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1 elementary landscape
<01> элементарный ландшафтАнгло-русский геоэкологический словарь > elementary landscape
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2 elementary landscape
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3 elementary landscape
1) Лесоводство: элементарный ландшафт (наименьший природно-территориальный комплекс, соответствующий географической фации или биогеоценозу)2) Экология: элементарный ландшафт -
4 elementary landscape
Англо-русский сельскохозяйственный словарь > elementary landscape
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5 elementary landscape
Англо-русский словарь по деревообрабатывающей промышленности > elementary landscape
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6 элементарный ландшафт
Русско-английский словарь по деревообрабатывающей промышленности > элементарный ландшафт
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7 элементарный ландшафт
Русско-английский экологический словарь > элементарный ландшафт
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8 элементарный ландшафт
1) General subject: landscape facies2) Forestry: elementary landscape (наименьший природно-территориальный комплекс, соответствующий географической фации или биогеоценозу)3) Ecology: elementary landscape4) Soil science: elemental landscape, primary landscapeУниверсальный русско-английский словарь > элементарный ландшафт
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9 mode
1) модаа) нормальный тип колебаний, собственный тип колебаний; нормальный тип волн, собственный тип волн3) способ; метод4) тип; форма ( выражения или проявления чего-либо)6) ак. лад; тональность•- π-mode- 1284 compliance mode
- 32-bit mode
- 32-bit transfer mode
- 8086 real mode
- accelerated transit mode
- accumulation-layer mode
- acoustic mode
- active mode
- address mode
- adjacent modes
- all points addressable mode
- alpha mode
- alphanumeric mode
- alternate mode
- AN mode
- analog mode
- angular dependent mode
- angular mode
- anomalous mode
- answer mode
- antiferrodistortive mode
- antiferromagnetic mode
- anti-Stokes mode
- antisymmetric mode
- APA mode
- aperiodic mode
- asymmetric mode
- asynchronous balanced mode
- asynchronous response mode
- asynchronous transfer mode
- auto-answer mode
- auto-dial mode
- avalanche mode
- axial mode
- background mode
- backward mode
- beam mode
- beam-waveguide mode
- Bi-Di mode
- bidirectional mode
- BIOS video mode
- birefringent mode
- bistable mode
- bitmap mode
- black-and-white mode
- block mode
- block-multiplex mode
- blow-up mode
- browse mode
- burst mode
- byte mode
- calculator mode
- central mode
- characteristic mode
- chat mode
- chip test mode
- CHS mode
- circle-dot mode
- circular mode
- circularly polarized mode
- circularly symmetric mode
- clockwise mode
- CMY mode
- CMYK mode
- collective modes
- color mode
- command mode
- common mode
- communications mode
- compatibility mode
- competing modes
- concert hall reverberation mode
- configuration mode
- constant-frequency mode
- contention mode
- continuous-wave mode
- contour modes
- control mode
- conversational mode
- cooked mode
- correlator mode
- counter mode
- counterclockwise mode
- coupled modes
- crossover mode
- current mode
- cutoff mode
- cw mode
- cyclotron mode
- cylinder-head-sector mode
- damped mode
- data-in mode
- data-out mode
- Debye mode
- Debye-like mode
- defocus-dash mode
- defocus-focus mode
- degenerate mode
- delayed domain mode
- depletion mode
- deposition mode
- difference mode
- differential mode
- diffusive mode
- digital mode
- dipole mode
- direct memory access transfer mode
- disk-at-once mode
- display mode
- dissymmetric mode
- DMA transfer mode
- domain mode
- dominant mode
- dot-addressable mode
- dot-dash mode
- doze mode
- draft mode
- drift mode
- ducted mode
- duotone mode
- duplex mode
- dynamic mode
- dynamic scattering mode
- E mode
- Emn mode
- ECHS mode
- ECP mode
- edge mode
- edit mode
- eigen mode
- electromagnetic mode
- elementary mode
- elliptically polarized mode
- embedded mode
- end-fire mode
- enhanced parallel port mode
- enhanced virtual 8086 mode
- enhanced virtual 86 mode
- enhancement mode
- EPP mode
- equiamplitude modes
- EV8086 mode
- EV86 mode
- evanescent mode
- even mode
- even-order mode
- even-symmetrical mode
- exchange mode
- exchange-dominated mode
- excited mode
- exciting mode
- extended capability port mode
- extended cylinder-head-sector mode
- extensional mode
- extraordinary mode
- FA mode
- face shear modes
- failure mode
- fast mode
- fast-forward mode
- ferrite-air mode
- ferrite-dielectric mode
- ferrite-guided mode
- ferrite-metal mode
- ferrodistortive mode
- ferroelectric mode
- file mode
- first mode
- FM mode
- forbidden mode
- force mode
- foreground mode
- forward mode
- forward-bias mode
- forward-propagating mode
- forward-scattered mode
- four-color mode
- four-output mode
- free-running mode
- full on mode
- fundamental mode
- gate mode
