ultraviolet

listen to the pronunciation of ultraviolet
İngilizce - Türkçe
ultraviyole

Biz ultraviyole ışınları göremiyoruz ama böcekler görürler. - We can't see ultraviolet light, but insects can.

Ultraviyole ışınlarının ani artışı araştırmacıları ozon deliklerinin varlığına inandırdı. - The sudden increase of ultraviolet rays made the researchers believe in the existence of ozone holes.

mor ötesi

Kelebekler mor ötesi ışın kullanarak iletişim kurabilirler. - Butterflies can communicate using ultraviolet signals.

Güneş kremi mor ötesi ışıkları yansıtan ya da emen kimyasallar içerir. - Sunblock contains chemicals that can reflect or absorb the ultraviolet light.

morötesi

İnsanlar morötesi ışıkları göremez. - Humans can't see ultraviolet light.

{s} ültraviyole
(Tıp) Ultraviyole, mor ötesi (dalga boyu 2000-4000 angstrom olan ışın)
(Otomotiv) kızıl ötesi
ultraviole
morüstü
ultraviolet filter
morötesi süzgeci
ultraviolet filter
ültraviyole filtresi
ultraviolet lamp
ültraviyole lambası
ultraviolet light
ultraviyole ışınları
ultraviolet light
ültraviyole ışık
ultraviolet radiation
ültraviyole radyasyon
ultraviolet radiation
morötesi ışınım
ultraviolet rays
morötesi ışınlar
ultraviolet rays
ültraviyole ışınlar
ultraviolet spectrophotometry
morötesi spektrofotometri
ultraviolet lamp
ultraviyole lambası
ultraviolet microscope
ultraviyole mikroskop
ultraviolet radiation
ultraviyole radyasyon, morötesi ışınım
ultraviolet spectrometer
morötesi spektrometre, morüstü izgeölçer
ultraviolet imagery
(Askeri) MORÖTESİ GÖRÜNTÜ: Belirli bir hedef yüzeyinden yansıyan morötesi dalgaların algılanmasıyla oluşturulan görüntü
ultraviolet rays
(Tekstil) morötesi ışınlar, ültraviole ışınlar
ultraviolet region
ultraviyole bölge
backscattered ultraviolet
geri saçılmış morötesi
dangerous ultraviolet
(Çevre) tehlikeli ultraviyole
dangerous ultraviolet
tehlikeli ultraviyole (morötesi)
İngilizce - İngilizce
Ultraviolet colour
of electromagnetic radiation beyond (higher in frequency than) light visible to the human eye; radiation with wavelengths from 380 nanometre - 10 nanometre
Light rays that are outside the visible spectrum at its violet end These rays have a chemical effect upon the dried film of finishing materials Ultraviolet light is commonly used in curing finishes at the factory for prefinished flooring Ultraviolet light also causes woods to lighten or darken See Color Change
(1) situated beyond the visible spectrum, just beyond the violet end, having wavelengths shorter than wavelengths of visible light and longer than those of X-rays; (2) relating to, producing, or employing ultraviolet radiation
Electromagnetic radiation of wavelength between the shortest visible violet (about 3,850 Angstroms) and soft X-rays (about 100 Angstroms)
adj Relating to or producing electromagnetic radiation of wavelengths from about 5 nanometers to 400 nanometers, which is beyond the violet end of the visible light spectrum Ultraviolet radiation refers to radiation with ultraviolet wavelengths Radiation of this kind is a component of sunlight and is the light that makes exposed skin become darker
the portion of the electromagnetic spectrum beyond the visible violet region Photons of ultraviolet light have more energy that photons of visible violet light
Electromagnetic radiation at wavelengths shorter than the violet end of visible light; the atmosphere of the Earth effectively blocks the transmission of most ultraviolet light
– the region of the electromagnetic spectrum between visible light and x rays
radiation lying in the ultraviolet range; wave lengths shorter than light but longer than X rays
Ultraviolet radiation from the sun plays a role in the formation of the ozone layer by acting as a catalyst for a chemical reaction that breaks apart oxygen molecules which then recombine to form ozone The absorption of UV by stratospheric ozone and atmospheric oxygen prevents very little ultraviolet radiation to reach earth's surfaces where it can detrimental effects on human health and property
wavelengths shorter than visible light
electromagnetic radiation beyond the violet end of the visible light spectrum UV radiation induces tanning and sunburn of the skin, and is associated with the development of skin cancer UV is used to kill Mycobacterium tuberculosis in hospitals
Light that is so blue humans cannot see it A band of the electromagnetic spectrum between the visible and the X-ray hotons of ultraviolet light are more energetic than photons of visible light
The part of the electromagnetic spectrum whose radiation has somewhat smaller wavelengths than optical radiation, but longer wavelengths than X-rays Because ultraviolet light is absorbed by the Earth's atmosphere, ultraviolet astronomy is performed in space more!
Lying outside the visible spectrum at its violet end; said of rays more refrangible than the extreme violet rays of the spectrum
