Definition
Wikipedia
Far infrared (FIR) is a region in the infrared spectrum of electromagnetic radiation. Far infrared is often defined as any radiation with a wavelength of 15 micrometers (μm) to 1 mm (corresponding to a range of about 20 THz to 300 GHz), which places far infrared radiation within the CIE IR-B and IR-C bands. The long-wave side of the FIR spectrum overlaps with so named terahertz radiation. Different sources use different boundaries for the far infrared; for example, astronomers sometimes define far infrared as wavelengths between 25 μm and 350 μm.
Visible light includes radiation with wavelengths between 400 nm and 700 nm, meaning that far infrared photons have tens to hundreds of times less energy than visible light photons.
