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1 относительно элементарный
relatively atomic мат.Русско-английский научно-технический словарь Масловского > относительно элементарный
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2 относительно элементарный
Mathematics: relatively atomicУниверсальный русско-английский словарь > относительно элементарный
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3 atómico
adj.atomic.* * *► adjetivo1 atomic* * *(f. - atómica)adj.* * *ADJ atomic* * *- ca adjetivo atomic* * *= atomic.Ex. Information will be stored in its atomic form, making programming relatively easy.----* espectrometría atómica = atomic spectrometry.* peso atómico = atomic weight.* refugio atómico = fallout shelter.* * *- ca adjetivo atomic* * *= atomic.Ex: Information will be stored in its atomic form, making programming relatively easy.
* espectrometría atómica = atomic spectrometry.* peso atómico = atomic weight.* refugio atómico = fallout shelter.* * *atómico -caatomic* * *
atómico◊ -ca adjetivo
atomic
atómico,-a adjetivo atomic
' atómico' also found in these entries:
Spanish:
atómica
- FORATOM
- hongo
English:
atomic
* * *atómico, -a adj[energía, armas] atomic, nuclear; [central] nuclear;núcleo atómico (atomic) nucleus* * *adj atomic* * *atómico, -ca adj: atomic* * *atómico adj atomic -
4 Fermi, Enrico
[br]b. 29 September 1901 Rome, Italyd. 28 November 1954 Chicago, USA[br]Italian nuclear physicist.[br]Fermi was one of the most versatile of twentieth-century physicists, one of the few to excel in both theory and experiment. His greatest theoretical achievements lay in the field of statistics and his theory of beta decay. His statistics, parallel to but independent of Dirac, were the key to the modern theory of metals and the statistical modds of the atomic nucleus. On the experimental side, his most notable discoveries were artificial radioactivity produced by neutron bombardment and the realization of a controlled nuclear chain reaction, in the world's first nuclear reactor.Fermi received a conventional education with a chemical bias, but reached proficiency in mathematics and physics largely through his own reading. He studied at Pisa University, where he taught himself modern physics and then travelled to extend his knowledge, spending time with Max Born at Göttingen. On his return to Italy, he secured posts in Florence and, in 1927, in Rome, where he obtained the first Italian Chair in Theoretical Physics, a subject in which Italy had so far lagged behind. He helped to bring about a rebirth of physics in Italy and devoted himself to the application of statistics to his model of the atom. For this work, Fermi was awarded the Nobel Prize in Physics in 1938, but in December of that year, finding the Fascist regime uncongenial, he transferred to the USA and Columbia University. The news that nuclear fission had been achieved broke shortly before the Second World War erupted and it stimulated Fermi to consider this a way of generating secondary nuclear emission and the initiation of chain reactions. His experiments in this direction led first to the discovery of slow neutrons.Fermi's work assumed a more practical aspect when he was invited to join the Manhattan Project for the construction of the first atomic bomb. His small-scale work at Columbia became large-scale at Chicago University. This culminated on 2 December 1942 when the first controlled nuclear reaction took place at Stagg Field, Chicago, an historic event indeed. Later, Fermi spent most of the period from September 1944 to early 1945 at Los Alamos, New Mexico, taking part in the preparations for the first test explosion of the atomic bomb on 16 July 1945. President Truman invited Fermi to serve on his Committee to advise him on the use of the bomb. Then Chicago University established an Institute for Nuclear Studies and offered Fermi a professorship, which he took up early in 1946, spending the rest of his relatively short life there.[br]Principal Honours and DistinctionsNobel Prize for Physics 1938.Bibliography1962–5, Collected Papers, ed. E.Segrè et al., 2 vols, Chicago (includes a biographical introduction and bibliography).Further ReadingL.Fermi, 1954, Atoms in the Family, Chicago (a personal account by his wife).E.Segrè, 1970, Enrico Fermi, Physicist, Chicago (deals with the more scientific aspects of his life).LRD -
5 обычно
••Liquid diffraction patterns characteristically show one or two maxima that correspond to...
•The great majority of routinely detected events can be classified as earthquakes.
•The receptacle is conventionally 2-wire, 120-volt, 15-ampere.
•That is how the logarithms are conventionally tabulated.
•This inert phase is normally a gel structure.
•Engineering practice is to express quantities in lb/h.
