Proceedings of the Physical Society

European Physical Society

1. Европейское физическое общество

 

Европейское физическое общество
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]

Тематики

• энергетика в целом

EN

• European Physical Society

American Physical Society

1) Общая лексика: Американское физическое общество

2) Техника: Физическое общество США (Am. Phys. Soc.)

European Physical Society

Макаров: Европейское физическое общество

Fellow of the American Physical Society

Общая лексика: член Американского физического общества

Fellow of the Physical Society

Общая лексика: член Физического общества

Institute of Physics and Physical Society

Техника: Институт физики и Физическое общество

European Physical Society

Европейское физическое общество

American Physical Society

Американское физическое общество

American Physical Society

Американское физическое общество

American Physical Society

сокр APS

Американское физическое общество

Общественная организация, наиболее престижная и авторитетная среди физиков. Членство в организации является символом высокого научного статуса. Основана в 1899. Около 43 тыс. членов. Штаб-квартира в г. Нью-Йорке.

см тж American Institute of Physics

American Physical Society

Американское физическое общество

Society

- Society for Computer Simulation

- Society for Management Information Systems
- Society for World-Wide Interlink Financial Telecommunications
- Society of Certified Data Processors
- Society of Manufacturing Engineers
- Society of Motion Picture and Television Engineers
- American Society for Information Science
- American Society for Testing Materials
- American Mathematical Society
- American Physical Society
- American Television Society
- Audio Engineering Society
- British Computer Society
- Canadian Information Processing Society
- Institute of Electrical and Electronics Engineers Computer Society
- Internet Society
- Optical Society of America
- Radio Society of Great Britain

Society

в соч.

- American Mathematical Society

- American Physical Society
- American Society for Information Science
- American Society for Testing Materials
- American Television Society
- Audio Engineering Society
- British Computer Society
- Canadian Information Processing Society
- Institute of Electrical and Electronics Engineers Computer Society
- Internet Society
- Optical Society of America
- Radio Society of Great Britain
- Society for Computer Simulation
- Society for Management Information Systems
- Society for World-Wide Interlink Financial Telecommunications
- Society of Certified Data Processors
- Society of Manufacturing Engineers
- Society of Motion Picture and Television Engineers

Physical

1. adjective

1) (material) physisch [Gewalt]; stofflich, dinglich [Welt, Universum]

2) (of physics) physikalisch

it's a physical impossibility — (fig.) es ist absolut unmöglich

3) (bodily) körperlich; physisch

you need to take more physical exercise — du brauchst mehr Bewegung

4) (carnal, sensual) körperlich [Liebe]; sinnlich [Person, Ausstrahlung]

2. noun

ärztliche [Vorsorge]untersuchung; (for joining the army) Musterung, die

* * *

['fizikəl]

adjective

1) (of the body: Playing football is one form of physical fitness.) körperlich

2) (of things that can be seen or felt: the physical world.) physisch

3) (of the laws of nature: It's a physical impossibility for a man to fly like a bird.) physikalisch

4) (relating to the natural features of the surface of the Earth: physical geography.) physikalisch

5) (relating to physics: physical chemistry.) naturwissenschaftlich

•

- academic.ru/55270/physically">physically

- physical education

* * *

physi·cal

[ˈfɪzɪk^əl]

I. adj

1. (of the body) condition, strength, weakness körperlich, physisch geh

I'm not a very \physical sort of person (don't like sports) ich bin nicht gerade sehr sportlich; (don't like touching) ich bin mit Berührungen eher zurückhaltend

\physical contact Körperkontakt m

to have a \physical disability körperbehindert sein

\physical exercise sportliche Betätigung

\physical jerks BRIT ( hum dated) Turnübungen pl

to get \physical rabiat werden

2. (sexual) contact, love, relationship körperlich

\physical attraction körperliche Anziehung

to get \physical sich akk anfassen

3. inv (material) physisch; object, world stofflich, dinglich

the \physical characteristics of the terrain die geophysischen Eigenschaften der Gegend

insurers are worried about the \physical condition of the vessels die Versicherungen machen sich Sorgen um den Materialzustand der Schiffe

4. inv (of physics) physikalisch

II. n MED Untersuchung f

* * *

['fIzIkəl]

1. adj

1) (= of the body) körperlich; abuse, violence, punishment, discomfort physisch, körperlich; check-up ärztlich; (= not psychological) physisch

you don't take/get enough physical exercise — Sie bewegen sich nicht genug

he's very physical (inf) — er ist sehr sinnlich

play got too physical ( Sport inf ) — das Spiel wurde zu ruppig or rabiat (inf)

the physical force of the impact — die Wucht des Aufpralls

we don't actually need your physical presence — Ihre persönliche Anwesenheit ist nicht unbedingt nötig

