technical physics

technical physics

техническая физика

technical physics

техническая физика

Technical Physics Journal

Геофизика: ЖТФ (Журнал технической физики)

All-Russian Scientific Research Institute of Technical Physics

Физика: VNIITF, ВНИИТФ

department of technical physics

• teknillisen fysiikan osasto

physics

физика

а) область науки и техники

б) физические явления; физические процессы

в) физическая сущность; физический механизм; физическая основа

- physics of condensed matters

- physics of critical state
- physics of dielectrics
- physics of ferroelecricity
- physics of liquid crystals
- physics of magnetic phenomena
- physics of metals
- physics of polymers
- physics of semiconductors
- physics of superconductivity
- applied physics
- biological physics
- crystal physics
- electron physics
- experimental physics
- high-energy physics
- industrial physics
- low-temperature physics
- mathematical physics
- molecular physics
- plasma physics
- pure physics
- radio physics
- solid-state physics
- statistical physics
- technical physics
- theoretical physics

physics

физика

а) область науки и техники

б) физические явления; физические процессы

в) физическая сущность; физический механизм; физическая основа

•

- applied physics

- biological physics
- crystal physics
- electron physics
- experimental physics
- high-energy physics
- industrial physics
- low-temperature physics
- mathematical physics
- molecular physics
- physics of condensed matters
- physics of critical state
- physics of dielectrics
- physics of ferroelecricity
- physics of liquid crystals
- physics of magnetic phenomena
- physics of metals
- physics of polymers
- physics of semiconductors
- physics of superconductivity
- plasma physics
- pure physics
- radio physics
- solid-state physics
- statistical physics
- technical physics
- theoretical physics

technical acoustics

Physics

தொழில்நுட்ப ஒலியியல்

technical details

Physics

பொறிமுறைவிவரணங்கள்

technical terms

I

Administration

தொழில் நுட்பச் சொற்கள்

II

Physics

கலைச்சொற்கள்

III

கலைச் சொற்கள்

Institute of Nuclear Physics

1) Техника: Институт ядерной физики (Польша)

2) Космонавтика: (Technical University of Vienna) Институт ядерной физики

Institute of Nuclear Physics (Technical University of Vienna)

Космонавтика: Институт ядерной физики

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

Gabor, Dennis (Dénes)

SUBJECT AREA: Photography, film and optics

[br]

b. 5 June 1900 Budapest, Hungary

d. 9 February 1979 London, England

[br]

Hungarian (naturalized British) physicist, inventor of holography.

[br]

Gabor became interested in physics at an early age. Called up for military service in 1918, he was soon released when the First World War came to an end. He then began a mechanical engineering course at the Budapest Technical University, but a further order to register for military service prompted him to flee in 1920 to Germany, where he completed his studies at Berlin Technical University. He was awarded a Diploma in Engineering in 1924 and a Doctorate in Electrical Engineering in 1927. He then went on to work in the physics laboratory of Siemens \& Halske. He returned to Hungary in 1933 and developed a new kind of fluorescent lamp called the plasma lamp. Failing to find a market for this device, Gabor made the decision to abandon his homeland and emigrate to England. There he joined British Thompson-Houston (BTH) in 1934 and married a colleague from the company in 1936. Gabor was also unsuccessful in his attempts to develop the plasma lamp in England, and by 1937 he had begun to work in the field of electron optics. His work was interrupted by the outbreak of war in 1939, although as he was not yet a British subject he was barred from making any significant contribution to the British war effort. It was only when the war was near its end that he was able to return to electron optics and begin the work that led to the invention of holography. The theory was developed during 1947 and 1948; Gabor went on to demonstrate that the theories worked, although it was not until the invention of the laser in 1960 that the full potential of his invention could be appreciated. He coined the term "hologram" from the Greek holos, meaning complete, and gram, meaning written. The three-dimensional images have since found many applications in various fields, including map making, medical imaging, computing, information technology, art and advertising. Gabor left BTH to become an associate professor at the Imperial College of Science and Technology in 1949, a position he held until his retirement in 1967. In 1971 he was awarded the Nobel Prize for Physics for his work on holography.

[br]

Principal Honours and Distinctions

Royal Society Rumford Medal 1968. Franklin Institute Michelson Medal 1968. CBE 1970. Nobel Prize for Physics 1971.

Bibliography

1948. "A new microscopic principle", Nature 161:777 (Gabor's earliest publication on holography).