•Group I members tend to have relatively few nucleosides of this sort.
•Such lasers typically generate pulses of 5—10 ns duration.
•Traditionally, the residual bottoms have been blended with lighter stocks.
•It is usual to check the... level whenever there is any doubt.
•In this application it is common (or usual) to employ...
•It is common for metabolic pathways to exhibit some form of cyclic pattern.
•The atomic weight is commonly called the mass number.
•The head gain is customarily measured in inches of water.
•It is customary to install a pump having two or three stages.
•The factor is generally taken to be equal to unity.
•A field lens is generally placed behind the reticle.
•Floating roof tanks are normally employed for prevention of loss through evaporation.
•The temperature at this point is ordinarily the same as that of the forward cylinder section.
•Where it is suspected that... it is the practice (or custom) to steam out the coils.
•In large marine installations it is standard (or usual) practice to use...
•The sensitivity for detection is typically (or usually, or generally, or commonly, or as a rule) five times as great as...
•In designing such packed columns, it is common (or general) practice to assume "piston", or "plug" flow.
•The regions of strongest divergence tend to be found over the subtropical regions.
•Many plant breeders make a practice of having different batches of seed treated with gamma rays, neutrons and one chemical mutagen.
•The usual way to stop the intrusion has been to drill... (геол.).
II•In this way dye molecules can enter more freely otherwise inaccessible dye-sites.
Русско-английский научно-технический словарь переводчика > обычно
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6 в то время как
1) General subject: as (he came in as I was speaking - он вошёл, когда я говорил), in (причастия в сочетании с in в данном значении передаются деепричастием), just as, when, whereas, while (while in London he studied music - когда он был в Лондоне, он занимался музыкой)2) Obsolete: whiles3) Mathematics: while (Finding a zero of a vector field is relatively easy, while solving for a periodic orbit directly is usually very difficult.)4) Atomic energy: while as5) Makarov: whilst -
7 число
count, figure, number, numeral* * *число́ с.1. (совокупность предметов и т. п.) count, number2. ( математическое представление исчислимого количества) numberвводи́ть число́ (в счё́тную маши́ну) — key [enter] a number into (a calculator)изобража́ть число́ — represent a numberобознача́ть число́ — express a numberчисло́ о́бщее — total of …округли́ть число́ — round off a numberпредставля́ть число́ в дополни́тельном ко́де вчт. — cast a number in true complement formпредставля́ть число́ в обра́тном ко́де вчт. — cast a number in base [radix] minus ones complement formпредставля́ть число́ в прямо́м ко́де вчт. — cast a number in sign-and-magnitude [in sign-and-absolute value] formпредставля́ть двои́чное число́ в дополни́тельном ко́де вчт. — cast a binary number in 2's complement formпредставля́ть двои́чное число́ в обра́тном ко́де вчт. — cast a binary number in 1's complement formпредставля́ть десяти́чное число́ в дополни́тельном ко́де вчт. — cast a decimal number in 10's complement formпредставля́ть десяти́чное число́ в обра́тном ко́де вчт. — cast a decimal number in 9's complement formсбра́сывать чи́сла (на счё́тной маши́не) — clear the calculatorсоставля́ть ( такое-то) [m2]число́ — be in (such and such number)число́ кана́лов (составля́ет) четы́ре — the channels are four in numberусека́ть число́ — truncate a number4. ( количество) quantityпроверя́ть число́, напр. болто́в — check, e. g., the bolts for correct countчисло́ А́ббе — Abbe numberчисло́ Авога́дро — Avogadro numberарифмети́ческое число́ — arithmetic number, absolute numberа́томное число́ — atomic numberацето́новое число́ — acetone numberчисло́ без зна́ка вчт. — unsigned numberбезразме́рное число́ — dimensionless [nondimensional, pure] numberчисло́ Берну́лли — Bernoulli numberчисло́ Ве́бера — Weber numberвеще́ственное число́ — real numberвзаи́мно-просты́е чи́сла — coprime numbers, relatively prime numbersводоро́дное число́ — hydrogen numberводяно́е число́ ( калориметра) — water equivalentволново́е число́ — wave numberгидрокси́льное число́ — hydroxyl numberчисло́ Грасго́фа — Grashoff numberчисло́ Гре́ца — Graetz numberдвои́чно-десяти́чное число́ — binary coded decimal [BCD] numberдвои́чное число́ — binary numberдвои́чно-пятери́чное число́ — biquinary numberчисло́ двойны́х ходо́в в мину́ту — strokes per minute, s.p.m.