complex quantities

complex quantities

Строительство: комплексные величины

complex quantities

• комплексна величина

application of complex quantities to alternating-current problems

application of complex quantities to alternating-current problems komplexes Rechnen n mit Wechselstromgrößen

conjugate complex quantities

conjugate complex quantities konjugiert-komplexe Größen fpl

quantity

1) количество

2) (физическая) величина; размер

3) доля, часть

4) параметр

•

quantity to be measured, quantity under measure — измеряемая величина

quantity of electrical energy — количество электрической энергии

quantity of electric charge — электрический заряд

quantity of electricity — количество электричества

quantity of information — количество информации

quantity of light — световая энергия: количество света; количество освещения

quantity of magnetism — количество магнетизма

quantity of motion — количество движения

quantity of radiation — доза излучения; доза облучения

quantity of reflux — расход орошения ( ректификационной колонны)

-
abstract quantity
-
acoustical quantity
-
actuating quantity
-
alternating quantity
-
analog quantity
-
auxiliary quantity
-
base quantity
-
characteristic quantity
-
colorimetric quantity
-
complex quantity
-
controlled quantity
-
cut-and-fill quantity
-
denominate quantity
-
derived quantity
-
digital quantity
-
dimensional quantity
-
dimensionless quantity
-
discrete quantity
-
electrical quantity
-
electromagnetic quantity
-
energizing quantity
-
exponential quantity
-
flow quantity
-
four-dimensional quantities
-
fundamental quantity
-
Gaussian quantities
-
general quantities
-
generalized quantity
-
harmonic quantity
-
imaginary quantity
-
incommensurable quantities
-
influencing quantity
-
input energizing quantity
-
integer quantity
-
integrated quantity
-
irrational quantity
-
magnetic quantity
-
measurable quantity
-
measured quantity
-
mechanical quantities
-
multidimensional quantity
-
nonelectrical quantities
-
oscillating quantity
-
periodic quantity
-
phasor quantity
-
photometric quantities
-
physical quantity
-
primary quantity
-
radiant quantities
-
random quantity
-
reciprocal quantity
-
reference quantity
-
scalar quantity
-
secondary quantity
-
sinusoidal quantity
-
symbolic quantity
-
variable quantity
-
vector quantity

quantity

1) (количественная) величина; значение

2) количество, число

3) численность

•

in production quantities — экон. в промышленных масштабах

quantity under measure — измеряемая величина

upper limit to a quantity — верхний предел величины

to estimate a desired quantity — оценивать искомую величину

- additive quantity

- ancillary quantity

- average quantity

- balanced periodic quantity

- bounded quantity

- bracketed quantity

- chance quantity

- complex sinusoidal quantity

- composite quantity

- congruent quantity

- converted quantity

- correlated quantity

- covariant quantity

- denominate quantity

- design quantity

- desired quantity

- directed quantity

- dynamic quantity

- electric quantity

- entire quantity

- equivalent quantity

- exponential quantity

- final quantity

- finite quantity

- geometric quantity

- given quantity

- incontrolled quantity

- infinite quantity

- infinitesimal quantity

- irreducible quantity

- limit quantity

- local quantity

- mixed quantity

- modification of quantity

- monotone decreasing quantity

- monotone increasing quantity - monotonic decreasing quantity - monotonic increasing quantity

- monotonic quantity

- nonconstructible quantity

- nondimensional quantity

- normalized quantity

- normally distributed quantity

- norming quantity

- numerical quantity

- observable quantity

- observed quantity

- overbarred quantity

- partial mole quantity

- partial quantity

- photometric quantity

- physical quantity

- pivotal quantity

- positive quantity

- primitive quantity

- production quantity

- pseudoperiodic quantity

- pseudoscalar quantity

- quantity of design

- quantity of electricity

- quantity of heat

- quantity of information

- quantity of magnetism

- quantity of selection

- relatively prime quantities

- renewal quantity

- renormalized quantity

- second-order quantity

- small quantity of n-th order

- sought quantity

- specific quantity of metal

- specific quantity

- standardized quantity

- static quantity

- subsidiary quantity

- time-averaged quantity

- time-independent quantity

- transcendental quantity

- uncertain quantity

- unknown quantity

- virtual quantity

- weighted quantity

- zeroth-order quantity

algebra

алгебра

algebra at infinity — алгебра на бесконечности

algebra over a field — алгебра над полем

algebra with unit element — алгебра с единицей

algebra with prime characteristic — алгебра с простой характеристикой

algebra with minimality condition — алгебра с условием минимальности, алгебра с условием обрыва убывающих цепей