1949. "Microscopy by reconstructed wavefronts", Proceedings of the Royal Society A197: 454–87.

1951, "Microscopy by reconstructed wavefronts II", Proc. Phys. Soc. B, 64:449–69. 1966, "Holography or the “Whole Picture”", New Scientist 29:74–8 (an interesting account written after laser beams were used to produce optical holograms).

Further Reading

T.E.Allibone, 1980, contribution to Biographical Memoirs of Fellows of the Royal Society 26: 107–47 (a full account of Gabor's life and work).

JW

Hertz, Heinrich Rudolph

SUBJECT AREA: Electricity, Electronics and information technology, Telecommunications

[br]

b. 22 February 1857 Hamburg, Germany

d. 1 January 1894 Bonn, Germany

[br]

German physicist who was reputedly the first person to transmit and receive radio waves.

[br]

At the age of 17 Hertz entered the Gelehrtenschule of the Johaneums in Hamburg, but he left the following year to obtain practical experience for a year with a firm of engineers in Frankfurt am Main. He then spent six months at the Dresden Technical High School, followed by year of military service in Berlin. At this point he decided to switch from engineering to physics, and after a year in Munich he studied physics under Helmholtz at the University of Berlin, gaining his PhD with high honours in 1880. From 1883 to 1885 he was a privat-dozent at Kiel, during which time he studied the electromagnetic theory of James Clerk Maxwell. In 1885 he succeeded to the Chair in Physics at Karlsruhe Technical High School. There, in 1887, he constructed a rudimentary transmitter consisting of two 30 cm (12 in.) rods with metal balls separated by a 7.5 mm (0.3 in.) gap at the inner ends and metallic plates at the outer ends, the whole assembly being mounted at the focus of a large parabolic metal mirror and the two rods being connected to an induction coil. At the other side of his laboratory he placed a 70 cm (27½ in.) diameter wire loop with a similar air gap at the focus of a second metal mirror. When the induction coil was made to create a spark across the transmitter air gap, he found that a spark also occurred at the "receiver". By a series of experiments he was not only able to show that the invisible waves travelled in straight lines and were reflected by the parabolic mirrors, but also that the vibrations could be refracted like visible light and had a similar wavelength. By this first transmission and reception of radio waves he thus confirmed the theoretical predictions made by Maxwell some twenty years earlier. It was probably in his experiments with this apparatus in 1887 that Hertz also observed that the voltage at which a spark was able to jump a gap was significantly reduced by the presence of ultraviolet light. This so-called photoelectric effect was subsequently placed on a theoretical basis by Albert Einstein in 1905. In 1889 he became Professor of Physics at the University of Bonn, where he continued to investigate the nature of electric discharges in gases at low pressure until his death after a long and painful illness. In recognition of his measurement of radio and other waves, the international unit of frequency of an oscillatory wave, the cycle per second, is now universally known as the Hertz.

[br]

Principal Honours and Distinctions

Royal Society Rumford Medal 1890.

Bibliography

Much of Hertz's work, including his 1890 paper "On the fundamental equations of electrodynamics for bodies at rest", is recorded in three collections of his papers which are available in English translations by D.E.Jones et al., namely Electric Waves (1893), Miscellaneous Papers (1896) and Principles of Mechanics (1899).

Further Reading

J.G.O'Hara and W.Pricha, 1987, Hertz and the Maxwellians, London: Peter Peregrinus. J.Hertz, 1977, Heinrich Hertz, Memoirs, Letters and Diaries, San Francisco: San Francisco Press.

R.Appleyard, 1930, Pioneers of Electrical Communication.

See also: Heaviside, Oliver

KF

TIP

1) Компьютерная техника: Texas Instruments Package, True Image Projector, trunk interface processor

2) Американизм: Three I's Of Poverty, Treasury Investment Program, Turn In Poachers

3) Спорт: Track Impact Program

4) Военный термин: TACSIM Interface Processor, Tactical Imagery Program, Tactical Impact Programs, Target Intelligence Package, Technical Information Panel, Technical Insertion Program, Technology Insertion Plan, Technology Insertion Project, Theater Intelligence Plan, Tracking and Impact Prediction, Training In Place, target identification point, target illustration print, target impact point, target input panel, technical improvement program, technical information pool, technical information program, technology integration program, terminal interface package, total information processing, track initiation and prediction, transportation improvement program, troop information program, turn-in point, телефон для связи пехоты с экипажем танка, Taking Inward Pilot

