-
1 vertical magnetism
Морской термин: вертикально направленное магнитное поле -
2 vertical magnetism
-
3 vertical
-
4 IVM
1) Медицина: дозревание или созревание вне организма2) Военный термин: inventory verification manual3) Сокращение: Induced Vertical Magnetism4) Расширение файла: Initial Virtual Memory -
5 log
1. буровой журнал, буровой рапорт4. разг. вращение снаряда без углубки5. pl. сведения бурового журнала— well log
* * *
1. диаграмма геофизических исследований в скважине, каротажная диаграмма || регистрировать каротажную диаграмму; проводить каротаж2. кернограмма3. журнал ( учёта или регистрации)density formation compensated log — диаграмма плотностного гамма-гамма-каротажа с компенсацией влияния скважины
induced spectral gamma-ray log — диаграмма спектроскопического гамма-активационного каротажа; диаграмма спектроскопии наведенного гамма-излучения
side-wall epithermal neutron log — диаграмма нейтронного каротажа с прижимным зондом по надтепловым нейтронам
thermal neutron decay-time log — диаграмма импульсного нейтронного каротажа по времени жизни тепловых нейтронов
— film log— flow log— test log— well log
* * *
каротажная диаграмма ( кривая), запись измерений или наблюдёний; разрез; буровой рапорт, буровой журнал; каротаж
* * *
запись измерений или наблюдений, каротажная диаграмма
* * *
1) журнал ( учёта или регистрации)2) буровой журнал; pl сведения бурового журнала, записи в буровом журнале4) каротажная диаграмма, диаграмма результатов геофизических исследований в скважине, || регистрировать каротажную диаграмму; проводить каротаж5) кернограмма7) разг. вращение снаряда без углубки•to log a well — проводить каротаж в скважине;
to log in casing — проводить каротаж в обсадной колонне;
- log of holeto run a log — регистрировать каротажную диаграмму; производить каротаж;
- acid-evaluation log
- acoustic log
- acoustic amplitude log
- acoustic character log
- acoustic transit-time log
- acoustic velocity log
- activation log
- amplitude log
- analytical well log
- answer-format synergetic log
- borehole log
- borehole compensated sonic log
- borehole televiewer log
- boring log
- caliper log
- carbonate analysis log
- cased-hole log
- casing-collar log
- casing-inspection log
- cement log
- cement-bond log
- cemotron log
- character log
- chlorine log
- collar log
- combination log
- combined log
- compatibly scaled logs
- compensated log
- compensated formation density log
- compensated neutron log
- composite log
- computed log
- computed analysis log
- computed dipmeter log
- computer-processed log
- contact log
- contact caliper log
- continuous neutron-gamma log
- continuous velocity log
- continuous well log
- conventional resistivity log
- core analysis log
- core sample log
- correlation log
- current focusing log
- density log
- density formation compensated log
- density gamma-gamma log
- depth control log
- detail log
- differential log
- differential caliper log
- dipmeter log
- directional log
- dot log
- drill log
- driller log
- drilling log
- drilling-mud log
- drilling-porosity log
- drilling-time log
- drill-pipe log
- dual induction log
- dual spacing neutron log
- electrical log
- electrical resistivity log
- electrical resistivity survey log
- electromagnetic propagation log
- electromagnetic thickness log
- electronic log
- epithermal neutron log
- equipment failure log
- equipment performance log
- equipment status log
- field log
- film log
- flow log
- fluid density log
- focused log
- focused current electrical log
- focused microresistivity log
- focused resistivity log
- focusing log
- focusing-electrode log
- formation-analysis log
- formation-density log
- formation-factor log
- formation-tester log
- fracture log
- fracture evaluation log
- fracture identification log
- free fluid log
- G-log
- gamma-gamma log
- gamma-gamma density log
- gamma-neutron log
- gamma-ray log
- graphic log
- guard electrode log
- guarded log
- geochemical well log
- hand-plotted log
- induced gamma-ray log
- induced spectral gamma-ray log
- induction log
- induction electrical log
- inspection log
- lateral log
- lithological log
- long-spaced sonic log
- macroelectrical log
- maintenance log
- metric log
- microresistivity log
- microseismogram log
- microspherically focused log
- monitor log
- mud log
- mud-analysis log
- multiple log
- natural gamma-ray log
- neutron log
- neutron-gamma log
- neutron-lifetime log
- neutron-neutron log
- neutron-thermal neutron log
- noise log
- nuclear log
- nuclear cement log
- nuclear flow log
- nuclear-magnetic log
- nuclear-magnetism log
- nuclear-magnetic resonance log
- nuclear-radiation log
- offset well logs
- open-hole log
- operation time log
- operator log
- optical film log
- oxidation-reduction potential log
- permeability profile log
- photon log
- pipe-analysis log
- porosity log
- producibility-index log
- producing log
- production log
- profile log of water injection well
- proximity log
- pulsed neutron capture log
- quick-look log
- radiation log
- radioactive log
- radioactive-tracer log
- radioactivity log
- rate-of-penetration log
- redox potential log
- reference log
- repair log
- resistance log
- resistivity log
- running log
- sample log
- scattered gamma-ray log