algebra with maximality condition — алгебра с условием максимальности, алгебра с условием обрыва возрастающих цепей

algebra with involution — алгебра с инволюцией

algebra with identity — алгебра с единицей

algebra with differentiation — дифференциальная алгебра

algebra with connection — алгебра со связью

algebra without connection — алгебра без связи

algebra without identity — алгебра без единицы

algebra without radical — алгебра без радикала

it can be shown by a little algebra — путем несложных алгебраических преобразований можно показать

space over algebra — пространство над алгеброй

- absolutely segregated algebra

- abstract algebra

- acyclic algebra

- adjacency algebra

- affine algebra

- affinoidal algebra

- algebra of attributes

- algebra of bounded representation type

- algebra of circuits

- algebra of classes

- algebra of constants

- algebra of endomorphisms

- algebra of events

- algebra of finite order

- algebra of finite rank

- algebra of infinite order

- algebra of infinite rank

- algebra of linearly bounded degree

- algebra of logic

- algebra of partitions

- algebra of quantities

- algebra of recursive functions

- algebra of relations

- algebra of residue classes

- algebra of rows

- algebra of sets

- algebra of smooth germs

- algebra of states and events

- algebra of subsets

- algebra of terms

- algebra of uniform index

- algebra of varieties

- algebraic algebra

- alternate exterior algebra

- alternating algebra

- amenable algebra

- analytic algebra

- annihilator algebra

- annulus algebra

- anticommutative algebra

- antisymmetric algebra

- associative algebra

- atomic algebra

- atomic boolean algebra

- atomless algebra

- attainable algebra

- augmented algebra

- auxiliary algebra

- Banach algebra

- barreled algebra

- basis of algebra

- bicylinder algebra

- bidual algebra

- biregular algebra

- block algebra

- bornological algebra

- cardinal algebra

- Cartan algebra

- categorical algebra

- causal algebra

- centerless algebra

- central algebra

- central division algebra

- centralizable algebra

- circuit algebra

- class algebra

- classical algebra

- closed algebra

- closure algebra

- cofibrant algebra

- cohomology algebra

- collapsing algebra

- collinear algebra

- color algebra

- combinatorial algebra

- commutant algebra

- commutator algebra

- commuting algebra

- compact algebra

- compactly embedded algebra

- complete algebra

- complex algebra

- complexified algebra

- compression of algebra

- condition algebra

- conformal algebra

- connected algebra

- conservative algebra

- constraint algebra

- context-free algebra

- contracted algebra

- contraction algebra

- contravariant algebra

- convex algebra

- convolution algebra

- coordinate algebra

- cosimple algebra

- countably additive algebra

- countably generated algebra

- covered algebra

- cubic algebra

- current algebra

- cylindric algebra

- decidable algebra

- degenerate algebra

- derivation algebra

- derived algebra

- dichotomic algebra

- difference algebra

- differentiable algebra

- differential algebra

- disk algebra

- distinguished algebra

- distributive algebra

- division algebra

- elastic algebra

- elementary algebra

- embedded algebra

- endomorphism algebra

- enumerable algebra

- enveloping algebra

- exceptional algebra

- extended algebra

- exterior algebra

- extremal algebra

- field-like algebra

- finite algebra

- finitely defined algebra

- finitely generated algebra

- fixed algebra

- flat algebra

- free Lie algebra

- freely generated algebra

- full algebra

- fully reducible algebra

- function algebra

- functionally complete algebra

- functionally free algebra

- generalized algebra

- generic algebra

- geometrical algebra

- graded algebra

- graph algebra

- group algebra

- groupoid algebra

- hereditarily paracompact algebra

- heterogeneous algebra

- higher algebra

- holonomy algebra

- homeomorphic algebras

