-
61 acetylenic carbon
углеродный атом, связанный тройной связьюThe English-Russian dictionary general scientific > acetylenic carbon
-
62 nuclear carbon
The English-Russian dictionary general scientific > nuclear carbon
-
63 side-chain carbon
The English-Russian dictionary general scientific > side-chain carbon
-
64 tertiary carbon
The English-Russian dictionary general scientific > tertiary carbon
-
65 model 120-atom carbon toroid has 10 pentagonal, 60 hexagonal, and 10 heptagonal faces
Общая лексика: (or toroidal carbon cage) модельный 120-атомный углеродный тороид (или тороидальная углеродная клетка) имеет 10 пентагональных, 60 гексагональных и 10 гептагональнУниверсальный англо-русский словарь > model 120-atom carbon toroid has 10 pentagonal, 60 hexagonal, and 10 heptagonal faces
-
66 gamma-carbon
(chim) atom de carbon gamma -
67 model 120-atom carbon toroid (or toroidal carbon cage) has 10 pentagonal, 60 hexagonal, and 10 heptagonal faces
Общая лексика: модельный 120-атомный углеродный тороид (или тороидальная углеродная клетка) имеет 10 пентагональных, 60 гексагональных и 10 гептагональнУниверсальный англо-русский словарь > model 120-atom carbon toroid (or toroidal carbon cage) has 10 pentagonal, 60 hexagonal, and 10 heptagonal faces
-
68 monoxide
N1. एकल आक्सैड़Carbon monoxide, mde of ane carbon atom and one oxygen atom, is a very harmful gas. -
69 CAN
1) Авиация: canopy, cansellation, command analog3) Военный термин: Account Control Number, Canadian, Center for Naval Analysis, Coastal Air Navigation Supplement, Commander's Narrative Analysis4) Техника: Citizens Awareness Network5) Химия: ceric ammonium nitrate ((NH4)2Ce (NO3)6), известковая аммиачная селитра6) Математика: состоятельный асимптотически нормальный (consistent asymptotically normal)7) Телекоммуникации: Cosmopolitan Area Network8) Сокращение: Aircraft Classification Number, Canadian Dollars, cable television, Campus Area Network, Control Area Network, Customs Assigned Number9) Вычислительная техника: cancel character, Complete Area Networks (SNI), Controller Area Network (bus, CAN)10) Биотехнология: carbon atom number11) Менеджмент: change advice note12) Сетевые технологии: customer access network, сеть с абонентским доступом, символ отмены13) Автоматика: cancel, controller area network14) Расширение файла: Fax (Navigator Fax)15) Яхтенный спорт: Канада (Обозначения на парусах)16) Общественная организация: Cure Autism Now17) NYSE. American National Can Group, Inc.18) Аэропорты: Guangzhou, Mainland China19) НАСА: Canberra -
70 Can
1) Авиация: canopy, cansellation, command analog3) Военный термин: Account Control Number, Canadian, Center for Naval Analysis, Coastal Air Navigation Supplement, Commander's Narrative Analysis4) Техника: Citizens Awareness Network5) Химия: ceric ammonium nitrate ((NH4)2Ce (NO3)6), известковая аммиачная селитра6) Математика: состоятельный асимптотически нормальный (consistent asymptotically normal)7) Телекоммуникации: Cosmopolitan Area Network8) Сокращение: Aircraft Classification Number, Canadian Dollars, cable television, Campus Area Network, Control Area Network, Customs Assigned Number9) Вычислительная техника: cancel character, Complete Area Networks (SNI), Controller Area Network (bus, CAN)10) Биотехнология: carbon atom number11) Менеджмент: change advice note12) Сетевые технологии: customer access network, сеть с абонентским доступом, символ отмены13) Автоматика: cancel, controller area network14) Расширение файла: Fax (Navigator Fax)15) Яхтенный спорт: Канада (Обозначения на парусах)16) Общественная организация: Cure Autism Now17) NYSE. American National Can Group, Inc.18) Аэропорты: Guangzhou, Mainland China19) НАСА: Canberra -
71 can