- Gaussian mode
- Goldstone mode
- graphic display mode
- graphic mode
- gray-level mode
- grayscale mode
- guided mode
- guided-wave mode
- Gunn mode
- gyromagnetic mode
- H mode
- Hmn mode
- half-duplex mode
- half-tone mode
- hard mode
- harmonic mode
- helicon mode
- Hermite-Gaussian mode
- higher mode
- higher-order mode
- HLS mode
- HSB mode
- HSV mode
- hybrid mode
- idling mode
- impact avalanche transit-time mode
- IMPATT mode
- indexed color mode
- inhibited domain mode
- initialization mode
- injection locked mode
- insert mode
- interactive mode
- internally-trapped mode
- interstitial diffusion mode
- ion-implantation channel mode
- ion-sound mode
- kernel mode
- kiosk mode
- L*a*b* mode
- landscape mode
- large disk mode
- lasing mode
- lattice mode
- laying mode
- LBA mode
- LCH mode
- leaky mode
- left-hand polarized mode
- left-handed polarized mode
- length modes
- letter mode
- LH mode
- limited space-charge accumulation mode
- line art mode
- local mode
- lock mode
- logical block addressing mode
- log-periodically coupled modes
- longitudinal mode
- loopback mode
- lowest mode
- lowest-order mode
- low-power mode
- LSA mode
- magnetic mode
- magnetodynamical mode
- magnetoelastic mode
- magnetosonic mode
- magnetostatic mode
- magnetron mode
- main mode
- masing mode
- master/slave mode
- mixed mode
- mode of excitation
- mode of operation
- modified semistatic mode
- modulated transit-time mode
- module test mode
- mono mode
- mono/stereo mode
- monopulse mode
- moving-target indication mode
- MTI mode
- multi mode
- multichannel mode
- multimode mode
- multiple sector mode
- multiplex mode
- mutual orthogonal modes
- native mode
- natural mode
- near-letter mode
- nibble mode
- nondegenerated mode
- non-privileged mode
- nonpropagating mode
- nonresonant mode
- nonuniform processional mode
- normal mode
- normal-incidence mode
- odd mode
- odd-order mode
- odd-symmetrical mode
- off mode
- off-axial mode
- off-line mode
- omni mode
- on mode
- on-line mode
- operation mode
- optical mode
- ordinary mode
- original mode
- originate mode
- orthogonal modes
- OS/2 compatible mode
- overdamped mode
- overtype mode
- packet mode
- packet transfer mode
- page mode
- parallel port FIFO mode
- parametric mode
- parasitic mode
- pedestal-current stabilized mode
- penetration mode
- persistent-current mode
- perturbated mode
- phonon mode
- pi mode
- PIO mode
- plane mode
- plane polarized mode
- plasma mode
- plasma-guide mode
- playback mode
- polarized mode
- poly mode
- portrait mode
- preferred mode
- principal mode
- privileged mode
- programmed input/output mode
- promiscuous mode
- protected mode
- protected virtual address mode
- proton mode
- pseudo-Rayleigh mode
- pseudospin mode
- pseudospin-wave mode
- pulse mode
- quadrupole mode
- quadtone mode
- quasi-degenerated mode
- quenched domain mode
- quenched multiple-domain mode
- quenched single-domain mode
- question-and-answer mode
- radial mode
- radiating mode
- radiation mode
- Raman active mode
- ranging mode
- rare mode
- raw mode
- RB mode
- read multiple mode
- read-mostly mode
- real address mode
- real mode
- real-time mode
- receive mode
- reflected mode
- reflection mode
- refracted mode
- rehearse mode
- relaxational mode
- resonant mode
- return-beam mode
- reverberation mode
- reverse-bias mode
- rewind mode
- RGB mode
- RH mode
- rho-rho mode
- right-hand polarized mode
- right-handed polarized mode
- safe mode
- saturated-off mode of operation
- saturation mode
- saving mode
- scan mode
- search mode
- secondary-emission pedestal mode
- second-breakdown mode
- self-localized mode
- self-locked mode
- semistatic mode
- shear mode
- shutdown mode
- side modes
- simplex mode
- single mode
- single-vortex cycle mode
- slave mode
- sleep mode
- slow mode
- small room reverberation mode
- soft mode
- softened mode
- sorcerer's apprentice mode
- space-charge feedback mode
- space-charge mode
- spatially orthogonal modes
- special fully nested mode
- spiking mode
- spin mode
- spin-wave mode
- SPP mode
- spurious mode
- spurious pulse mode
- stable mode
- stable-negative-resistance mode
- standard parallel port mode - stationary mode
- Stokes mode
- stop clock mode
- stop mode
- stream mode
- subharmonic mode
- substitutional-diffusion mode
- subsurface mode
- sum mode
- superradiant mode
- supervisor mode
- surface skimming mode
- surface-wave mode
- suspend mode
- SVGA mode
- switching mode
- symmetric mode
- symmetry breaking mode
- symmetry restoring mode
- system management mode
- system test mode
- Tmnp wave resonant mode
- task mode
- TE mode
- TEmnp wave resonant mode
- tearing mode
- telegraph mode
- TEM mode
- terminal mode
- test mode
- text mode
- thermal mode
- thickness modes
- three-color mode
- through mode
- time-difference mode
- time-sharing mode
- TM mode
- TMmnp wave resonant mode
- torsional modes
- total-internal reflection mode
- track-at-once mode
- transfer mode
- transient mode
- transit-time domain mode
- transit-time mode