- homogeneous algebra

- homological algebra

- homotopical algebra

- hypercomplex algebra

- hyperfinite algebra

- ideal algebra

- idempotent algebra

- image algebra

- implicative algebra

- imprimitivity algebra

- incidence algebra

- incomplete algebra

- indecomposable algebra

- infinite algebra

- infinitely generated algebra

- injective algebra

- integral algebra

- intuitionistic algebra

- inverse algebra

- involutory algebra

- irreducible algebra

- krakowian algebra

- left algebra

- left-alternative algebra

- limit algebra

- linearly compact algebra

- linearly topological algebra

- local algebra

- locally finite algebra

- locally nilpotent algebra

- locally solvable algebra

- loop algebra

- matrix algebra

- maximal algebra

- measure algebra

- monadic algebra

- monoid algebra

- monomial algebra

- monounary algebra

- multilinear algebra

- multiplication algebra

- multiplicatively convex algebra

- multiplier algebra

- nilpotent algebra

- nonassociative algebra

- nonatomic algebra

- noncommutative algebra

- noncommutative polynomial algebra

- noncompact algebra

- nondegenerated algebra

- nonisomorphic algebra

- nonmetric algebra

- normal algebra

- normalizable algebra

- normalized algebra

- null algebra

- numeroid algebra

- operation algebra

- optional algebra

- ordered algebra

- orthogonal algebra

- p-adic algebra

- pair algebra

- partial algebra

- partially ordered algebra

- polyadic algebra

- polydisk algebra

- polylinear algebra

- polynomial algebra

- power-associative algebra

- primitive algebra

- probability algebra

- projective algebra

- propositional algebra

- pseudonormal algebra

- pseudosimple algebra

- quantifier algebra

- quasiassociative algebra

- quasifinite algebra

- quasilocal algebra

- quasiminor algebra

- quaternion algebra

- quotient algebra

- radical algebra

- ramified algebra

- rational algebra

- real algebra

- reduced algebra

- reductive algebra

- regularizable algebra

- relational algebra

- relationship algebra

- representable algebra

- representation algebra

- residue algebra

- restricted algebra

- retractable algebra

- right alternative algebra

- scale algebra

- segmental algebra

- segregated algebra

- self-adjoint algebra

- semifinite algebra

- semigroup algebra

- semilinear algebra

- semiordered algebra

- semisimple algebra

- semisimplicial algebra

- semitensor algebra

- separable algebra

- sigma algebra

- skew-commutative algebra

- solvable algebra

- special algebra

- spinor algebra

- split algebra

- standard algebra

- star algebra

- state algebra

- stiff algebra

- stochastic algebra

- strict algebra

- subdirectly irreducible algebra

- subdirectly reducible algebra

- subtractive algebra

- sufficient algebra

- superatomic algebra

- supplemented algebra

- switching algebra

- symbolic algebra

- symplectic algebra

- syncopated algebra

- tangent algebra

- ternary algebra

- three-dimensional algebra

- topological algebra

- topologically symmetrical algebra

- transition algebra

- tree algebra

- triply generated algebra

- twisted polynomial algebra

- two-dimensional algebra

- two-element algebra

- two-valued algebra

- uncountable algebra

- ungraded algebra

- uniform algebra

- uniformly closed algebra

- unimodular algebra

- uniserial algebra

- unitary algebra

- universal algebra

- unramified algebra

- variable algebra

- vector algebra

- vector-matrix algebra

- weakly distributive algebra

- weakly hereditary algebra

- word algebra

Numbers

Cardinal numbers in French

0 zéro*

1 un†

2 deux

3 trois

4 quatre

5 cinq

6 six

7 sept

8 huit

9 neuf

10 dix

11 onze

12 douze

13 treize

14 quatorze

15 quinze

16 seize

17 dix-sept

18 dix-huit

19 dix-neuf

20 vingt

21 vingt et un

22 vingt-deux

30 trente

31 trente et un

32 trente-deux

40 quarante

50 cinquante

60 soixante

70 soixante-dix

septante (in Belgium, Canada, Switzerland etc.)