1) Авиация: canopy, cansellation, command analog3) Военный термин: Account Control Number, Canadian, Center for Naval Analysis, Coastal Air Navigation Supplement, Commander's Narrative Analysis4) Техника: Citizens Awareness Network5) Химия: ceric ammonium nitrate ((NH4)2Ce (NO3)6), известковая аммиачная селитра6) Математика: состоятельный асимптотически нормальный (consistent asymptotically normal)7) Телекоммуникации: Cosmopolitan Area Network8) Сокращение: Aircraft Classification Number, Canadian Dollars, cable television, Campus Area Network, Control Area Network, Customs Assigned Number9) Вычислительная техника: cancel character, Complete Area Networks (SNI), Controller Area Network (bus, CAN)10) Биотехнология: carbon atom number11) Менеджмент: change advice note12) Сетевые технологии: customer access network, сеть с абонентским доступом, символ отмены13) Автоматика: cancel, controller area network14) Расширение файла: Fax (Navigator Fax)15) Яхтенный спорт: Канада (Обозначения на парусах)16) Общественная организация: Cure Autism Now17) NYSE. American National Can Group, Inc.18) Аэропорты: Guangzhou, Mainland China19) НАСА: Canberra -
72 methane
['miːθeɪn]1) Геология: болотный или рудничный газ, рудничный газ2) Техника: метановый3) Химия: болотный газ, метан4) Горное дело: гремучий газ5) Нефть: метан (CH4, бесцветный газ, t кипения 164 [deg]C (328 [deg]F). Основной компонент природных (77-99%), попутных нефтяных (31-90%), рудничного и болотного газов. Горит бесцветным пламенем)6) Холодильная техника: холодильный агент R50, метан (CH4)7) Сахалин Ю: (1 carbon atom, 4 hydrogen atoms) метан (1 атом углерода, 4 атома водорода), (dry gas) метан (сухой газ)8) Газовые турбины: метан (горючий газ)9) Цемент: СН4 -
73 quaternary
1. n комплект из четырёх предметов; четвёрка2. n геол. четвертичный период; четвертичная система3. n физ. мат. четвертичный, кватернарный4. a состоящий из четырёх частей -
74 quaternary
-
75 nitro compound
нитросоединение
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
nitro compound
Any one of a class of usually organic compounds that contain the monovalent group, -NO2 (nitro group or radical) linked to a carbon atom. (Source: CED)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Англо-русский словарь нормативно-технической терминологии > nitro compound
-
76 displacement
2) деформация3) вытеснение ( жидкости)4) хим. замещение5) рабочий объём ( цилиндра поршневой машины); подача (насоса, компрессора)6) рассогласование; отклонение ( регулируемой величины)9) относительный адрес, (адресное) смещение•displacement at drilling draft — водоизмещение ( морского основания) в процессе бурения;displacement in transit condition — водоизмещение ( морского основания) в транспортном положении;displacement of atom — дефект смещения; дефект Френкеля ( кристаллической решётки)displacement of embankment — осадка насыпиdisplacement of track — угон пути-
angular displacement
-
azimuthal displacement
-
boundary displacement
-
car centerline displacement
-
carbon-dioxide miscible displacement
-
compressor displacement
-
crack flank displacement
-
crack opening displacement
-
crack tip opening displacement
-
cubic displacement
-
cubic inch displacement
-
current displacement
-
deep displacement
-
designed displacement
-
design displacement
-
dielectric displacement
-
dislocation displacement
-
domain wall displacement
-
elastic displacement
-
electric displacement
-
engine displacement
-
feed displacement
-
film displacement
-
fixed displacement
-
full-load displacement
-
generalized displacement
-
horizontal displacement
-
infinitesimal displacement
-
instantaneous frequency displacement
-
lateral displacement
-
leakage spot displacement
-
light-ship displacement
-
light displacement
-
linear displacement
-
luminance/chrominance displacement
-
magnetic displacement
-
mechanical spot displacement
-
molded displacement
-
operating displacement
-
parallel displacement
-
phase displacement
-
picture-audio displacement
-
pip displacement
-
piston displacement
-
pivot displacement
-
plastic displacement
-
preliminary displacement
-
raster centering displacement
-
reciprocal displacements
-
relative displacement
-
residual displacement
-
rigid displacement
-