- side-wall log
- side-wall neutron log
- signature log
- single-point resistance log
- section gage log
- seismic log
- shothole log
- side-wall acoustic log
- side-wall epithermal neutron log
- sieve residue log
- sniffer log
- sonic log
- sonic cement bond log
- spectral gamma-ray log
- spherically focused log
- spontaneous polarization log
- spontaneous potential log
- standard log
- strip log
- sulfur log
- synthetic acoustic-impedance log
- synthetic sonic log
- temperature log
- test data log
- thermal log
- thermal decay time log
- thermal neutron decay-time log
- three-D log
- tracer log
- trouble report log
- true vertical depth log
- trumpet log
- ultralong spaced electrical log
- usable log
- variable density log
- variable intensity log
- velocity log
- velocity acoustic log
- wave train log
- well log
- well test log
- wiggle trace log
- wireline log* * *• 1) буровой журнал; 2) каротажный прибор• 1) регистрировать; 2) зарегистрированный• ГК• журнал• каротаж -
6 H
1. Boltzmann function - функция Больцмана;2. degree of hydrolysis - степень гидролиза;3. electronic countermeasures evaluator - устройство оценки угрозы радиоэлектронного подавления;4. enthalpy - энтальпия;5. exposure - фотоэкспозиция; выдержка; подвергать воздействию;6. hail - град;7. half adder - одноразрядный сумматор с двумя входами; полусумматор; сумматор по модулю;8. halt - останов;9. hardenability - прокаливаемость;10. harden - закаливать;11. hardened - закалённый;12. hardening - твердение; дисперсионное твердение;13. hardness - выносливость; жёсткость; жёсткость водного теплоносителя; закалённость; крепость; плотность; прочность; стекловидность; стойкость; суровость; твёрдость;14. hardware - аппаратное обеспечение; аппаратное оборудование; аппаратные средства; аппаратура; аппаратурное обеспечение; технические средства; техническое обеспечение;15. haze - дымка; туман; мгла;16. head - напор, высота всасывания; напорный;17. heat - теплота;18. heater - нагревательный прибор; обогреватель; радиатор; подогреватель;19. hecto-гекто...; г; 102;20. height - высота;21. helicopter - вертолет;22. helium - гелий; Не;23. henry - генри; Гн;24. high - антициклон; область высокого давления;25. highest price - наивысший курс; наивысшая цена;26. histidine - гистидин;27. hold - зафиксированный; заблокированный; хранящий информацию;28. holding - стабилизация; блокировка; хранение информации;29. home - самонаводиться; приводить;30. homing - самонаведение; привод;31. horizon - горизонт; слой;32. horizontal - горизонтальный;33. horizontal force of the earth's magnetism - горизонтальная составляющая силы земного магнетизма;34. horizontal take-off - горизонтальный старт; горизонтальный взлет;35. horizontal-vertical welding position - горизонтальное положение углового шва;36. horn - громкоговоритель рупорного типа; ость; рог; роговой отросток; рупор; шип;37. horse - лошадь;38. hose - шланг; рукав; гибкий трубопровод; влагалище; фолликула;39. hot - возбуждённый; высокорадиоактивный; горячий; жаркий; находящийся в периоде течки; находящийся под напряжением; острый; пряный; раздражённый;40. hour - час; ч;41. house - помещение; птичник; клетка; вольер; нора; берлога; гнездо;42. humidity - влажность; относительная влажность; степень влажности; сырость;43. hybrid - гибридный; комбинированный;44. hydrant - гидрант;45. hydrogen - водород;46. hydrolysis - гидролиз; степень гидролиза;47. hyperbolic - гиперболический;48. magnetic field strength - напряжённость магнитного поля;49. magnetizing force - напряжённость магнитного поля;50. Miller index - кристаллографический индекс Миллера;51. nebulous - туманная; размытая; бесформенная линия;52. nondirectional radio beacon homing - ненаправленный радиомаяк;53. Planck's constant - постоянная Планка;54. radar air-navigation system - радиолокационная аэронавигационная система;55. relative humidity - относительная влажность;56. военное обозначение устройств с головными телефонами и микротелефонными трубками;57. обозначение коэффициента передачи тепловой энергии -
7 magnetization
1. n намагничивание2. n намагниченностьСинонимический ряд:ionization (noun) affinity; combining power; elective affinity; ionization; magnetism; susceptibility; valence -
8 Guericke, Otto von
[br]b. 20 November 1602 Magdeburg, Saxony, Germanyd. 11 May 1686 Hamburg, Germany[br]German engineer and physicist, inventor of the air pump and investigator of the properties of a vacuum.[br]Guericke was born into a patrician family in Magdeburg. He was educated at the University of Leipzig in 1617–20 and at the University of Helmstedt in 1620. He then spent two years studying law at Jena, and in 1622 went to Leiden to study law, mathematics, engineering and especially fortification. He spent most of his life in politics, for he was elected an alderman of Magdeburg in 1626. After the destruction of Magdeburg in 1631, he worked in Brunswick and Erfurt as an engineer for the Swedish government, and then in 1635 for the Electorate of Saxony. He was Mayor of Magdeburg for thirty years, between 1646 and 1676. He was ennobled in 1666 and retired from public office in 168land went to Hamburg. It was through his attendances at international congresses and at princely courts that he took part in the exchange of scientific