5) Техника: TACAMO improvement program, To Improve Promptness, teletype input processing, thermionic plant, transponder interrogator processor, traversing in-core probe

6) Религия: Time Is Precious

7) Юридический термин: Terminable Interest Property, Total Inmate Penetration, Turn In A Poacher

8) Биржевой термин: Targeted Investor Protection, Trade In Process, Trade In Progress, Trust Implementation Plan, Trust Investment Protection

9) Политика: Tennessee Independent Party

10) Телекоммуникации: Telecommunications Infrastructure Planning

11) Сокращение: Tailored Instruction Programme, Technical Improvement Programme, Terminal Interface message Processor, Test Integration Plan, The Institute of Physics, Track Initiation Processor, Tracking & Impact Prediction, Transit Improvement Program (USA), Treaty Implementation Plan, turbine inlet pressure, Terminal Interface Processor (replaced by TAC; ARPANET/MILNET), Theory Into Practice

12) Университет: Theories Into Practice, Turn In Problem

13) Физиология: Thylakoid Insertion Protein, Treatment Improvement Protocol

14) Электроника: Tcl Improvement Proposal

15) Вычислительная техника: Tactile Information Presentation, Transputer Image Processing, terminal interface processor, Terminal Interface Processor (ARPANET/MILNET, replaced by TAC)

16) Литература: Talk Is Power

17) Нефть: Tertiary Incentive Program

18) Транспорт: Transportation Improvement Plan, Transportation Incentive Program

19) Пищевая промышленность: Tablet Input Panel

20) СМИ: Talent Identification Program, Truth In Programming

21) Деловая лексика: Technology Information Project, Technology Infusion Project, Technology Integrated Project, Technology Integration Project, To Insure Performance, To Insure Policy, To Insure Prompt...., To Insure Promptness, Trade Industry Profession, Training In Partnership

22) Нефтегазовая техника третичная нефть, подлежащая налоговым льготам

23) Нефтепромысловый: Topside Inlet Pressure

24) Образование: Tabulation Interpretation And Placement, Transformative Intercultural Pedagogy

25) Океанография: TAO Implementation Panel

26) Авиационная медицина: face tingle

27) Расширение файла: Transaction Internet Protocol

28) Имена и фамилии: Thomas P. O'Neil

29) Должность: Talent Interest Profile

30) Чат: Technology Interest Profile

31) Аэропорты: Tripoli, Libya

32) Программное обеспечение: Tip Isn't Pico

33) СМС: To Insure Proper....

34) Международная торговля: Trade Investment Partnering

tip

1) Компьютерная техника: Texas Instruments Package, True Image Projector, trunk interface processor

2) Американизм: Three I's Of Poverty, Treasury Investment Program, Turn In Poachers

3) Спорт: Track Impact Program

4) Военный термин: TACSIM Interface Processor, Tactical Imagery Program, Tactical Impact Programs, Target Intelligence Package, Technical Information Panel, Technical Insertion Program, Technology Insertion Plan, Technology Insertion Project, Theater Intelligence Plan, Tracking and Impact Prediction, Training In Place, target identification point, target illustration print, target impact point, target input panel, technical improvement program, technical information pool, technical information program, technology integration program, terminal interface package, total information processing, track initiation and prediction, transportation improvement program, troop information program, turn-in point, телефон для связи пехоты с экипажем танка, Taking Inward Pilot

5) Техника: TACAMO improvement program, To Improve Promptness, teletype input processing, thermionic plant, transponder interrogator processor, traversing in-core probe

6) Религия: Time Is Precious

7) Юридический термин: Terminable Interest Property, Total Inmate Penetration, Turn In A Poacher

8) Биржевой термин: Targeted Investor Protection, Trade In Process, Trade In Progress, Trust Implementation Plan, Trust Investment Protection

9) Политика: Tennessee Independent Party

10) Телекоммуникации: Telecommunications Infrastructure Planning

11) Сокращение: Tailored Instruction Programme, Technical Improvement Programme, Terminal Interface message Processor, Test Integration Plan, The Institute of Physics, Track Initiation Processor, Tracking & Impact Prediction, Transit Improvement Program (USA), Treaty Implementation Plan, turbine inlet pressure, Terminal Interface Processor (replaced by TAC; ARPANET/MILNET), Theory Into Practice