rigid-body displacement
-
roll neck displacement
-
scanning-line displacement
-
separation displacement
-
shear displacement
-
starting rolling displacement
-
surface displacement
-
thermal displacement
-
theta displacement
-
time-phase displacement
-
towing displacement
-
translational displacement
-
transverse displacement
-
trial displacement
-
unit displacement
-
unitary displacement
-
variable displacement
-
vertical displacement
-
vibratory displacement
-
virtual displacement
-
volume displacement
-
volumetric displacement
-
weight displacement
-
work-absorbing displacement -
77 NCO
1) Общая лексика: старшина, non-commissioned officer (Военнослужащий, не относящийся к командному составу (т. е. не являющийся т. н. "commissioned officer" или "commanding officer", что одно и то же). К этой категории относятся далеко не т)2) Военный термин: National Cadet Officer, noncombat operations, noncombatant evacuation order, noncommissioned officer, военнослужащий сержантского состава, сержант, СЦО (network centric operation), сетецентрическая операция3) Математика: No Chance On....4) Метеорология: NCEP Central Operations5) военнослужащий некомандного состава6) Сокращение: Network Control Office (ВВС), Non-Commissioned Officer, Numerically-Controlled Oscillator, an isocyanate chemical group (nitrogen, carbon and oxygen atom)7) Физика: Numerical Controlled Oscillator8) Физиология: No complaints offered9) Военно-политический термин: унтер-офицер -
78 Coolidge, William David
[br]b. 23 October 1873 Hudson, Massachusetts, USAd. 3 February 1975 New York, USA[br]American physicist and metallurgist who invented a method of producing ductile tungsten wire for electric lamps.[br]Coolidge obtained his BS from the Massachusetts Institute of Technology (MIT) in 1896, and his PhD (physics) from the University of Leipzig in 1899. He was appointed Assistant Professor of Physics at MIT in 1904, and in 1905 he joined the staff of the General Electric Company's research laboratory at Schenectady. In 1905 Schenectady was trying to make tungsten-filament lamps to counter the competition of the tantalum-filament lamps then being produced by their German rival Siemens. The first tungsten lamps made by Just and Hanaman in Vienna in 1904 had been too fragile for general use. Coolidge and his life-long collaborator, Colin G. Fink, succeeded in 1910 by hot-working directly dense sintered tungsten compacts into wire. This success was the result of a flash of insight by Coolidge, who first perceived that fully recrystallized tungsten wire was always brittle and that only partially work-hardened wire retained a measure of ductility. This grasped, a process was developed which induced ductility into the wire by hot-working at temperatures below those required for full recrystallization, so that an elongated fibrous grain structure was progressively developed. Sintered tungsten ingots were swaged to bar at temperatures around 1,500°C and at the end of the process ductile tungsten filament wire was drawn through diamond dies around 550°C. This process allowed General Electric to dominate the world lamp market. Tungsten lamps consumed only one-third the energy of carbon lamps, and for the first time the cost of electric lighting was reduced to that of gas. Between 1911 and 1914, manufacturing licences for the General Electric patents had been granted for most of the developed work. The validity of the General Electric monopoly was bitterly contested, though in all the litigation that followed, Coolidge's fibering principle was upheld. Commercial arrangements between General Electric and European producers such as Siemens led to the name "Osram" being commonly applied to any lamp with a drawn tungsten filament. In 1910 Coolidge patented the use of thoria as a particular additive that greatly improved the high-temperature strength of tungsten filaments. From this development sprang the technique of "dispersion strengthening", still being