-
41 близко расположенные
•Lines close together indicate the strongest regions of the field.
•Another important application of laser spectroscopy is the study of closely-spaced atomic and molecular energy levels.
•Simultaneous condensation of matter around two nearby (or adjacent, or neighbouring) centres...
•Closely-pitched ribs can be provided to ensure ample cooling area.
•With the unit particles in close proximity, this effect may extend throughout...
* * *Близко расположенные (т.е. с малым шагом)Most of these were located in the near neighborhood of the blockage and were closely spaced to aid in the resolution of the position of reattachment.Русско-английский научно-технический словарь переводчика > близко расположенные
-
42 вызван
•The unstable slope conditions were brought on by the permafrost.
•The phase difference is accountable (or chargeable) to gravity.
•The high levels of alkaline phosphatase may be associated with a tumor of...
•Laser-excited molecular fluorescence can be caused by species present in the flame gases.
•The fire was set by lightning.
•The ionization was produced by the charged particle.
•Such spectra are not sufficiently well resolved, which owes to the broad fluorescent vibronic bands.
•The strain is brought about (or caused) by pressure.
•Errors that may arise (or stem) from such disturbances...
•The production of foam is associated with a decrease in surface tension.
•These faults are attributable (or may be attributed) to the video head assembly.
•The fluctuations are due to roll eccentricity.
•The fire was induced by lightning.
•When combustion originates from local exposure...
•This increase results from (or is caused by, or stems from, or arises from, or is due to, or is brought about by)...
•These problems spring (or derive) from a number of different demands.
•This effect stems (or derives) from (or is due to, or is caused by) reduced blood circulation.
•Acute insufficiency may be triggered (or caused, or occasioned) by a generalized infection or massive stress.
•A major earthquake has never been triggered by a nuclear test explosion.
Русско-английский научно-технический словарь переводчика > вызван
-
43 близко расположенные
•Lines close together indicate the strongest regions of the field.
•Another important application of laser spectroscopy is the study of closely-spaced atomic and molecular energy levels.
•Simultaneous condensation of matter around two nearby (or adjacent, or neighbouring) centres...
•Closely-pitched ribs can be provided to ensure ample cooling area.
•With the unit particles in close proximity, this effect may extend throughout...
Русско-английский научно-технический словарь переводчика > близко расположенные
-
44 вызван
•The unstable slope conditions were brought on by the permafrost.
•The phase difference is accountable (or chargeable) to gravity.
•The high levels of alkaline phosphatase may be associated with a tumor of...
•Laser-excited molecular fluorescence can be caused by species present in the flame gases.
•The fire was set by lightning.
•The ionization was produced by the charged particle.
•Such spectra are not sufficiently well resolved, which owes to the broad fluorescent vibronic bands.
•The strain is brought about (or caused) by pressure.
•Errors that may arise (or stem) from such disturbances...
•The production of foam is associated with a decrease in surface tension.
•These faults are attributable (or may be attributed) to the video head assembly.
•The fluctuations are due to roll eccentricity.
•The fire was induced by lightning.
•When combustion originates from local exposure...
•This increase results from (or is caused by, or stems from, or arises from, or is due to, or is brought about by)...
•These problems spring (or derive) from a number of different demands.
•This effect stems (or derives) from (or is due to, or is caused by) reduced blood circulation.
•Acute insufficiency may be triggered (or caused, or occasioned) by a generalized infection or massive stress.
•A major earthquake has never been triggered by a nuclear test explosion.
Русско-английский научно-технический словарь переводчика > вызван
-
45 делать упор на
•It is better to put more emphasis on factors that determine...
•The reader may wonder why such a great stress is being given to a detailed understanding of the Crab Nebula.
•The emphasis in this chapter has been on molecular diffusion.
•Now and in the future there must be emphasis on reliability.
•Emphasis is placed (or made) on the dye laser because...
Русско-английский научно-технический словарь переводчика > делать упор на
-
46 отделять от
•This transition is extremely difficult to resolve from the laser-excited molecular fluorescence.
•The demodulator separates the audio-frequency signal...