ideas.From his student days he was concerned with the definition of space and posed three questions: can empty space exist or is space always filled? How can heavenly bodies affect each other across space and how are they moved? Is space, and so also the heavenly bodies, bounded or unbounded? In c. 1647 Guericke made a suction pump for air and tried to exhaust a beer barrel, but he could not stop the leaks. He then tried a copper sphere, which imploded. He developed a series of spectacular demonstrations with his air pump. In 1654 at Rattisbon he used a vertical cylinder with a well-fitting piston connected over pulleys by a rope to fifty men, who could not stop the piston descending when the cylinder was exhausted. More famous were his copper hemispheres which, when exhausted, could not be drawn apart by two teams of eight horses. They were first demonstrated at Magdeburg in 1657 and at the court in Berlin in 1663. Through these experiments he discovered the elasticity of air and began to investigate its density at different heights. He heard of the work of Torricelli in 1653 and by 1660 had succeeded in making barometric forecasts. He published his famous work New Experiments Concerning Empty Space in 1672. Between 1660 and 1663 Guericke constructed a large ball of sulphur that could be rotated on a spindle. He found that, when he pressed his hand on it and it was rotated, it became strongly electrified; he thus unintentionally became the inventor of the first machine to generate static electricity. He attempted to reach a complete physical explanation of the world and the heavens with magnetism as a primary force and evolved an explanation for the rotation of the heavenly bodies.[br]Bibliography1672, Experimenta nova (ut vocantur) Magdeburgica de vacuo spatio (New Experiments Concerning Empty Space).Further ReadingF.W.Hoffmann, 1874, Otto von Guericke (a full biography).T.I.Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C.Black (contains a short account of his life).Chambers Concise Dictionary of Scientists, 1989, Cambridge.Dictionary of Scientific Biography, Vol. V, New York.C.Singer (ed.), 1957, A History of Technology, Vols. III and IV, Oxford University Press (includes references to Guericke's inventions).RLH
См. также в других словарях:
Deviation of the line of the vertical — deviation de vi*a tion, n. [LL. deviatio: cf. F. d[ e]viation.] 1. The act of deviating; a wandering from the way; variation from the common way, from an established rule, etc.; departure, as from the right course or the path of duty. [1913… … The Collaborative International Dictionary of English
Flinders bar — A Flinders bar is a vertical soft iron bar placed in a tube on the fore side of a compass binnacle. The Flinders bar is used to counteract the vertical magnetism inherent within a ship and is usually calibrated as part of the process known as… … Wikipedia
History of Physics — History of Physics † Catholic Encyclopedia ► History of Physics The subject will be treated under the following heads: I. A Glance at Ancient Physics; II. Science and Early Christian Scholars; III. A Glance at Arabian Physics; IV.… … Catholic encyclopedia
List of Tesla patents — Below is a list of Tesla patents. Dr. Nikola Tesla was an inventor who obtained around 300 patents [Snezana Sarbo, [http://www.tesla symp06.org/papers/Tesla Symp06 Sarboh.pdfNikola Tesla s Patents] , Sixth International Symposium Nikola Tesla,… … Wikipedia
Invention of radio — Great Radio Controversy redirects here. For the album by the band Tesla, see The Great Radio Controversy. Contents 1 Physics of wireless signalling 2 Theory of electromagnetism … Wikipedia
mechanics — /meuh kan iks/, n. 1. (used with a sing. v.) the branch of physics that deals with the action of forces on bodies and with motion, comprised of kinetics, statics, and kinematics. 2. (used with a sing. v.) the theoretical and practical application … Universalium
electromagnetic radiation — Physics. radiation consisting of electromagnetic waves, including radio waves, infrared, visible light, ultraviolet, x rays, and gamma rays. [1950 55] * * * Energy propagated through free space or through a material medium in the form of… … Universalium
Compass — This article is about the direction finding instrument used in navigation. For other uses, see Compass (disambiguation). A simple dry magnetic pocket compass … Wikipedia
Magnetoception — (or magnetoreception) is the ability to detect a magnetic field to perceive direction, altitude or location. This sense plays a role in the navigational abilities of several animal species and has been postulated as a method for animals to… … Wikipedia
History of electromagnetism — The history of electromagnetism, that is the human understanding and recorded use of electromagnetic forces, dates back over two thousand years ago, see Timeline of electromagnetism. The ancients must have been acquainted with the effects of… … Wikipedia
Magnetotactic bacteria — (or MTB) are a polyphyletic group of bacteria discovered by Richard P. Blakemore in 1975, that orient along the magnetic field lines of Earth s magnetic field. To perform this task, these bacteria have organelles called magnetosomes that contain… … Wikipedia