71 soixante et onze

septante et un ( etc)

72 soixante-douze

73 soixante-treize

74 soixante-quatorze

75 soixante-quinze

76 soixante-seize

77 soixante-dix-sept

78 soixante-dix-nuit

79 soixante-dix-neuf

80 quatre-vingts‡

81 quatre-vingt-un§

82 quatre-vingt-deux

90 quatre-vingt-dix ; nonante (in Belgium, Canada, Switzerland, etc)

91 quatre-vingt-onze ; nonante et un

92 quatre-vingt-douze ; nonante-deux ( etc.)

99 quatre-vingt-dix-neuf

100 cent

101 cent un†

102 cent deux

110 cent dix

111 cent onze

112 cent douze

187 cent quatre-vingt-sept

200 deux cents

250 deux cent|| cinquante

300 trois cents

1000 || mille

1001 mille un†

1002 mille deux

1020 mille vingt

1200 mille** deux cents

2000 deux mille††

10000 dix mille

10200 dix mille deux cents

100000 cent mille

102000 cent deux mille

1000000 un million‡‡

1264932 un million deux cent soixante-quatre mille neuf cent trente-deux

1000000000 un milliard‡‡

1000000000000 un billion‡‡

* In English 0 may be called nought, zero or even nothing ; French is always zéro ; a nought = un zéro.

† Note that one is une in French when it agrees with a feminine noun, so un crayon but une table, une des tables, vingt et une tables, combien de tables? - il y en a une seule etc.

‡ Also huitante in Switzerland. Note that when 80 is used as a page number it has no s, e.g. page eighty = page quatre-vingt.

§ Note that vingt has no s when it is in the middle of a number. The only exception to this rule is when quatre-vingts is followed by millions, milliards or billions, e.g. quatre-vingts millions, quatre-vingts billions etc.

Note that cent does not take an s when it is in the middle of a number. The only exception to this rule is when it is followed by millions, milliards or billions, e.g. trois cents millions, six cents billions etc. It has a normal plural when it modifies other nouns, e.g. 200 inhabitants = deux cents habitants.

|| Note that figures in French are set out differently ; where English would have a comma, French has simply a space. It is also possible in French to use a full stop (period) here, e.g. 1.000. French, like English, writes dates without any separation between thousands and hundreds, e.g. in 1995 = en 1995.

** When such a figure refers to a date, the spelling mil is preferred to mille, i.e. en 1200 = en mil deux cents. Note however the exceptions: when the year is a round number of thousands, the spelling is always mille, so en l’an mille, en l’an deux mille etc.

†† Mille is invariable ; it never takes an s.

‡‡ Note that the French words million, milliard and billion are nouns, and when written out in full they take de before another noun, e.g. a million inhabitants is un million d’habitants, a billion francs is un billion de francs. However, when written in figures, 1,000,000 inhabitants is 1000000 habitants, but is still spoken as un million d’habitants. When million etc. is part of a complex number, de is not used before the nouns, e.g. 6,000,210 people = six millions deux cent dix personnes.

Use of en

Note the use of en in the following examples:

there are six

= il y en a six

I’ve got a hundred

= j’en ai cent

En must be used when the thing you are talking about is not expressed (the French says literally there of them are six, I of them have a hundred etc.). However, en is not needed when the object is specified:

there are six apples

= il y a six pommes

Approximate numbers

When you want to say about…, remember the French ending -aine:

about ten

= une dizaine

about ten books

= une dizaine de livres

about fifteen

= une quinzaine

about fifteen people

= une quinzaine de personnes

about twenty

= une vingtaine

about twenty hours

= une vingtaine d’heures

Similarly une trentaine, une quarantaine, une cinquantaine, une soixantaine and une centaine ( and une douzaine means a dozen). For other numbers, use environ (about):

about thirty-five

= environ trente-cinq

about thirty-five francs

= environ trente-cinq francs

about four thousand

= environ quatre mille

about four thousand pages

= environ quatre mille pages

Environ can be used with any number: environ dix, environ quinze etc. are as good as une dizaine, une quinzaine etc.

