scientific applications

Scientific Applications Satellite

Astronautics: SAC-B (Argentina)

יישומים מדעיים

scientific applications

научные приложения

scientific applications вчт.

научные приложения

scientific applications вчт.

спутник для проведения научно-прикладных исследований

Astronautics: Scientific Applications Satellite (Argentina) (SAC-B)

algol

n. ALGOL, algorithmic language, algebraic computer programming language used in mathematical and scientific applications

система для научных исследований

scientific application

научное исследование — scientific research

прикладное исследование — application study

исследования нервной системы — neuro applications

кардиологические исследования — cardiac applications

прибор для научных исследований — scientific instrument

прикладное исследование

applications

исследования нервной системы — neuro applications

кардиологические исследования — cardiac applications

система для научных исследований — scientific application

contextos

(n.) = sphere of activity, sphere of life

Ex. Military applications of information technology often pave the way for its introduction into other spheres of activity.

Ex. As a result of scientific-technical development, culture is influencing all spheres of life.

* * *

(n.) = sphere of activity, sphere of life

Ex: Military applications of information technology often pave the way for its introduction into other spheres of activity.

Ex: As a result of scientific-technical development, culture is influencing all spheres of life.

dudoso

adj.

1 doubtful, insecure, in doubt, hesitant.

2 doubtful, uncertain, unlikely, improbable.

3 dubious, arguable, doubtable, doubtful.

4 of dubious origin, fishy, louche.

* * *

dudoso

► adjetivo

1 (incierto) doubtful, uncertain

2 (vacilante) hesitant, undecided

3 (sospechoso) suspicious, dubious

4 (poco seguro) questionable

* * *

(f. - dudosa)

adj.

1) doubtful

2) dubious

3) questionable

* * *

dudoso, -a

1. ADJ

1) (=incierto) [diagnóstico, futuro] doubtful, uncertain; [resultado] indecisive

de origen dudoso — of doubtful o uncertain origin

aún es dudosa su colaboración — it's still uncertain whether he will collaborate, his collaboration is still uncertain

2) (=vacilante) [persona] hesitant

estar dudoso — to be undecided, be in two minds

3) (=sospechoso) [actuación, dinero, reputación] dubious

el empleo de tácticas dudosas — the use of suspect o dubious tactics

2.

SM / F

el voto de los dudosos — the "undecided" vote

* * *

- sa adjetivo

a) ( incierto) doubtful

lo veo dudoso — it's doubtful, I doubt it

su participación aún está dudosa — it is still uncertain whether they will take part

b) <costumbres/moral> dubious, questionable; < victoria> dubious; < decisión> dubious

de dudoso gusto — in dubious taste

c) ( indeciso) hesitant, undecided

* * *

= suspect, dodgy [dodgier -comp., dodgiest -sup.], doubtful, dubious, questionable, suspicious, suspicious, unconvinced, dicey [dicier -comp., diciest -sup.], uncleared, iffy [iffier -comp., iffiest -sup.], rocky [rockier -comp., rockiest -sup.], borderline, fishy [fishier -comp., fishiest -sup.], fly-by-night, dubious-sounding.

Ex. The utility, in information service terms, of a narrow technical education is suspect.

Ex. The statistical procedures from Czchekoslovakia and Romania have been pretty dodgy and unsatisfactory.

Ex. Without AACR is doubtful whether computerised cataloguing would have been implemented so relatively painlessly and successfully = Sin las RCAA es dudoso que la catalogación automatizada se hubiera implementado tan fácilmente y con tanto éxito, relativamente hablando.

Ex. On no account should the schedules of a classification scheme be modified in order to gain some dubious advantage of this kind.

Ex. It was questionable if the talent available was fit for the rather specific purposes of SLIS.

Ex. This can make them reluctant to accept or suspicious of outside help.

Ex. This program can also discover misconfigured or faulty applications that generate suspicious data traffic.

Ex. Many educators still remain unconvinced of the value of school libraries in the school.

Ex. Predicting the future is dicey.

Ex. Its relation to cognitive impairment is as yet uncleared.

Ex. I think we have some chance to get Friday in, but Saturday is dead meat without any doubt whatsoever and Sunday is pretty iffy.