12) Университет: Theories Into Practice, Turn In Problem

13) Физиология: Thylakoid Insertion Protein, Treatment Improvement Protocol

14) Электроника: Tcl Improvement Proposal

15) Вычислительная техника: Tactile Information Presentation, Transputer Image Processing, terminal interface processor, Terminal Interface Processor (ARPANET/MILNET, replaced by TAC)

16) Литература: Talk Is Power

17) Нефть: Tertiary Incentive Program

18) Транспорт: Transportation Improvement Plan, Transportation Incentive Program

19) Пищевая промышленность: Tablet Input Panel

20) СМИ: Talent Identification Program, Truth In Programming

21) Деловая лексика: Technology Information Project, Technology Infusion Project, Technology Integrated Project, Technology Integration Project, To Insure Performance, To Insure Policy, To Insure Prompt...., To Insure Promptness, Trade Industry Profession, Training In Partnership

22) Нефтегазовая техника третичная нефть, подлежащая налоговым льготам

23) Нефтепромысловый: Topside Inlet Pressure

24) Образование: Tabulation Interpretation And Placement, Transformative Intercultural Pedagogy

25) Океанография: TAO Implementation Panel

26) Авиационная медицина: face tingle

27) Расширение файла: Transaction Internet Protocol

28) Имена и фамилии: Thomas P. O'Neil

29) Должность: Talent Interest Profile

30) Чат: Technology Interest Profile

31) Аэропорты: Tripoli, Libya

32) Программное обеспечение: Tip Isn't Pico

33) СМС: To Insure Proper....

34) Международная торговля: Trade Investment Partnering

Maxwell, James Clerk

SUBJECT AREA: Chemical technology, Electricity

[br]

b. 13 June 1831 Edinburgh, Scotland

d. 5 November 1879 Cambridge, England

[br]

Scottish physicist who formulated the unified theory of electromagnetism, the kinetic theory of gases and a theory of colour.

[br]

Maxwell attended school at the Edinburgh Academy and at the age of 16 went on to study at Edinburgh University. In 1850 he entered Trinity College, Cambridge, where he graduated four years later as Second Wrangler with the award of the Smith's Prize. Two years later he was appointed Professor at Marischal College, Aberdeen, where he married the Principal's daughter. In 1860 he moved to King's College London, but on the death of his father five years later, Maxwell returned to the family home in Scotland, where he continued his researches as far as the life of a gentleman farmer allowed. This rural existence was interrupted in 1874 when he was persuaded to accept the chair of Cavendish Professor of Experimental Physics at Cambridge. Unfortunately, in 1879 he contracted the cancer that brought his brilliant career to an untimely end. While at Cambridge, Maxwell founded the Cavendish Laboratory for research in physics. A succession of distinguished physicists headed the laboratory, making it one of the world's great centres for notable discoveries in physics.

During the mid-1850s, Maxwell worked towards a theory to explain electrical and magnetic phenomena in mathematical terms, culminating in 1864 with the formulation of the fundamental equations of electromagnetism (Maxwell's equations). These equations also described the propagation of light, for he had shown that light consists of transverse electromagnetic waves in a hypothetical medium, the "ether". This great synthesis of theories uniting a wide range of phenomena is worthy to set beside those of Sir Isaac Newton and Einstein. Like all such syntheses, it led on to further discoveries. Maxwell himself had suggested that light represented only a small part of the spectrum of electromagnetic waves, and in 1888 Hertz confirmed the discovery of another small part of the spectrum, radio waves, with momentous implications for the development of telecommunication technology. Maxwell contributed to the kinetic theory of gases, which by then were viewed as consisting of a mass of randomly moving molecules colliding with each other and with the walls of the containing vessel. From 1869 Maxwell applied statistical methods to describe the molecular motion in mathematical terms. This led to a greater understanding of the behaviour of gases, with important consequences for the chemical industry.

Of more direct technological application was Maxwell's work on colour vision, begun in 1849, showing that all colours could be derived from the three primary colours, red, yellow and blue. This enabled him in 1861 to produce the first colour photograph, of a tartan. Maxwell's discoveries about colour vision were quickly taken up and led to the development of colour printing and photography.

[br]

Bibliography

Most of his technical papers are reprinted in The Scientific Papers of J.Clerk Maxwell, 1890, ed. W.D.Niven, Cambridge, 2 vols; reprinted 1952, New York.