Русско-английский научно-технический словарь переводчика > отделять от
-
47 проливать новый свет на
•Laser sheds new light (up)on molecular structure.
Русско-английский научно-технический словарь переводчика > проливать новый свет на
-
48 устанавливать
•The laser generator should be mounted vertically.
•Conveyors have been erected (or installed, or set up) to convey coal to...
•The valve should be fitted on the discharge side of the pipe.
•The cabinet may be located (or sited) near the mill.
•A workpiece is set upon the table.
•A series of coils is arranged along the plasma duct.
II. выяснять; заранее устанавливать; найдено, что; необходимо выяснить; обнаруживать, что; определять; расход устанавливается на таком уровне, при котором•Using this method we can arrive at the molecular formula of a compound.
•The fundamental geological principles were established in the eighteenth century.
•The method for working out the relative ages of rocks...
•The mass velocities of the streams are fixed (or established, or assigned) when the cross section is selected.
•The accuracy of the plots has not been fully ascertained.
•The specification stipulates for each class of cement a maximum viscosity...
•The conveyor may be adjusted to the proper discharge height.
•This enables the table to be positioned automatically.
•The thermostat control can be set at the degree of warming desired.
•The amplifier is set for stable operation.
•The monochromator is set to the same wavelength.
•The propeller blades may be set to any desired pitch.
IV•The existence of this restriction can be recognized from the nature of the spectra.
•Arrhenius recognized that this temperature dependence indicates an exponential increase in...
Русско-английский научно-технический словарь переводчика > устанавливать
-
49 молекулярный газовый лазер с оптической накачкой
Automation: optically pumped molecular gas laserУниверсальный русско-английский словарь > молекулярный газовый лазер с оптической накачкой
-
50 сильно н
-
51 сильно нелин
-
52 электроразрядный лазер на молекулярном азоте
Electronics: molecular nitrogen discharge laserУниверсальный русско-английский словарь > электроразрядный лазер на молекулярном азоте
-
53 энергия
energy, power* * *эне́ргия ж.1. energyвыводи́ть эне́ргию (из ла́зера) диффракцио́нным ме́тодом — couple out the laser output by diffractionвыделя́ть [высвобожда́ть] эне́ргию — give off [give out, liberate, release] energyнака́пливать эне́ргию — accumulate [store] energyотбира́ть эне́ргию — extract energyпередава́ть эне́ргию ( от одного тела к другому) — transfer energy (from one body to another)поглоща́ть эне́ргию — absorb energyподводи́ть эне́ргию к … — deliver energy to …превраща́ть эне́ргию ( из одного вида в другой) — convert energy (from one to another)приобрета́ть эне́ргию — acquire energyсообща́ть эне́ргию — energize2. (нестрогое или прикладное словоупотребление, особ. в народном хозяйстве) powerвыраба́тывать [производи́ть] эне́ргию — generate [produce] powerзапаса́ть эне́ргию — accumulate [store] powerпередава́ть эне́ргию (особ. электрическую) на расстоя́ние — transmit power (especially electric) over a distanceпреобразо́вывать эне́ргию — convert powerраспредели́ть эне́ргию — distribute powerснабжа́ть эне́ргией — supply powerэне́ргия адсо́рбции — adsorption energyэне́ргия актива́ции — activation energyа́томная эне́ргия1. atomic energy2. nuclear powerвзаи́мная эне́ргия — mutual energyэне́ргия взаимоде́йствия ( частиц) — interaction energyэне́ргия взаимообме́на — exchange energyвну́тренняя эне́ргия — internal energyвнутрия́дерная эне́ргия — nuclear [atomic] energyво́дная эне́ргия — water [hydroelectric] powerэне́ргия возбужде́ния ( атомов) — excitation energyэне́ргия враще́ния — rotation