Ex. The English is a little rocky on this lovely web site but we have it on good word that the original French is très bien.

Ex. An indication that the Commission would be prepared to accept a borderline project would provide a useful lever when the application is passed to the UK Government.

Ex. This is when children are not really concerned with scientific truth; they believe in Father Christmas anyway, even if there lurks the suspicion that there is something rather fishy about it all.

Ex. What I was reading about looked like a really genuine and reliable way of earning good money that didn't involve some fly-by-night, get-rich-quick scheme.

Ex. But I seem to get an awful lot of people trying to interest me in dubious-sounding business propositions.

----

* con dudosa reputación = disreputable.

* conseguido de manera dudosa = ill-gotten.

* estar dudoso = be doubtful.

* proceder dudoso = unfair practice.

* que parece dudoso = dubious-sounding.

* ser dudoso = be doubtful.

* * *

- sa adjetivo

a) ( incierto) doubtful

lo veo dudoso — it's doubtful, I doubt it

su participación aún está dudosa — it is still uncertain whether they will take part

b) <costumbres/moral> dubious, questionable; < victoria> dubious; < decisión> dubious

de dudoso gusto — in dubious taste

c) ( indeciso) hesitant, undecided

* * *

= suspect, dodgy [dodgier -comp., dodgiest -sup.], doubtful, dubious, questionable, suspicious, suspicious, unconvinced, dicey [dicier -comp., diciest -sup.], uncleared, iffy [iffier -comp., iffiest -sup.], rocky [rockier -comp., rockiest -sup.], borderline, fishy [fishier -comp., fishiest -sup.], fly-by-night, dubious-sounding.

Ex: The utility, in information service terms, of a narrow technical education is suspect.

Ex: The statistical procedures from Czchekoslovakia and Romania have been pretty dodgy and unsatisfactory.

Ex: Without AACR is doubtful whether computerised cataloguing would have been implemented so relatively painlessly and successfully = Sin las RCAA es dudoso que la catalogación automatizada se hubiera implementado tan fácilmente y con tanto éxito, relativamente hablando.

Ex: On no account should the schedules of a classification scheme be modified in order to gain some dubious advantage of this kind.

Ex: It was questionable if the talent available was fit for the rather specific purposes of SLIS.

Ex: This can make them reluctant to accept or suspicious of outside help.

Ex: This program can also discover misconfigured or faulty applications that generate suspicious data traffic.

Ex: Many educators still remain unconvinced of the value of school libraries in the school.

Ex: Predicting the future is dicey.

Ex: Its relation to cognitive impairment is as yet uncleared.

Ex: I think we have some chance to get Friday in, but Saturday is dead meat without any doubt whatsoever and Sunday is pretty iffy.

Ex: The English is a little rocky on this lovely web site but we have it on good word that the original French is très bien.

Ex: An indication that the Commission would be prepared to accept a borderline project would provide a useful lever when the application is passed to the UK Government.

Ex: This is when children are not really concerned with scientific truth; they believe in Father Christmas anyway, even if there lurks the suspicion that there is something rather fishy about it all.

Ex: What I was reading about looked like a really genuine and reliable way of earning good money that didn't involve some fly-by-night, get-rich-quick scheme.

Ex: But I seem to get an awful lot of people trying to interest me in dubious-sounding business propositions.

* con dudosa reputación = disreputable.

* conseguido de manera dudosa = ill-gotten.

* estar dudoso = be doubtful.

* proceder dudoso = unfair practice.

* que parece dudoso = dubious-sounding.

* ser dudoso = be doubtful.

* * *

dudoso -sa

adjective

1 (incierto) doubtful

lo veo dudoso it's doubtful, I doubt it

su participación aún está dudosa it is still uncertain whether they will take part

es dudoso que cumpla su promesa it's doubtful o I doubt whether he'll keep his promise

2 ‹costumbres/moral› dubious, questionable; ‹victoria› dubious

una campaña publicitaria de dudoso gusto an advertising campaign in dubious o doubtful taste

una decisión dudosa a doubtful o dubious decision

3 (indeciso) hesitant, undecided

* * *

dudoso

◊ -sa adjetivo

a) ( incierto) doubtful;