Note the use of centaines and milliers to express approximate quantities:

hundreds of books

= des centaines de livres

I’ve got hundreds

= j’en ai des centaines

hundreds and hundreds of fish

= des centaines et des centaines de poissons

I’ve got thousands

= j’en ai des milliers

thousands of books

= des milliers de livres

thousands and thousands

= des milliers et des milliers

millions and millions

= des millions et des millions

Phrases

numbers up to ten

= les nombres jusqu’à dix

to count up to ten

= compter jusqu’à dix

almost ten

= presque dix

less than ten

= moins de dix

more than ten

= plus de dix

all ten of them

= tous les dix

all ten boys

= les dix garçons

Note the French word order:

my last ten pounds

= mes dix dernières livres

the next twelve weeks

= les douze prochaines semaines

the other two

= les deux autres

the last four

= les quatre derniers

Calculations in French

Decimals in French

Note that French uses a comma where English has a decimal point.

say

0,25 zéro virgule vingt-cinq

0,05 zéro virgule zéro cinq

0,75 zéro virgule soixante-quinze

3,45 trois virgule quarante-cinq

8,195 huit virgule cent quatre-vingt-quinze

9,1567 neuf virgule quinze cent soixante-sept

or neuf virgule mille cinq cent soixante-sept

9,3456 neuf virgule trois mille quatre cent cinquante-six

Percentages in French

say

25% vingt-cinq pour cent

50% cinquante pour cent

100% cent pour cent

200% deux cents pour cent

365% troix cent soixante-cinq pour cent

4,25% quatre virgule vingt-cinq pour cent

Fractions in French

Ordinal numbers in French§

1st 1er‡ premier ( feminine première)

2nd 2e second or deuxième

3rd 3e troisième

4th 4e quatrième

5th 5e cinquième

6th 6e sixième

7th 7e septième

8th 8e huitième

9th 9e neuvième

10th 10e dixième

11th 11e onzième

12th 12e douzième

13th 13e treizième

14th 14e quatorzième

15th 15e quinzième

16th 16e seizième

17th 17e dix-septième

18th 18e dix-huitième

19th 19e dix-neuvième

20th 20e vingtième

21st 21e vingt et unième

22nd 22e vingt-deuxième

23rd 23e vingt-troisième

24th 24e vingt-quatrième

25th 25e vingt-cinquième

30th 30e trentième

31st 31e trente et unième

40th 40e quarantième

50th 50e cinquantième

60th 60e soixantième

70th 70e soixante-dixième or septantième (in Belgium, Canada, Switzerland etc.)

71st 71e soixante et onzième or septante et unième (etc.)

72nd 72e soixante-douzième

73rd 73e soixante-treizième

74th 74e soixante-quatorzième

75th 75e soixante-quinzième

76th 76e soixante-seizième

77th 77e soixante-dix-septième

78th 78e soixante-dix-huitième

79th 79e soixante-dix-neuvième

80th 80e quatre-vingtième¶

81st 81e quatre-vingt-unième

90th 90e quatre-vingt-dixième or nonantième (in Belgium, Canada, Switzerland etc.)

91st 91e quatre-vingt-onzième, or nonante et unième (etc.)

99th 99e quatre-vingt-dix-neuvième

100th 100e centième

101st 101e cent et unième

102nd 102e cent-deuxième

196th 196e cent quatre-vingt-seizième

200th 200e deux centième

300th 300e trois centième

400th 400e quatre centième

1,000th 1000e millième

2,000th 2000e deux millième

1,000,000th 1000000e millionième

Like English, French makes nouns by adding the definite article:

the first

= le premier (or la première, or les premiers mpl or les premières fpl)

the second

= le second (or la seconde etc.)

the first three

= les trois premiers or les trois premières

Note the French word order in:

the third richest country in the world

= le troisième pays le plus riche du monde

* Note that half, when not a fraction, is translated by the noun moitié or the adjective demi ; see the dictionary entry.

† Note the use of les and d’entre when these fractions are used about a group of people or things: two-thirds of them = les deux tiers d’entre eux.

‡ This is the masculine form ; the feminine is 1re and the plural 1ers (m) or 1res (f).

§ All the ordinal numbers in French behave like ordinary adjectives and take normal plural endings where appropriate.