energyгидравли́ческая эне́ргия — hydraulic powerгравитацио́нная эне́ргия — gravitational energyэне́ргия деле́ния ( ядра) — fission energyэне́ргия деформа́ции — strain energyэне́ргия дисперсио́нного взаимоде́йствия — dispersion energyэне́ргия диссоциа́ции — dissociation energyзвукова́я эне́ргия — acoustic [sound] energyизбы́точная эне́ргия — excess [extra] energyизлуча́емая эне́ргия — radiant energyэне́ргия иониза́ции — ionization energyкинети́ческая эне́ргия — kinetic energyкинети́ческая эне́ргия враще́ния — angular kinetic energyкинети́ческая, уде́льная эне́ргия пото́ка — kinetic energy of the fluid flow per unit volumeэне́ргия колеба́ний — vibrational [vibratory] energyкорреляцио́нная эне́ргия — correlation energyкосми́ческая эне́ргия — cosmic energyкрити́ческая эне́ргия — critical energyэне́ргия куло́новского взаимоде́йствия — Coloumb energyлучи́стая эне́ргия — radiant energyмагни́тная эне́ргия — magnetic field energyэне́ргия магни́тного по́ля — magnetic field energyмагнитоупру́гая эне́ргия — magnetoelastic energyэне́ргия межмолекуля́рного взаимоде́йствия — intermolecular [molecular interaction] energyмехани́ческая эне́ргия — mechanical energyнулева́я эне́ргия — zero-point energyэне́ргия нулево́й то́чки — zero-point energyобме́нная эне́ргия — exchange energyэне́ргия обме́нного взаимоде́йствия — exchange energyорбита́льная эне́ргия — orbital energyоста́точная эне́ргия — residual energyэне́ргия отда́чи — recoil energyэне́ргия отта́лкивания — repulsive [repulsion] energyэне́ргия перехо́да — transition energyпове́рхностная эне́ргия — surface energyпове́рхностная эне́ргия разруше́ния рез. — fracture surface energyэне́ргия пове́рхностного натяже́ния — capillary energyэне́ргия поко́я ( частицы) — rest energyэне́ргия по́ля анизотропи́и — anisotropy energyпоро́говая эне́ргия — threshold energyэне́ргия поступа́тельного движе́ния — translational [translatory] energyпотенциа́льная эне́ргия — potential energyпотенциа́льная эне́ргия деформа́ции — strain energyпотребля́емая эне́ргия1. energy input2. power consumptionэне́ргия притяже́ния — attraction energyпромежу́точная эне́ргия — intermediate energyэне́ргия пучка́ — beam energyэне́ргия радиоизлуче́ния — radio(-frequency) energyэне́ргия разруше́ния горн. — crushing energyэне́ргия разруше́ния уде́льная горн. — specific crushing energyэне́ргия разры́ва, уста́лостная — fatigue tensile energyэне́ргия распа́да — decay [disintegration] energyрезона́нсная эне́ргия — resonance [resonant] energyэне́ргия ро́ста — growing capacityсветова́я эне́ргия — luminous [light] energyсвобо́дная эне́ргия — free [available] energyсвя́занная эне́ргия — bound [unavailable] energyэне́ргия свя́зи — binding energyскры́тая эне́ргия — latent energyэне́ргия смеше́ния — energy of mixingсо́бственная эне́ргия — self-energyсо́лнечная эне́ргия1. solar energy2. solar powerэне́ргия состоя́ния — energy of stateэне́ргия столкнове́ний — collision(al) energyтеплова́я эне́ргия1. heat [thermal] energy2. thermal powerэне́ргия теплово́го движе́ния — thermal-motion energyтермоя́дерная эне́ргия — thermonuclear powerэне́ргия уда́ра — impact energyуде́льная эне́ргия — specific energyупру́гая эне́ргия — elastic (strain) energyэне́ргия упру́гой деформа́ции — strain energyэне́ргия фото́на — photon energyхими́ческая эне́ргия — chemical energyэлектри́ческая эне́ргия1. electric energy2. electric powerэне́ргия электри́ческого по́ля — electrical field energyэлектромагни́тная эне́ргия — electromagnetic energyэне́ргия электромагни́тного по́ля — electromagnetic energyэлектростати́ческая эне́ргия — electrostatic energyэне́ргия электростати́ческого взаимоде́йствия — electrostatic energyя́дерная эне́ргия — nuclear power -
54 делать упор на
•It is better to put more emphasis on factors that determine...