◊ lo veo dudoso I doubt it

b) ( cuestionable) dubious

c) ( indeciso) hesitant, undecided

dudoso,-a adjetivo
1 (poco probable) unlikely, doubtful
(incierto) los orígenes de la creación son dudosos, the origins of creation are uncertain
(con pocas garantías) la atribución a Velázquez es dudosa, the attribution to Velazquez is doubtful
2 (indeciso, vacilante) undecided: estaba dudoso, he was hesitant
3 (turbio) dubious
' dudoso' also found in these entries:
Spanish:
dudosa
- incierto
- oscuro
English:
bad debt
- borderline
- doubtful
- dubious
- moot
- questionable
- touch
- uncertain
- border

* * *

dudoso, -a adj

1. [improbable] doubtful;

una palabra de origen dudoso a word of doubtful origin;

lo veo dudoso I doubt it;

ser dudoso (que) to be doubtful (whether), to be unlikely (that);

es dudoso que asista a la reunión it's unlikely (that) he'll attend the meeting, it's doubtful whether he'll attend the meeting

2. [vacilante] hesitant, indecisive;

estaba dudoso sobre qué hacer she was unsure about what to do

3. [sospechoso] questionable, dubious;

un individuo de dudosa reputación an individual of dubious reputation;

una broma de gusto dudoso a joke in questionable taste;

un penalti dudoso a dubious penalty

* * *

dudoso

adj

1 ( incierto) doubtful, dubious

2 ( indeciso) hesitant

* * *

dudoso, -sa adj

1) : doubtful

2) : dubious, questionable

♦ dudosamente adv

* * *

dudoso adj (en general) doubtful

estoy dudoso, no sé qué coche elegir I'm doubtful, I don't know which car to choose

mercado mundial

m.

world market.

* * *

= global market, world market

Ex. This conference will showcase best of breed processes and applications to help companies succeed in the global markets they serve.

Ex. Europeans have a disproportionate share of the world market because they were the economic giants at the birth of the scientific age and of the periodical.

* * *

= global market, world market

Ex: This conference will showcase best of breed processes and applications to help companies succeed in the global markets they serve.

Ex: Europeans have a disproportionate share of the world market because they were the economic giants at the birth of the scientific age and of the periodical.

situaciones

(n.) = sphere of activity, sphere of life, walks (of/in) life

Ex. Military applications of information technology often pave the way for its introduction into other spheres of activity.

Ex. As a result of scientific-technical development, culture is influencing all spheres of life.

Ex. Public libraries are present in many communities and serve people of all ages and from all walks of life.

* * *

(n.) = sphere of activity, sphere of life, walks (of/in) life

Ex: Military applications of information technology often pave the way for its introduction into other spheres of activity.

Ex: As a result of scientific-technical development, culture is influencing all spheres of life.

Ex: Public libraries are present in many communities and serve people of all ages and from all walks of life.

primjene radijskih valova u industriji

industrial, scientific and medical applications of

* * *

• industrial, scientific and medical applications of

промышленные, научные и медицинские применения (радиочастотной энергии)

1. ISM
2. industrial, scientific and medical applications (of radio frequency energy)

 

промышленные, научные и медицинские применения (радиочастотной энергии)
Работа оборудования или приборов, предназначенных для генерирования и местного использования радиочастотной энергии для промышленных, научных, медицинских, бытовых или подобных целей, за исключением применения в области электросвязи. (Регламент радиосвязи (2004) - Ст.1, п.1.15).
[ http://www.iks-media.ru/glossary/index.html?glossid=2400324]

Тематики

• электросвязь, основные понятия

EN

• industrial, scientific and medical applications (of radio frequency energy)
• ISM

Faraday, Michael

SUBJECT AREA: Electricity

[br]

b. 22 September 1791 Newington, Surrey, England

d. 25 August 1867 London, England

[br]

English physicist, discoverer of the principles of the electric motor and dynamo.

[br]

Faraday's father was a blacksmith recently moved south from Westmorland. The young Faraday's formal education was limited to attendance at "a Common Day School", and then he worked as an errand boy for George Riebau, a bookseller and bookbinder in London's West End. Riebau subsequently took him as an apprentice bookbinder, and Faraday seized every opportunity to read the books that came his way, especially scientific works.