¶ Also huitantième in Switzerland.

industrial

industrial [ɪn'dʌstrɪəl]

1 adjective

(gen) industriel; (unrest) social;

∎ an industrial city une ville industrielle;

∎ in industrial quantities en quantités fpl industrielles;

∎ for industrial use only usage m industriel uniquement

2 industrials plural noun

Stock Exchange valeurs fpl industrielles

►► industrial accident accident m du travail;

industrial accident insurance assurance f contre les accidents du travail;

British industrial action (UNCOUNT) grève f, grèves fpl;

∎ they threatened (to take) industrial action ils ont menacé de faire grève;

industrial archaeology archéologie f industrielle;

American School industrial art = cours technique où l'on apprend le maniement des machines propres à une industrie particulière;

Finance industrial bank banque f industrielle;

industrial centre centre m industriel;

industrial complex complexe m industriel;

industrial design dessin m industriel;

industrial diamond diamant m industriel ou de nature;

industrial disease maladie f professionnelle ou du travail;

British industrial dispute conflit m social;

industrial espionage espionnage m industriel;

British industrial estate zone f industrielle;

industrial injury accident m du travail;

industrial injuries benefit indemnité f pour accidents du travail;

industrial marketer mercaticien(enne) m,f industriel;

industrial marketing marketing m industriel;

Medicine industrial medicine médecine f du travail;

Finance industrial monopoly trust m industriel;

American industrial park zone f industrielle;

industrial relations relations fpl entre le patronat et les travailleurs;

∎ industrial relations have deteriorated le climat social s'est dégradé;

History the Industrial Revolution la révolution industrielle;

American industrial school école f technique;

Stock Exchange industrial shares valeurs mpl industrielles;

British & Australian Law industrial tribunal ≃ conseil m de prud'hommes;

industrial unit atelier m;

industrial workers travailleurs mpl de l'industrie;

Industry Industrial Workers of the World = syndicat révolutionnaire américain actif au début du XXème siècle

ⓘ THE INDUSTRIAL REVOLUTION La révolution industrielle commença en Grande-Bretagne dès le XVIIIème siècle. Elle apporta de profonds changements dans la société britannique en bouleversant ses structures et son fonctionnement traditionnel. Si la richesse nationale augmenta rapidement, transformant la Grande-Bretagne en phare économique mondial, elle fut synonyme de misère pour la classe ouvrière jusqu'au XIXème siècle.

simulation

Gen Mgt

the construction of a mathematical model to imitate the behavior of a real-world situation or system in order to test the outcomes of alternative courses of action. Simulation was used in a military context by the Chinese as many as 5,000 years ago and has applications in the fields of science, research and development, economics, and business systems. The use of simulation has become more widespread since the development of computers in the 1950s, which facilitated the manipulation of large quantities of data and made it possible to model more complex systems. Simulation techniques are used in situations where reallife experimentation would be impossible, costly, or dangerous, and for training purposes.

Armstrong, Sir William George, Baron Armstrong of Cragside

SUBJECT AREA: Ports and shipping, Public utilities, Weapons and armour

[br]

b. 26 November 1810 Shieldfield, Newcastle upon Tyne, England

d. 27 December 1900 Cragside, Northumbria, England

[br]

English inventor, engineer and entrepreneur in hydraulic engineering, shipbuilding and the production of artillery.

[br]

The only son of a corn merchant, Alderman William Armstrong, he was educated at private schools in Newcastle and at Bishop Auckland Grammar School. He then became an articled clerk in the office of Armorer Donkin, a solicitor and a friend of his father. During a fishing trip he saw a water-wheel driven by an open stream to work a marble-cutting machine. He felt that its efficiency would be improved by introducing the water to the wheel in a pipe. He developed an interest in hydraulics and in electricity, and became a popular lecturer on these subjects. From 1838 he became friendly with Henry Watson of the High Bridge Works, Newcastle, and for six years he visited the Works almost daily, studying turret clocks, telescopes, papermaking machinery, surveying instruments and other equipment being produced. There he had built his first hydraulic machine, which generated 5 hp when run off the Newcastle town water-mains. He then designed and made a working model of a hydraulic crane, but it created little interest. In 1845, after he had served this rather unconventional apprenticeship at High Bridge Works, he was appointed Secretary of the newly formed Whittle Dene Water Company. The same year he proposed to the town council of Newcastle the conversion of one of the quayside cranes to his hydraulic operation which, if successful, should also be applied to a further four cranes. This was done by the Newcastle Cranage Company at High Bridge Works. In 1847 he gave up law and formed W.G.Armstrong \& Co. to manufacture hydraulic machinery in a works at Elswick. Orders for cranes, hoists, dock gates and bridges were obtained from mines; docks and railways.