десяти́чное число́ — decimal (number)десяти́чное, двои́чно-коди́рованное число́ — binary coded decimal [BCD] numberдокрити́ческое число́ мех. — subcritical numberдро́бное число́ — fraction, fractional [broken] numberзакрити́ческое число́ мех. — beyond-critical [supercritical] number
n-зна́чное число́ — n -digit numberзолото́е число́ — the golden numberизотопи́ческое число́ — isotopic numberимено́ванное число́ — denominate(d) numberиррациона́льное число́ — irrational (number), surd (number)ио́дное число́ — iodine number, iodine valueчисло́ кавита́ции — cavitation numberкардина́льное число́ — cardinality, cardinal numberчисло́ Карма́на — Karman numberква́нтовое число́ — quantum numberква́нтовое, азимута́льное число́ — azimuthal quantum numberква́нтовое, вну́треннее число́ — inner quantum numberква́нтовое, гла́вное число́ — first [principal] quantum numberква́нтовое, магни́тное число́ — magnetic quantum numberква́нтовое, спи́новое число́ — spin quantum numberкислоро́дное число́ — oxygen numberкисло́тное число́ — acid numberко́мплексное число́ — complex numberкоординацио́нное число́ — coordination numberкра́тное число́ — multipleкру́глое число́ — round numberчисло́ Ло́кка — Lock numberчисло́ Лошми́дта — Loschmidt numberчисло́ Лью́иса — Lewis numberчисло́ М — Mach (number), M numberс число́м М — triplesonicма́ссовое число́ яд. физ. — mass [nucleon] numberчисло́ Ма́ха — Mach (number), M numberчисло́ Ма́ха, гиперзвуково́е — hypersonic M numberчисло́ Ма́ха, дозвуково́е — subsonic M numberчисло́ Ма́ха, околозвуково́е — transonic M numberчисло́ Ма́ха, сверхзвуково́е — supersonic [over-one] M numberчисло́ мест (в транспортном средстве, зрительном зале и т. п.) — seating capacityмни́мое число́ — imaginary (number)многозна́чное число́ — multidigit [multiplace] numberнатура́льное число́ — natural numberчисло́ нейтрализа́ции — neutralization numberчисло́ нейтро́нов ( в ядре) — neutron numberненормализо́ванное число́ — nonnormalized numberнеотрица́тельное число́ — nonnegative numberнечё́тное число́ — odd numberнормализо́ванное число́ — standard [normalized] number, a number in normal formчисло́ Ну́ссельта — Nusselt numberчисло́ оборо́тов — rotational speedчисло́ оборо́тов в мину́ту — revolutions per minute, r.p.m.число́ оборо́тов дви́гателя — engine speedчисло́ оборо́тов дви́гателя на холосто́м ходу́ — idling speedчисло́ оборо́тов, уде́льное — specific speedчисло́ обраще́ний, допусти́мое ( в электростатических запоминающих трубках) — selection ratioчисло́ обраще́нии ме́жду регенера́циями ( в электростатическом запоминающем устройстве) — read-around number, read-around ratioчисло́ окисле́ния — oxidation numberокта́новое число́ — octane number, octane value, octane ratingчисло́ омыле́ния — saponification number, saponification valueордина́льное число́ — ordinal (number)отвлечё́нное число́ — dimensionless [nondimensional, pure] numberотноси́тельные чи́сла — directed [signed, algebraic] numbersотрица́тельное число́ — negative numberчисло́ Пекле́ — Peclet numberпереводно́е число́ ( в физической химии) — transference numberпереда́точное число́1. мех. gear ratioпереда́точное число́ ме́жду зубча́тыми колё́сами А и Б равно́ 60: [m2]1 — gears A and B are geared by 60 to 1переда́точное число́ от А к Б составля́ет 1:n ( в сервомеханизмах) — A is geared 1: n to B2. эл. gainпереда́точное число́ два к одному́ — two-to-one ratio, two-to-one gearчисло́ переда́ч — number of gearsпе́рекисное число́ — peroxide numberчисло́ перено́са1. ( в физической химии) transport number2. мат. carry quantityпермангана́тное число́ ( целлюлозы) — permanganate numberпифаго́ровы чи́сла — Pythagorean