A customer in the shop gave Faraday tickets to hear Sir Humphry Davy lecturing at the Royal Institution. He made notes of the lectures, bound them and sent them to Davy, asking for scientific employment. When a vacancy arose for a laboratory assistant at the Royal Institution, Davy remembered Faraday, who he took as his assistant on an 18- month tour of France, Italy and Switzerland (despite the fact that Britain and France were at war!). The tour, and especially Davy's constant company and readiness to explain matters, was a scientific education for Faraday, who returned to the Royal Institution as a competent chemist in his own right. Faraday was interested in electricity, which was then viewed as a branch of chemistry. After Oersted's announcement in 1820 that an electric current could affect a magnet, Faraday devised an arrangement in 1821 for producing continuous motion from an electric current and a magnet. This was the basis of the electric motor. Ten years later, after much thought and experiment, he achieved the converse of Oersted's effect, the production of an electric current from a magnet. This was magneto-electric induction, the basis of the electric generator.

Electrical engineers usually regard Faraday as the "father" of their profession, but Faraday himself was not primarily interested in the practical applications of his discoveries. His driving motivation was to understand the forces of nature, such as electricity and magnetism, and the relationship between them. Faraday delighted in telling others about science, and studied what made a good scientific lecturer. At the Royal Institution he introduced the Friday Evening Discourses and also the Christmas Lectures for Young People, now televised in the UK every Christmas.

[br]

Bibliography

1991, Curiosity Perfectly Satisfyed. Faraday's Travels in Europe 1813–1815, ed. B.Bowers and L.Symons, Peter Peregrinus (Faraday's diary of his travels with Humphry Davy).

Further Reading

L.Pearce Williams, 1965, Michael Faraday. A Biography, London: Chapman \& Hall; 1987, New York: Da Capo Press (the most comprehensive of the many biographies of Faraday and accounts of his work).

For recent short accounts of his life see: B.Bowers, 1991, Michael Faraday and the Modern World, EPA Press. G.Cantor, D.Gooding and F.James, 1991, Faraday, Macmillan.

J.Meurig Thomas, 1991, Michael Faraday and the Royal Institution, Adam Hilger.

BB

industrielle, wissenschaftliche und medizinische Anwendungen

Anwendungen fpl: industrielle, wissenschaftliche und medizinische Anwendungen fpl KO ISM applications, industrial, scientific and medical applications (von Funkfernsteuerungsfrequenzbändern bei 433 MHz, 868 MHz und 915 MHz)

Jacobi, Moritz Hermann von

SUBJECT AREA: Electricity

[br]

b. 21 September 1801 Potsdam, Germany

d. 27 February 1874 St Petersburg, Russia

[br]

German scientist who developed one of the first practical electric motors.

[br]

After studying architecture at Göttingen University, Jacobi turned his attention to physics and chemistry. In 1835 he was appointed a professor of civil engineering at the University of Dorpat (which later assumed the Estonian name of Tartu). Later, moving to St Petersburg, he became a member of the Imperial Academy of Sciences and commenced research on electricity and its practical applications. In December 1834 Jacobi presented a paper to the Academy of Sciences in Paris in which he stated that he had obtained rotation by electromagnetic methods in May of that year. Tsar Nicholas of Russia gave him a grant to prove that his electric motor had a practical application. Jacobi had a boat constructed that measured 28 ft in length and was propelled by paddles connected to an electric motor of his own design. Powered by Grove cells, it carried about fourteen passengers at a speed of almost 3 mph (5 km/h) on the River Neva. The weight of and possibly the fumes from the batteries contributed to the abandonment of the project. In 1839 Jacobi introduced electrotyping, i.e. the reproduction of forms by electrodeposition, which was one of the first commercial applications of electricity. In 1840 he reported the results of his investigations into the power of the electromagnet as a function of various parameters to the British Association.

[br]

Principal Honours and Distinctions

Member, Imperial Academy of Sciences, St Petersburg, 1847.

Bibliography

Jacobi's papers are listed in Catalogue of Scientific Papers, 1868, Vol. III, London: Royal Society, pp. 517–18.

1837, Annals of Electricity 1:408–15 and 419–44 (describes his motor).