Ultraviolet light or radiation is what causes your skin to become darker in colour after you have been in sunlight. In large amounts ultraviolet light is harmful. The sun's ultraviolet rays are responsible for both tanning and burning. ultraviolet light cannot be seen by people, but is responsible for making your skin darker when you are in the sun ultraviolet radiation/rays
  The portion of the electromagnetic spectrum in which the longest wavelength is just below the visible spectrum, extending from approximately 4 nm to approximately 400 nm   Note: Some authorities place the lower limit of uv at values between 1 and 40 nm, 1 nm being the upper wavelength limit of x-rays   The 400-nm limit is the lowest visible wavelength, i e , the highest visible frequency, violet
radiation lying in the ultraviolet range; wave lengths shorter than light but longer than X rays having or employing wavelengths shorter than light but longer than X-rays; lying outside the visible spectrum at its violet end; "ultraviolet radiation"; "an ultraviolet lamp
ultra = [Latin] beyond; violet = [Old French] little viole, from viola = [Latin] violet (the flower) Ultraviolet "light" (abbreviated: UV) is a form of invisible electromagnetic radiation with wavelengths just below those of visible light UV radiation is more powerful than visible light and the more powerful forms of it may cause damage to your skin
(U V ) Invisible radiation wavelengths from about 4 nanometers, on the border of the x-ray region, to about 380 nanometers, just beyond the violet in the visible spectrum This frequency of light is considered the culprit in color fading as well as causing skin cancer
1 The invisible rays of the spectrum at the violet end 2 Invisible radiation waves with frequencies shorter than wave lengths of visible light and longer than X-ray
having or employing wavelengths shorter than light but longer than X-rays; lying outside the visible spectrum at its violet end; "ultraviolet radiation"; "an ultraviolet lamp"
electromagnetic radiation of shorter wavelength than visible light UV cannot be seen by the eye, and much of it is absorbed by ozone, a molecule of oxygen, at altitudes of 30-40 km above the Earth Satellite telescopes, however, can and do view stars, galaxies, and the Sun in UV
A band of the electromagnetic Spectrum between the visible and the X-ray, i e light that is so blue humans cannot see it Photons of ultraviolet light are more energetic than photons of visible light
Electromagnetic radiation at wavelengths shorter than the violet end of visible light (5 to 300 nm); the atmosphere of the Earth effectively blocks the transmission of most ultraviolet light
Electromagnetic radiation that has a wavelength shorter than visible light and longer than x-rays Although it accounts for only 4 to 5 percent of the total energy of insolation, it is responsible for many complex photochemical reactions, such as fluorescence and the formation of ozone
(UV)--electromagnetic radiation resembling visible light, but of shorter wavelength The eye cannot see UV, and much of it is absorbed by ozone, a variant of oxygen, at altitudes of 30-40 km; satellite telescope, however, can and do view stars and the Sun in UV, and even in the extreme UV (EUV), the range between UV and X-rays
{s} beyond the rays of the violet end of the visible light spectrum, of or pertaining to ultraviolet light
There is a naturally imposed bound for distant objects at 912 Angstroms (13 6 eV), the energy needed for a photon to be absorbed by a hydrogen atom and liberate its lone electron in the process There is so much neutral hydrogen in our galaxy that we cannot see very far away at wavelengths shortward of this until about 100 Angstroms, when the absorption by hydrogen (now assisted by other, trace elements) has dropped enough for the interstellar gas to become transparent once again Aside from starlight and synchrotron radiation, the UV contains several very important strong spectral lines from abundant atoms
A region of the electromagnetic spectrum that is of higher energy and shorter wavelength than visible light Typical wavelengths of ultraviolet radiation range from 375 nm to 12 5 nm (12 5 x 10-9 m)
Light that is so blue humans cannot see it A band of the electromagnetic spectrum between the visible and the X-ray Photons of ultraviolet light are more energetic than photons of visible light
UV
ultraviolet light
Light bulb that emits ultraviolet light; see black light
ultraviolet light
Light in the ultraviolet part of the spectrum
ultraviolet lights
plural form of ultraviolet light
ultraviolet B
electromagnetic radiation with a wavelength of between 280 and 320 nanometers, radiant component of sunlight which causes sunburn and skin cancer, UVB
ultraviolet astronomy