- transmission mode
- transmitted mode
- transmitting mode
- transverse electric mode
- transverse electromagnetic mode
- transverse magnetic mode
- transverse mode
- transversely polarized mode
- transverse-symmetrical mode
- TRAPATT mode
- trapped mode
- trapped plasma avalanche transit-time mode
- trapped-domain mode
- traveling space-charge mode
- traveling-wave mode
- tristate test mode
- tritone mode
- truncated mode
- twist mode
- twisted nematic mode
- TXT mode
- typeover mode
- uncoupled modes
- undamped mode
- underdamped mode
- unguided mode
- unidirectional mode
- unilateral mode
- unperturbed mode
- unreal mode
- unstable mode
- unwanted mode
- user mode
- V8086 mode
- V86 mode
- VGA mode
- vibration mode
- video mode
- virtual 8086 mode
- virtual 86 mode
- virtual real mode
- volume magnetostatic mode
- wait for key mode
- waiting mode
- Walker mode
- walk-off mode
- wave mode
- waveguide mode
- whispering-gallery mode
- whistler mode
- width modes
- write mode
- write multiple mode
- zero-frequency mode
- zero-order modeThe New English-Russian Dictionary of Radio-electronics > mode
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10 design
1) дизайн; конструкция2) замысел, план; проект, проектное решение3) конструирование; проектирование || конструировать; проектировать4) конструкция5) рисунок, эскиз, набросок || делать рисунок, эскиз, набросок7) чертёж8) расчёт || рассчитывать• -
11 Nasmyth, James Hall
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 19 August 1808 Edinburgh, Scotlandd. 7 May 1890 London, England[br]Scottish mechanical engineer and inventor of the steam-hammer.[br]James Nasmyth was the youngest son of Alexander Nasmyth (1758–1840), the portrait and landscape painter. According to his autobiography he was named James Hall after his father's friend, the geologist Sir James Hall (1761–1832), but he seems never to have used his second name in official documents. He received an elementary education at Edinburgh High School, but left at the age of 12. He attended evening classes at the Edinburgh School of Arts for the instruction of Mechanics between 1821 and 1825, and gained experience as a mechanic at an early age in his father's workshop. He shared these early experiences with his brother George, who was only a year or so older, and in the 1820s the brothers built several model steam engines and a steam-carriage capable of carrying eight passengers on the public roads. In 1829 Nasmyth obtained a position in London as personal assistant to Henry Maudslay, and after Maudslay's death in February 1831 he remained with Maudslay's partner, Joshua Field, for a short time. He then returned to Edinburgh, where he and his brother George started in a small way as general engineers. In 1834 they moved to a small workshop in Manchester, and in 1836, with the aid of financial backing from some Manchester businessmen, they established on a site at Patricroft, a few miles from the city, the works which became known as the Bridgewater Foundry. They were soon joined by a third partner, Holbrook Gaskell (1813–1909), who looked after the administration of the business, the firm then being known as Nasmyths Gaskell \& Co. They specialized in making machine tools, and Nasmyth invented many improvements so that they soon became one of the leading manufacturers in this field. They also made steam locomotives for the rapidly developing railways. James Nasmyth's best-known invention was the steam-hammer, which dates from 1839 but was not patented until 1842. The self-acting control gear was probably the work of Robert Wilson and ensured the commercial success of the invention. George Nasmyth resigned from the partnership in 1843 and in 1850 Gaskell also resigned, after which the firm continued as James Nasmyth \& Co. James Nasmyth himself retired at the end of 1856 and went to live at Penshurst, Kent, in a house which he named "Hammerfield" where he devoted his time mainly to his hobby of astronomy. Robert Wilson returned to become Managing Partner of the firm, which later became Nasmyth, Wilson \& Co. and retained that style until its closure in 1940. Nasmyth's claim to be the sole inventor of the steam-hammer has been disputed, but his patent of 1842 was not challenged and the fourteen-year monopoly ensured the prosperity of the business so that he was able to retire at the age of 48. At his death in 1890 he left an estate valued at £243,805.[br]Bibliography1874, with J.Carpenter, The Moon Considered as a Planet, a World, and a Satellite, London.1883, Autobiography, ed. Samuel Smiles, London.Further ReadingR.Wailes, 1963, "James Nasmyth—Artist's Son", Engineering Heritage, vol. I, London, 106–11 (a short account).J.A.Cantrell, 1984, James Nasmyth and the Bridgewater Foundry: A Study of Entrepreneurship in the Early Engineering Industry, Manchester (a full-length critical study).——1984–5, "James Nasmyth and the steam hammer", Transactions of the Newcomen Society 56:133–8.RTS
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