Further Reading

Biography, 1876, Bulletin de l'Académie imperiale des sciences de St Petersburg 21:262–79.

E.H.Huntress, 1951, in Proceedings of the American Academy of Arts and Sciences 79: 22–3 (a short biography).

B.Bowers, 1982, A History of Electric Light and Power, London.

GW

Reynolds, Osborne

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 23 April 1842 Belfast, Ireland

d. 1912 Watchet, Somerset, England

[br]

English engineer and educator.

[br]

Osborne Reynolds's father, a clergyman and schoolteacher, had been a Fellow of Queens' College, Cambridge; it was to Queens' that the young Reynolds went to study mathematics, graduating as 7th Wrangler in 1867, and going on in his turn to become a Fellow of the College. Reynolds had developed an interest in practical applications of physics and engineering, and for a short time he entered the office of the London civil engineers Lawson and Mansergh. In 1868 he was appointed to the new Chair of Engineering at Owens College, Manchester, and he remained in this post for thirty-seven years, until he retired in 1905. During this period he presided over a department that grew steadily in size and reputation, and undertook prolonged research projects into phenomena such as lubrication, the laws governing the flow of water in pipes, turbulence and other physical features with practical applications. He was elected a Fellow of the Royal Society in 1877, being nominated Royal Medallist in 1888. In 1883 he became a Member of the Institution of Civil Engineers, and in 1885 he was awarded the Telford Premium of the Institution. He served as Secretary of the Manchester Literary and Philosophical Society from 1874 to 1883, and was appointed President in 1888–9 and Dalton Medallist in 1903. He was President of Section G of the British Association for the History of Science in 1887, and in 1884 he received the degree of LLD from Glasgow University. Among his many students at Owens College was J.J. (later Sir Joseph) Thomson (1856–1940), who entered the college in 1871. Reynolds's collected scientific papers were published in 1900–3.

[br]

Principal Honours and Distinctions

FRS 1877. Institution of Civil Engineers Telford Premium 1885. President, Manchester Literary and Philosophical Society 1888–9. Manchester Literary and Philosophical Society, Dalton Medal 1903.

Further Reading

Dictionary of National Biography Supplement.

D.M.McDowell and J.D.Jackson (eds), 1970, Osborne Reynolds and Engineering Science Today, Manchester: Manchester University Press.

AB

Appleton, Sir Edward Victor

SUBJECT AREA: Broadcasting, Telecommunications

[br]

b. 6 September 1892 Bradford, England

d. 21 April 1965 Edinburgh, Scotland

[br]

English physicist awarded the Nobel Prize for Physics for his discovery of the ionospheric layer, named after him, which is an efficient reflector of short radio waves, thereby making possible long-distance radio communication.

[br]

After early ambitions to become a professional cricketer, Appleton went to St John's College, Cambridge, where he studied under J.J.Thompson and Ernest Rutherford. His academic career interrupted by the First World War, he served as a captain in the Royal Engineers, carrying out investigations into the propagation and fading of radio signals. After the war he joined the Cavendish Laboratory, Cambridge, as a demonstrator in 1920, and in 1924 he moved to King's College, London, as Wheatstone Professor of Physics.

In the following decade he contributed to developments in valve oscillators (in particular, the "squegging" oscillator, which formed the basis of the first hard-valve time-base) and gained international recognition for research into electromagnetic-wave propagation. His most important contribution was to confirm the existence of a conducting ionospheric layer in the upper atmosphere capable of reflecting radio waves, which had been predicted almost simultaneously by Heaviside and Kennelly in 1902. This he did by persuading the BBC in 1924 to vary the frequency of their Bournemouth transmitter, and he then measured the signal received at Cambridge. By comparing the direct and reflected rays and the daily variation he was able to deduce that the Kennelly- Heaviside (the so-called E-layer) was at a height of about 60 miles (97 km) above the earth and that there was a further layer (the Appleton or F-layer) at about 150 miles (240 km), the latter being an efficient reflector of the shorter radio waves that penetrated the lower layers. During the period 1927–32 and aided by Hartree, he established a magneto-ionic theory to explain the existence of the ionosphere. He was instrumental in obtaining agreement for international co-operation for ionospheric and other measurements in the form of the Second Polar Year (1932–3) and, much later, the International Geophysical Year (1957–8). For all this work, which made it possible to forecast the optimum frequencies for long-distance short-wave communication as a function of the location of transmitter and receiver and of the time of day and year, in 1947 he was awarded the Nobel Prize for Physics.