widely used in the development of high-temperature alloys in the 1990s. In 1913 Coolidge introduced the first controllable hot-cathode X-ray tube, which had a tungsten target and operated in vacuo rather than in a gaseous atmosphere. With this equipment, medical radiography could for the first time be safely practised on a routine basis. During the First World War, Coolidge developed portable X-ray units for use in field hospitals, and between the First and Second World Wars he introduced between 1 and 2 million X-ray machines for cancer treatment and for industrial radiography. He became Director of the Schenectady laboratory in 1932, and from 1940 until 1944 he was Vice-President and Director of Research. After retirement he was retained as an X-ray consultant, and in this capacity he attended the Bikini atom bomb trials in 1946. Throughout the Second World War he was a member of the National Defence Research Committee.[br]Bibliography1965, "The development of ductile tungsten", Sorby Centennial Symposium on the History of Metallurgy, AIME Metallurgy Society Conference, Vol. 27, ed. Cyril Stanley Smith, Gordon and Breach, pp. 443–9.Further ReadingD.J.Jones and A.Prince, 1985, "Tungsten and high density alloys", Journal of the Historical Metallurgy Society 19(1):72–84.ASDBiographical history of technology > Coolidge, William David
См. также в других словарях:
carbon atom — noun an atom of carbon • Hypernyms: ↑atom … Useful english dictionary
asymmetric carbon atom — noun : a carbon atom in union with four atoms or groups no two of which are alike, compounds containing such a carbon atom being capable of existing in two optically active forms which are distinguished by being respectively levorotatory and… … Useful english dictionary
Unsymmetrical carbon atom — Unsymmetrical Un sym*met ric*al, a. 1. Wanting in symmetry, or due proportion pf parts. [1913 Webster] 2. (Biol.) Not symmetrical; being without symmetry, as the parts of a flower when similar parts are of different size and shape, or when the… … The Collaborative International Dictionary of English
asymmetric carbon atom — a carbon atom with four different substituents. Such a molecule does not have a mirror plane passing through the asymmetric atom, and thus may be optically active … Medical dictionary
3’-carbon atom end — 3’ carbon atom end. См. 3’ конец. (Источник: «Англо русский толковый словарь генетических терминов». Арефьев В.А., Лисовенко Л.А., Москва: Изд во ВНИРО, 1995 г.) … Молекулярная биология и генетика. Толковый словарь.
5’-carbon atom end — 5’ carbon atom end. См. 5’ конец. (Источник: «Англо русский толковый словарь генетических терминов». Арефьев В.А., Лисовенко Л.А., Москва: Изд во ВНИРО, 1995 г.) … Молекулярная биология и генетика. Толковый словарь.
anomeric carbon atom — anomerinis anglies atomas statusas T sritis chemija apibrėžtis Karbonilinis anglies atomas monosacharido ciklinėje formoje. atitikmenys: angl. anomeric carbon atom rus. аномерный атом углерода … Chemijos terminų aiškinamasis žodynas
secondary carbon atom — antrinis anglies atomas statusas T sritis chemija apibrėžtis Atomas, susijungęs su dviem anglies atomais. atitikmenys: angl. secondary carbon atom rus. вторичный атом углерода … Chemijos terminų aiškinamasis žodynas
beta-carbon atom — beta anglies atomas statusas T sritis chemija apibrėžtis Beta padėtyje esantis C atomas. atitikmenys: angl. beta carbon atom rus. бета углеродный атом … Chemijos terminų aiškinamasis žodynas
quaternary carbon atom — ketvirtinis anglies atomas statusas T sritis chemija apibrėžtis Su keturiais C atomais susijungęs anglies atomas. atitikmenys: angl. quaternary carbon atom rus. четвертичный атом углерода … Chemijos terminų aiškinamasis žodynas
primary carbon atom — pirminis anglies atomas statusas T sritis chemija apibrėžtis Tik su vienu anglies atomu susijungęs C atomas. atitikmenys: angl. primary carbon atom rus. первичный атом углерода … Chemijos terminų aiškinamasis žodynas