The branch of astronomy that deals with the origin and nature of emissions from extraterrestrial sources in the ultraviolet range of electromagnetic radiation rather than in the visible range. Study of astronomical objects and phenomena by observing the ultraviolet radiation (UV radiation) they emit. It has yielded much information about chemical abundances and processes in interstellar matter, the Sun, and other stellar objects, such as hot young stars and white dwarf stars. Ultraviolet astronomy became feasible once rockets could carry instruments above Earth's atmosphere, which absorbs most electromagnetic radiation of UV wavelengths. Since the early 1960s, a number of unmanned space observatories carrying UV telescopes, including the Hubble Space Telescope, have collected UV data on objects such as comets, quasars, nebulae, and distant star clusters. The Extreme Ultraviolet Explorer, launched in 1992, was the first orbiting observatory to map the sky in the shortest UV wavelengths, at the boundary with the X-ray region of the electromagnetic spectrum
ultraviolet lamp
any source of illumination that emits ultraviolet radiation
ultraviolet lamp
A lamp, especially a mercury-vapor lamp, that produces ultraviolet light
ultraviolet light
A form of luminous energy occupying a position in the spectrum of sunlight beyond the violet, and having wavelengths that do not enter the visible spectrum UV rays accelerate deterioration of roof materials Hence, the need for protective coatings
ultraviolet light
used as a means of detecting fluorescence in gemstones
ultraviolet light
Light having a shorter wavelength and higher energy than visible light Ultraviolet light is potentially damaging to library, archive and museum objects Removing UV light can reduce the rate of deterioration Certain acrylic sheets have UV filtering chemicals built into them
ultraviolet light
The portion of the electromagnetic spectrum extending from the violet, or short-wavelength, end of the visible light range to the X-ray region Ultraviolet (UV) radiation is undetectable by the human eye, although when it falls on certain materials it may cause them to fluoresce-i e , emit electromagnetic radiation of lower energy, such as visible light
ultraviolet light
The portion of the electromagnetic spectrum from about 5 - 400 nanometers; this is the form of light responsible for a suntan
ultraviolet light
Light beyond the visible spectrum
ultraviolet light
radiation lying in the ultraviolet range; wave lengths shorter than light but longer than X rays
ultraviolet light
[n] short wavelength light that is beyond the visible spectrum at the violet end; rays of light that are invisible to the human eye but can damage objects
ultraviolet light
The invisible rays of the spectrum that are outside of the visible spectrum at its short-wavelength violet end Ultraviolet rays are found in everyday sunlight and can cause fading of paint finishes, carpets, and fabrics
ultraviolet light
These devices shoot UV light at the water to kill bacteria They do not get rid of lead or other minerals, so an activated carbon system is required in addition Ideal for farms, rural homes and cottages where non-chlorinated lake or well water is used
ultraviolet light
Region of the electromagnetic spectrum spanning wavelengths from 91 2 nm to 350 nm, wavelengths largely blocked by the Earth's atmosphere
ultraviolet light
Radiant energy with wave lengths slightly shorter than the visible spectrum Found in sunlight, causes color fading
ultraviolet light
The invisible rays of the sun that penetrate the epidermis and have been proven to cause premature aging and skin cancer
ultraviolet light
Light that is situated beyond the visible spectrum, at the violet end
ultraviolet light
Ultraviolet (UV) light refers to particular colors of light which are so blue that most cannot be seen by the human eye UV light from the Sun reacts highly with many chemicals in the atmosphere and controls many aspects of climate and weather UV light also reacts with human skin to cause suntans and sunburns, which can lead to skin cancer
ultraviolet light
highly energetic part of the electromagnetic spectrum of rays falling between 200 and 400 nanometer wavelengths, which are shorter than that of visible light Carbon arc lamps, black light and mercury vapor lamps are examples of artificial sources of ultraviolet light used by the screen printer
ultraviolet radiation
Portion of the electromagnetic spectrum extending from the violet end of visible light to the X-ray region. Ultraviolet (UV) radiation lies between wavelengths of about 400 nanometres and 10 nanometres, corresponding to frequencies of 7.5/n/n10^14 Hz to 3 10^16 Hz. Most UV rays from the Sun are absorbed by the Earth's ozone layer. UV has low penetrating power, so its effects on humans are limited to the skin. These effects include stimulation of production of vitamin D, sunburn, suntan, aging signs, and carcinogenic changes. UV radiation is also used to treat jaundice in newborns, to sterilize equipment, and to produce artificial light
ultraviolet rays
medicinal rays having shorter waves than the visible sun's rays
ultraviolet spectrum
the spectrum of ultraviolet radiation
ultraviolet

    Heceleme

    ultra·violet

    Türkçe nasıl söylenir

    ʌltrıvayılît

    Telaffuz

    /ˌəltrəˈvīələt/ /ˌʌltrəˈvaɪəlɪt/

    Etimoloji

    () ultra- +‎ violet