Maxwell published several books, including Theory of Heat, 1870, London (1894, 11th edn, with notes by Lord Rayleigh) and Theory of Electricity and Magnetism, 1873, Oxford (1891, ed. J.J.Thomson, 3rd edn).

Further Reading

L.Campbell and W.Garnett, 1882, The Life of James Clerk Maxwell, London (the standard biography).

J.J.Thomson (ed.), 1931, James Clerk Maxwell 1831–1931, Cambridge. J.G.Crowther, 1932, British Scientists of the Nineteenth Century, London.

LRD

prime

I 1. adjective

1) (first or most important: the prime minister; a matter of prime importance.) prvi

2) (best: in prime condition.) odličen

2. noun

(the best part (of a person's etc life, usually early middle age): He is in his prime; the prime of life.) najboljša leta

- primary

- primarily
- primary colours
- prime minister
- prime number
- prime time 3. adjective

prime-time advertising.) v najbolj gledanem terminu

II verb

(to prepare (something) by putting something into or on it: He primed (=put gunpowder into) his gun; You must prime (=treat with primer) the wood before you paint it.) pripraviti

- primer

* * *

I [práim]

adjective ( primely adverb)

prvi, prvoten, izviren, osnoven, primaren; bistven, glaven, najvažnejši; prvorazreden, izboren, odličen; mathematics primaren (število), nedeljiv

of prime importance — največje važnosti

prime father — praoče

mathematics prime to each other — brez skupnega delilca

economy prime cost — nabavna cena

astronomy geography prime meridian — začetni (prvi) poldnevnik

prime minister — ministrski predsednik

prime season — pomlad

prime mover physics pogonska moč; technical pogonski stroj; figuratively glavno gibalo

Prime Mover — bog, višja sila

II [práim]

noun

začetek; figuratively pomlad, svitanje, mladost, cvet; višek, popolnost; jedro, srčika; economy najboljša vrsta, izbrana kvaliteta; ecclesiastic ura prve molitve; mathematics primarno število; music prima; sport prvi položaj (pri sabljanju); znak ' (unča, minuta)

prime of the day — svitanje

prime of the year — pomlad

in the prime of youth (life) — v cvetu mladosti (življenja)

in one's prime — v najboljših letih, na višku svojih moči

III [práim]

transitive verb

pripraviti (za delo); military nabiti (orožje); technical grundirati (tudi v slikarstvu); technical naliti vodo v črpalko (pred črpanjem), dovajati vodo v parni kotel, naliti bencin; aeronautics oskrbeti z gorivom; figuratively dajati navodila, podatke, instruirati (npr. pričo); slang opiti

primed military pripravljen za strel (npr. puška), slang pijan

branch

ветвь, ответвление; участок; патрубок; отдел, отделение

antiaircraft and guided missile branch — отделение зенитной артиллерии и управляемых ракет

Design and Construction branch — НАСА проектно-конструкторский отдел

Guidance and Navigation branch — НАСА отделение управления [наведения] и навигации

Manned Flight Control branch — НАСА отделение управления полётами пилотируемых КЛА

Nuclear and Plasma Physics branch — НАСА отделение ядерной физики и физики плазмы

Physics and Astrophysics branch — НАСА отделение физики и астрофизики

Programing and Data Processing branch — НАСА отделение программирования и обработки данных

Propellants and Pressurants branch — НАСА отделение ракетных топлив и вытеснительных агентов

Research Pilots branch HACA — отделение лётчиков-испытателей

Space Systems branch HACA — отделение космических систем

Space Thermodynamics branch HACA — отделение космической термодинамики

Systems and Instrumentation branch — НАСА отделение систем и приборно-измерительного оборудования

Technical Support branch HACA — отделение технического обеспечения

Vehicle and Systems Dynamics branch — НАСА отделение динамики ЛА и их систем

— Aeronautical Systems branch

— air artificer branch

— air branch

— ascending branch

— Center Services branch

— descending branch

— Financial Management branch

— flight test branch

— Industrial Support branch

— Instrument Development branch

— lower branch

— Maintenance branch

— Mission Analysis branch

— Mobility Research branch

— Operations Engineering branch

— Personnel branch

— pipe branch

— propulsion branch

— Simulation branch HACA

— Transportation branch

— upper branch