He returned to Cambridge as Jacksonian Professor of Natural Philosophy in 1939, and with M.F. Barnett he investigated the possible use of radio waves for radio-location of aircraft. In 1939 he became Secretary of the Government Department of Scientific and Industrial Research, a post he held for ten years. During the Second World War he contributed to the development of both radar and the atomic bomb, and subsequently served on government committees concerned with the use of atomic energy (which led to the establishment of Harwell) and with scientific staff.

[br]

Principal Honours and Distinctions

Knighted (KCB 1941, GBE 1946). Nobel Prize for Physics 1947. FRS 1927. Vice- President, American Institute of Electrical Engineers 1932. Royal Society Hughes Medal 1933. Institute of Electrical Engineers Faraday Medal 1946. Vice-Chancellor, Edinburgh University 1947. Institution of Civil Engineers Ewing Medal 1949. Royal Medallist 1950. Institute of Electrical and Electronics Engineers Medal of Honour 1962. President, British Association 1953. President, Radio Industry Council 1955–7. Légion d'honneur. LLD University of St Andrews 1947.

Bibliography

1925, joint paper with Barnett, Nature 115:333 (reports Appleton's studies of the ionosphere).

1928, "Some notes of wireless methods of investigating the electrical structure of the upper atmosphere", Proceedings of the Physical Society 41(Part III):43. 1932, Thermionic Vacuum Tubes and Their Applications (his work on valves).

1947, "The investigation and forecasting of ionospheric conditions", Journal of the

Institution of Electrical Engineers 94, Part IIIA: 186 (a review of British work on the exploration of the ionosphere).

with J.F.Herd \& R.A.Watson-Watt, British patent no. 235,254 (squegging oscillator).

Further Reading

Who Was Who, 1961–70 1972, VI, London: A. \& C.Black (for fuller details of honours). R.Clark, 1971, Sir Edward Appleton, Pergamon (biography).

J.Jewkes, D.Sawers \& R.Stillerman, 1958, The Sources of Invention.

KF

Arsonval, Jacques Arsène d'

SUBJECT AREA: Medical technology

[br]

b. 8 June 1851 Boric, France

d. 31 December 1940 Boric, France

[br]

French physician and physicist noted for his invention of the reflecting galvanometer and for contributions to electrotherapy.

[br]

After studies at colleges in Limoges and later in Paris, Arsonval became a doctor of medicine in 1877. In 1882 the Collège de France established a laboratory of biophysics with Arsonval as Director, and he was Professor from 1894.

His most outstanding scientific contributions were in the field of biological applications of electricity. His interest in muscle currents led to a series of inventions to assist in research, including the moving-coil galvanometer. In 1881 he made a significant improvement to the galvanometer by reversing the magnetic elements. It had been usual to suspend a compass needle in the centre of a large, stationary coil, but Arsonval's invention was to suspend a small, light coil between the poles of a powerful fixed magnet. This simple arrangement was independent of the earth's magnetic field and insensitive to vibration. A great increase in sensitivity was achieved by attaching a mirror to the coil in order to reflect a spot of light. For bacterial-research purposes he designed the first constant-temperature incubator controlled by electricity. His experiments on the effects of high-frequency, low-voltage alternating currents on animals led to the first high-frequency heat-therapy unit being established in 1892, and later to methods of physiotherapy becoming a professional discipline.

[br]

Principal Honours and Distinctions

Académie des Sciences, Prix Montyon 1882. Chevalier de la Légion d'honneur 1884. Grand Cross 1931.

Bibliography

1882, Comptes rendus de l'Académie des Sciences 94:1347–50 (describes the galvanometer).

1903, Traité de physique biologique, 2 vols, Paris (an account of his technological work).

Further Reading

C.C.Gillispie (ed.), 1970, Dictionary of Scientific Biography, Vol. 1, New York, pp. 302–5.

D.O.Woodbury, 1949, A Measure for Greatness, New York.

GW