2) (= sexual) love, relationship körperlich

3) (= material) physisch, körperlich; size physisch; world fassbar

4) (= of physics) laws, properties physikalisch

it's a physical impossibility — es ist ein Ding der Unmöglichkeit

5) (= natural) environment physisch, real; conditions physisch

6) (= actual) possession physisch, leibhaftig

2. n

ärztliche Untersuchung; (MIL) Musterung f

* * *

MPS abk Member of the Pharmaceutical ( oder Philological, Physical) Society

* * *

1. adjective

1) (material) physisch [Gewalt]; stofflich, dinglich [Welt, Universum]

2) (of physics) physikalisch

it's a physical impossibility — (fig.) es ist absolut unmöglich

3) (bodily) körperlich; physisch

you need to take more physical exercise — du brauchst mehr Bewegung

4) (carnal, sensual) körperlich [Liebe]; sinnlich [Person, Ausstrahlung]

2. noun

ärztliche [Vorsorge]untersuchung; (for joining the army) Musterung, die

* * *

adj.

körperlich adj.

physisch adj.

technisch adj.

Society

1. noun

1) Gesellschaft, die

high society — Highsociety, die

2) (club, association) Verein, der; (Commerc.) Gesellschaft, die; (group of persons with common beliefs, aims, interests, etc.) Gemeinschaft, die

2. attributive adjective

1) (of high society) Gesellschafts-; [High-]Society-

she is a society hostess — sie gibt Feste für die [gehobene] Gesellschaft

2) (of club or association) Vereins-, Klub[vorsitzender, -treffen, -ausflug usw.]

* * *

plural - societies; noun

1) (mankind considered as a whole: He was a danger to society.) die Gesellschaft

2) (a particular group or part of mankind considered as a whole: middle-class society; modern western societies.) die Gesellschaft

3) (an association or club: a model railway society.) der Verein

4) (the class of people who are wealthy, fashionable or of high rank in any area: high society.) die Gesellschaft

5) (company or companionship: I enjoy the society of young people.) die Gesellschaft

* * *

so·ci·ety

[səˈsaɪəti, AM -ət̬i]

I. n

1. (all people) Gesellschaft f

consumer \society Konsumgesellschaft f

a member of \society ein Mitglied nt der Gesellschaft

to be a menace [or danger] to \society eine Bedrohung für die Allgemeinheit darstellen

American/British \society die amerikanische/britische Gesellschaft

capitalist/classless/multicultural \society kapitalistische/klassenlose/multikulturelle Gesellschaft

to do sth for the good [or benefit] of \society etw zum Nutzen der Allgemeinheit tun

2. (elite) die [feine] Gesellschaft

high \society High Society f

3. ( form: company) Gesellschaft f

she prefers her own \society sie ist am liebsten alleine

to avoid sb's \society jdn meiden

he avoids \society when possible wann immer möglich, vermeidet er es, unter Menschen zu gehen

4. (organization) Verein m, Vereinigung f

the S\society of Friends die Gesellschaft der Freunde [o Quäker]

literature \society Literaturzirkel m

music \society Musikverein m, Musikkreis m

writers' \society Schriftstellervereinigung f, Schriftstellerverband m

II. n modifier (ball) Gesellschafts-

\society column/reporter Klatschspalte f/-reporter(in) m(f)

\society event gesellschaftliche Veranstaltung

\society news Illustrierte f

* * *

[sə'saIətɪ]

n

1) (= social community) die Gesellschaft

modern industrial society — die moderne Industriegesellschaft

2) (= company) Gesellschaft f

I enjoy her society (esp liter) — ich bin gerne in ihrer Gesellschaft

everyone needs human society — jeder braucht die Gesellschaft anderer Menschen

3) (= high society) die Gesellschaft

London society — die Londoner Gesellschaft, die gesellschaftlichen Kreise Londons

to go into society —

the years she spent in society — die Jahre, die sie in gesellschaftlichen or feinen Kreisen verbracht hat

4) (= club, organization) Verein m; (learned, COMM) Gesellschaft f; (debating, history, dramatic etc, SCH) Arbeitsgemeinschaft f; (UNIV) Klub m

cooperative society — Genossenschaft

Society of Jesus — Gesellschaft Jesu

* * *

MPS abk Member of the Pharmaceutical ( oder Philological, Physical) Society

S. abk

1. Sabbath

2. Saint Hl.

3. Saturday Sa.

4. Saxon

5. Senate

6. Socialist

7. Society Ges.

8. Socius, Fellow

9. south S

10. southern südl.