Early in the Crimean War, the War Office asked him to design and make submarine mines to blow up ships that were sunk by the Russians to block the entrance to Sevastopol harbour. The mines were never used, but this set him thinking about military affairs and brought him many useful contacts at the War Office. Learning that two eighteen-pounder British guns had silenced a whole Russian battery but were too heavy to move over rough ground, he carried out a thorough investigation and proposed light field guns with rifled barrels to fire elongated lead projectiles rather than cast-iron balls. He delivered his first gun in 1855; it was built of a steel core and wound-iron wire jacket. The barrel was multi-grooved and the gun weighed a quarter of a ton and could fire a 3 lb (1.4 kg) projectile. This was considered too light and was sent back to the factory to be rebored to take a 5 lb (2.3 kg) shot. The gun was a complete success and Armstrong was then asked to design and produce an equally successful eighteen-pounder. In 1859 he was appointed Engineer of Rifled Ordnance and was knighted. However, there was considerable opposition from the notably conservative officers of the Army who resented the intrusion of this civilian engineer in their affairs. In 1862, contracts with the Elswick Ordnance Company were terminated, and the Government rejected breech-loading and went back to muzzle-loading. Armstrong resigned and concentrated on foreign sales, which were successful worldwide.

The search for a suitable proving ground for a 12-ton gun led to an interest in shipbuilding at Elswick from 1868. This necessitated the replacement of an earlier stone bridge with the hydraulically operated Tyne Swing Bridge, which weighed some 1450 tons and allowed a clear passage for shipping. Hydraulic equipment on warships became more complex and increasing quantities of it were made at the Elswick works, which also flourished with the reintroduction of the breech-loader in 1878. In 1884 an open-hearth acid steelworks was added to the Elswick facilities. In 1897 the firm merged with Sir Joseph Whitworth \& Co. to become Sir W.G.Armstrong Whitworth \& Co. After Armstrong's death a further merger with Vickers Ltd formed Vickers Armstrong Ltd.

In 1879 Armstrong took a great interest in Joseph Swan's invention of the incandescent electric light-bulb. He was one of those who formed the Swan Electric Light Company, opening a factory at South Benwell to make the bulbs. At Cragside, his mansion at Roth bury, he installed a water turbine and generator, making it one of the first houses in England to be lit by electricity.

Armstrong was a noted philanthropist, building houses for his workforce, and endowing schools, hospitals and parks. His last act of charity was to purchase Bamburgh Castle, Northumbria, in 1894, intending to turn it into a hospital or a convalescent home, but he did not live long enough to complete the work.

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Principal Honours and Distinctions

Knighted 1859. FRS 1846. President, Institution of Mechanical Engineers; Institution of Civil Engineers; British Association for the Advancement of Science 1863. Baron Armstrong of Cragside 1887.

Further Reading

E.R.Jones, 1886, Heroes of Industry', London: Low.

D.J.Scott, 1962, A History of Vickers, London: Weidenfeld \& Nicolson.

IMcN

emission forecast

1. прогноз выбросов

 

прогноз выбросов
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

EN

emission forecast
The final step in a clean air plan is to predict future air quality to demonstrate that we can (if we can) meet the health standards by implementing the measures proposed in the plan. This is done by first projecting the emission inventory into the future, taking into account changes in population, housing, employment in specific business sectors, and vehicle miles traveled. These data are obtained from various sources and the resulting emissions are adjusted to account for regulations and control measures scheduled for implementation during the same time period. Additional adjustments are made to reflect large facilities that are expected to start up, modify, or shut down. The resulting inventory is an emission forecast, and is usually expressed in tons per day of particular pollutants for a given year. Additional steps may be required to determine how the forecasted quantities of air pollution will affect the overall air quality. One way to accomplish this is through computer modeling. A computer model simulates how pollutants disperse, react, and move in the air. The inputs to such a computer model are complex. They include weather patterns, terrain, and the chemical nature of air pollutants. (Source: APCD)
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Тематики

• охрана окружающей среды

EN

• emission forecast

DE

• Emissionsprognose

FR

• prévision d'émission