•The reader may wonder why such a great stress is being given to a detailed understanding of the Crab Nebula.
•The emphasis in this chapter has been on molecular diffusion.
•Now and in the future there must be emphasis on reliability.
•Emphasis is placed (or made) on the dye laser because...
* * *Делать упор на -- to stress; to place emphasis on, to be emphasis for; the thrust of... beIt appears that future contributions in optimal design must stress design instead of purely mathematical procedures.Throughout the work, emphasis is placed on the distinction between performance parameters and performance criteria.The thrust of the investigation was experimental, to determine whether an embrittlement existed. (Упор в исследовании делался на эксперимент...)Русско-английский научно-технический словарь переводчика > делать упор на
-
55 молекулярный газовый лазер
(в котором активной средой является молекулярный газ, напр. углекислый) molecular gas laserРусско-английский исловарь по машиностроению и автоматизации производства > молекулярный газовый лазер
-
56 OPMGL
Англо-русский словарь промышленной и научной лексики > OPMGL
-
57 астрономия
ж. astronomy
См. также в других словарях:
Molecular laser isotope separation — (MLIS) is a method of isotope separation, where specially tuned lasers are used to separate isotopes of uranium using selective ionization of hyperfine transitions of uranium hexafluoride molecules. It is similar to AVLIS. Its main advantage over … Wikipedia
molecular laser — molekulinis lazeris statusas T sritis radioelektronika atitikmenys: angl. molecular laser vok. Molekularlaser, m rus. молекулярный лазер, m pranc. laser moléculaire, m … Radioelektronikos terminų žodynas
laser moléculaire — molekulinis lazeris statusas T sritis radioelektronika atitikmenys: angl. molecular laser vok. Molekularlaser, m rus. молекулярный лазер, m pranc. laser moléculaire, m … Radioelektronikos terminų žodynas
Laser absorption spectrometry — (LAS) refers to techniques that utilize lasers to assess the concentration or amount of a species in gas phase by absorption spectrometry (AS).It is well known that optical spectroscopic techniques in general and laser based techniques in… … Wikipedia
Láser de Nitrógeno — Saltar a navegación, búsqueda El láser de Nitrógeno (N2) es uno de los láseres más fáciles de construir y de más bajo coste. Su funcionamiento se logra al producir una rápida y fuerte descarga entre dos placas de aluminio que ioniza el nitrógeno… … Wikipedia Español
Molecular tagging velocimetry — (MTV) is a specific form of flow velocimetry, a technique for determining the velocity of currents in fluids such as air and water. In its simplest form, a single write laser beam is shot once through the sample space. Along its path an optically … Wikipedia
Molecular-beam epitaxy — (MBE), is one of several methods of depositing single crystals. It was invented in the late 1960s at Bell Telephone Laboratories by J. R. Arthur and Alfred Y. Cho.MethodMolecular beam epitaxy takes place in high vacuum or ultra high vacuum (10−8… … Wikipedia
Laser propulsion — is a form of Beam powered propulsion where the energy source is a remote (usually ground based) laser system. This form of propulsion differs from a conventional chemical rocket where both energy and reaction mass come from the solid or liquid… … Wikipedia
Laser-induced breakdown spectroscopy — (LIBS) is a type of atomic emission spectroscopy which utilises a highly energetic laser pulse as the excitation source. LIBS can analyse any matter regardless of its physical state, be it solid, liquid or gas. Even slurries, aerosols, gels, and… … Wikipedia
Laser resurfacing — is a technique used during laser surgery wherein molecular bonds of a material are dissolved by a laser. It is used for the treatment of wrinkles, solar lentigenes, sun damage, scars (see acne scar treatment), stretch marks, actinic keratosis and … Wikipedia
Laser cooling — refers to the number of techniques in which atomic and molecular samples are cooled through the interaction with one or more laser light fields. The first example of laser cooling, and also still the most common method of laser cooling (so much… … Wikipedia