11. submarine ( submarines pl)

* * *

1. noun

1) Gesellschaft, die

high society — Highsociety, die

2) (club, association) Verein, der; (Commerc.) Gesellschaft, die; (group of persons with common beliefs, aims, interests, etc.) Gemeinschaft, die

2. attributive adjective

1) (of high society) Gesellschafts-; [High-]Society-

she is a society hostess — sie gibt Feste für die [gehobene] Gesellschaft

2) (of club or association) Vereins-, Klub[vorsitzender, -treffen, -ausflug usw.]

* * *

n.

Gesellschaft f.

Kulturkreis m.

Verein -e m.

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

Ayrton, William Edward

SUBJECT AREA: Electricity, Telecommunications

[br]

b. 14 September 1847 London, England

d. 8 November 1908 London, England

[br]

English physicist, inventor and pioneer in technical education.

[br]

After graduating from University College, London, Ayrton became for a short time a pupil of Sir William Thomson in Glasgow. For five years he was employed in the Indian Telegraph Service, eventually as Superintendent, where he assisted in revolutionizing the system, devising methods of fault detection and elimination. In 1873 he was invited by the Japanese Government to assist as Professor of Physics and Telegraphy in founding the Imperial College of Engineering in Tokyo. There he created a teaching laboratory that served as a model for those he was later to organize in England and which were copied elsewhere. It was in Tokyo that his joint researches with Professor John Perry began, an association that continued after their return to England. In 1879 he became Professor of Technical Physics at the City and Guilds Institute in Finsbury, London, and later was appointed Professor of Physics at the Central Institution in South Kensington.

The inventions of Avrton and Perrv included an electric tricycle in 1882, the first practicable portable ammeter and other electrical measuring instruments. By 1890, when the research partnership ended, they had published nearly seventy papers in their joint names, the emphasis being on a mathematical treatment of subjects including electric motor design, construction of electrical measuring instruments, thermodynamics and the economical use of electric conductors. Ayrton was then employed as a consulting engineer by government departments and acted as an expert witness in many important patent cases.

[br]

Principal Honours and Distinctions

FRS 1881. President, Physical Society 1890–2. President, Institution of Electrical Engineers 1892. Royal Society Royal Medal 1901.

Bibliography

28 April 1883, British patent no. 2,156 (Ayrton and Perry's ammeter and voltmeter). 1887, Practical Electricity, London (based on his early laboratory courses; 7 edns followed during his lifetime).

1892, "Electrotechnics", Journal of the Institution of Electrical Engineers 21, 5–36 (for a survey of technical education).

Further Reading

D.W.Jordan, 1985, "The cry for useless knowledge: education for a new Victorian technology", Proceedings of the Institution of Electrical Engineers, 132 (Part A): 587– 601.

G.Gooday, 1991, History of Technology, 13: 73–111 (for an account of Ayrton and the teaching laboratory).

GW

Eccles, William Henry

SUBJECT AREA: Electronics and information technology, Telecommunications

[br]

b. 23 August 1875 Ulverston, Cumbria, England

d. 27 April 1966 Oxford, England

[br]

English physicist who made important contributions to the development of radio communications.

[br]

After early education at home and at private school, Eccles won a scholarship to the Royal College of Science (now Imperial College), London, where he gained a First Class BSc in physics in 1898. He then worked as a demonstrator at the college and studied coherers, for which he obtained a DSc in 1901. Increasingly interested in electrical engineering, he joined the Marconi Company in 1899 to work on oscillators at the Poole experimental radio station, but in 1904 he returned to academic life as Professor of Mathematics and Physics and Department Head at South West Polytechnic, Chelsea. There he discovered ways of using the negative resistance of galena-crystal detectors to generate oscillations and gave a mathematical description of the operation of the triode valve. In 1910 he became Reader in Engineering at University College, London, where he published a paper explaining the reflection of radio waves by the ionosphere and designed a 60 MHz short-wave transmitter. From 1916 to 1926 he was Professor of Applied Physics and Electrical Engineering at the Finsbury City \& Guilds College and a private consulting engineer. During the First World War he was a military scientific adviser and Secretary to the Joint Board of Scientific Societies. After the war he made many contributions to electronic-circuit development, many of them (including the Eccles-Jordan "flip-flop" patented in 1918 and used in binary counters) in conjunction with F.W.Jordan, about whom little seems to be known. Illness forced Eccles's premature academic retirement in 1926, but he remained active as a consultant for many years.

[br]

Principal Honours and Distinctions

FRS 1921. President, Institution of Electrical Engineers, 1926–7. President, Physical Society 1929. President, Radio Society of Great Britain.

Bibliography

1912, "On the diurnal variation of the electric waves occurring in nature and on the propagation of electric waves round the bend of the earth", Proceedings of the Royal Society 87:79. 1919, with F.W.Jordan, "Method of using two triode valves in parallel for generating oscillations", Electrician 299:3.