numbers, Pythagorean triplesподкоренно́е число́ — radicandпоря́дковое число́ — ordinal; ordinal [serial] numberчисло́ Пра́ндтля — Prandtl numberчисло́ проду́ба кож. — tanning numberпросто́е число́ — prime numberравнооста́точные чи́сла — congruent numbersчисло́ разря́дов в реги́стре — register lengthрациона́льное число́ — rational (number)число́ Рейно́льдса — Reynolds numberчисло́ Рейно́льдса, крити́ческое — transition Reynolds numberчисло́ Ре́йхерта—Ме́йссля — Reichert-Meissl numberрода́новое число́ — thiocyanogen number, thiocyanogen valueслуча́йные чи́сла — random numbersвыраба́тывать случа́йные чи́сла вчт. — generate random numbersсоставно́е число́ — composite numberспиртово́е число́ — alcohol numberчисло́ с пла́вающей запято́й — floating-point numberчисло́ Строуха́ла — Strouhal numberчисло́ Стэ́нтона — Stanton numberчисло́ с фикси́рованной запято́й — fixed-point numberчисло́ твё́рдости — hardness numberчисло́ твё́рдости по Брине́ллю — Brinell (hardness) numberчисло́ твё́рдости по Ви́ккерсу — Vickers (hardness) numberчисло́ твё́рдости по Моо́су — Moos (hardness) numberчисло́ твё́рдости по Ро́квеллу — Rockwell (hardness) numberчисло́ теорети́ческих таре́лок — theoretical plate numberчисло́ Фараде́я — Faraday constant, faradayфигу́рные чи́сла — figurate numbersфле́гмовое число́ хим. — reflux ratioчисло́ Фру́да — Froude numberце́лое число́ — integer, integral [whole] numberце́лое, ко́мплексное число́ — complex [Gaussian] integerцета́новое число́ — cetane numberчё́тное число́ — even numberчи́сто мни́мое число́ — pure imaginary (number)число́ Ше́рвуда — Sherwood numberчисло́ Шми́дта — Schmidt numberчисло́ Э́йлера — Euler numberэфи́рное число́ — ester number, ester value
См. также в других словарях:
Atomic hydrogen welding — (AHW) is an arc welding process that uses an arc between two metal tungsten electrodes in a shielding atmosphere of hydrogen. The process was invented by Irving Langmuir in the course of his studies of atomic hydrogen. The electric arc… … Wikipedia
Atomic demolition munitions — (ADMs), colloquially known as nuclear land mines, are small nuclear explosive devices. ADMs were developed for both military and civilian purposes. As weapons, they were designed to be exploded in the forward battle area, in order to block or… … Wikipedia
Atomic diffusion — is a process whereby the random thermally activated hopping of atoms in a solid results in the net transport of atoms. For example, helium atoms inside a balloon can diffuse through the wall of the balloon and escape, resulting in the balloon… … Wikipedia
Atomic force microscope — The atomic force microscope (AFM) or scanning force microscope (SFM) is a very high resolution type of scanning probe microscope, with demonstrated resolution of fractions of a nanometer, more than 1000 times better than the optical diffraction… … Wikipedia
Atomic orbital — The shapes of the first five atomic orbitals: 1s, 2s, 2px, 2py, and 2pz. The colors show the wave function phase. These are graphs of ψ(x,y,z) functions which depend on the coordinates of one electron. To see the elongated shape of ψ(x,y,z)2… … Wikipedia
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Atomic line filter — A potassium Faraday filter designed, built and photographed by Jonas Hedin for making daytime LIDAR measurements at Arecibo Observatory.[1] An atomic line filter (ALF) is an advanced optical band pass filter used in the physical sciences for… … Wikipedia
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Atomic tourism — Tourists at ground zero, Trinity site. Atomic tourism is a relatively new style of tourism in which visitors learn about the Atomic Age by traveling to significant sites in atomic history such as museums with atomic weapons, vehicles that carried … Wikipedia
Atomic heat — Heat Heat (h[=e]t), n. [OE. hete, h[ae]te, AS. h[=ae]tu, h[=ae]to, fr. h[=a]t hot; akin to OHG. heizi heat, Dan. hede, Sw. hetta. See {Hot}.] 1. A force in nature which is recognized in various effects, but especially in the phenomena of fusion… … The Collaborative International Dictionary of English