1915, Handbook of Wireless Telegraphy.

1921, Continuous Wave Wireless Telegraphy.

Further Reading

1971, "William Henry Eccles, 1875–1966", Biographical Memoirs of the Royal Society, London, 17.

See also: Heaviside, Oliver; Kennelly, Arthur Edwin

KF

Essen, Louis

SUBJECT AREA: Horology

[br]

b. 6 September 1908 Nottingham, England

[br]

English physicist who produced the first practical caesium atomic clock, which was later used to define the second.

[br]

Louis Essen joined the National Physical Laboratory (NPL) at Teddington in 1927 after graduating from London University. He spent his whole working life at the NPL and retired in 1972; his research there was recognized by the award of a DSc in 1948. At NPL he joined a team working on the development of frequency standards using quartz crystals and he designed a very successful quartz oscillator, which became known as the "Essen ring". He was also involved with radio frequency oscillators. His expertise in these fields was to play a crucial role in the development of the caesium clock. The idea of an atomic clock had been proposed by I.I.Rabbi in 1945, and an instrument was constructed shortly afterwards at the National Bureau of Standards in the USA. However, this device never realized the full potential of the concept, and after seeing it on a visit to the USA Essen was convinced that a more successful instrument could be built at Teddington. Assisted by J.V.L.Parry, he commenced work in the spring of 1953 and by June 1955 the clock was working reliably, with an accuracy that was equivalent to one second in three hundred years. This was significantly more accurate than the astronomical observations that were used at that time to determine the second: in 1967 the second was redefined in terms of the value for the frequency of vibration of caesium atoms that had been obtained with this clock.

[br]

Principal Honours and Distinctions

FRS 1960. Clockmakers' Company Tompion Gold Medal 1957. Physical Society C.V.Boys Prize 1957. USSR Academy of Science Popov Gold Medal 1959.

Bibliography

1957, with J.V.L.Parry, "The caesium resonator as a standard of frequency and time", Philosophical Transactions of the Royal Society (Series A) 25:45–69 (the first comprehensive description of the caesium clock).

Further Reading

P.Forman, 1985, "Atomichron: the atomic clock from concept to commercial product", Proceedings of the IEEE 75:1,181–204 (an authoritative critical review of the development of the atomic clock).

N.Cessons (ed.), 1992, The Making of the Modern World, London: Science Museum, pp.

190–1 (contains a short account).

See also: Marrison, Warren Alvin

DV

Goldstine, Herman H.

SUBJECT AREA: Electronics and information technology

[br]

b. 13 September 1913 USA

[br]

American mathematician largely responsible for the development of ENIAC, an early electronic computer.

[br]

Goldstine studied mathematics at the University of Chicago, Illinois, gaining his PhD in 1936. After teaching mathematics there, he moved to a similar position at the University of Michigan in 1939, becoming an assistant professor. After the USA entered the Second World War, in 1942 he joined the army as a lieutenant in the Ballistic Missile Research Laboratory at the Aberdeen Proving Ground in Maryland. He was then assigned to the Moore School of Engineering at the University of Pennsylvania, where he was involved with Arthur Burks in building the valve-based Electronic Numerical Integrator and Computer (ENIAC) to compute ballistic tables. The machine was completed in 1946, but prior to this Goldstine had met John von Neumann of the Institute for Advanced Studies (IAS) at Princeton, New Jersey, and active collaboration between them had already begun. After the war he joined von Neumann as Assistant Director of the Computer Project at the Institute of Advanced Studies, Princeton, becoming its Director in 1954. There he developed the idea of computer-flow diagrams and, with von Neumann, built the first computer to use a magnetic drum for data storage. In 1958 he joined IBM as Director of the Mathematical Sciences Department, becoming Director of Development at the IBM Data Processing Headquarters in 1965. Two years later he became a Research Consultant, and in 1969 he became an IBM Research Fellow.

[br]

Principal Honours and Distinctions

Goldstine's many awards include three honorary degrees for his contributions to the development of computers.

Bibliography

1946, with A.Goldstine, "The Electronic Numerical Integrator and Computer (ENIAC)", Mathematical Tables and Other Aids to Computation 2:97 (describes the work on ENIAC).

1946, with A.W.Burks and J.von Neumann, "Preliminary discussions of the logical design of an electronic computing instrument", Princeton Institute for Advanced Studies.

1972, The Computer from Pascal to von Neumann, Princeton University Press.

1977, "A brief history of the computer", Proceedings of the American Physical Society 121:339.

Further Reading

M.Campbell-Kelly \& M.R.Williams (eds), 1985, The Moore School Lectures (1946), Charles Babbage Institute Report Series for the History of Computing, Vol 9. M.R.Williams, 1985, History of Computing Technology, London: Prentice-Hall.

KF