-
41 area
1) площадь, участок, пространство2) район, область, зона; ареал3) сфера деятельности, область специализации•to contour an area — топогр. изображать рельеф местности горизонталями
-
42 board
1) доска, дощечка || дощатый2) планка; рейка3) картон(ка); обложка4) щит; плита5) панель; пульт; щит6) планшет7) настил, подмости8) стенд; доска объявлений; табло10) вчт плата, карта11) авиац., мор. борт || бортовой12) горн. широкая выработка ( в угольном пласте)13) руководящий орган, правление, совет14) контрольная форма, шаблон15) министерство16) обшивать досками17) садиться на самолёт или корабль18) полигр. переплетать книгу -
43 factor
1) фактор || факторный2) коэффициент; множитель3) показатель4) факторизовать; разлагать на множители•to reduce a fraction by a factor — приводить дробь к общему знаменателю; сокращать дробь на некоторый множитель
-
44 integral
1) интеграл || интегральный2) неотъемлемый3) суммарный4) целостный; цельный•integral taken over — интеграл по; интеграл, распространенный на
integral taken over space — интеграл по объёму, интеграл по пространственной области
integral taken round closed circuit — круговой интеграл, интеграл по замкнутому контуру
integral taken through surface — интеграл по поверхности, поверхностный интеграл
- quadruple integral - topological direct integralto take integral of — брать интеграл от, интегрировать
-
45 region
1) зона2) область3) полоса4) район5) регион6) сфера7) участок•- region of admissible deviations - region of asymptotical stability - region of determination - stable region -
46 dislocation
1. n мед. вывих; смещениеclosed dislocation — смещение, вывих
2. n геол. смещение, нарушение3. n нарушение; беспорядок; путаница, неурядица; неполадкаthe dislocation of trade caused by the blocking of the canal — нарушения в торговле, вызванные блокадой канала
4. n физ. дислокация -
47 model
1. модель; макет; образец; эталон/ модельный/ моделировать2. модель; вариант; типactuator modelactuator disk modeladvanced development modelaerodynamic modelaeroelastic modelaeroelastically scaled modelair combat modelairplane modelairplane-like modelapproach modelarrow-wing modelatmospheric modelautopilot modelautorotation modelautothrottle modelBaldwin-Lomax modelbasic modelbeam modelbeam/lumped mass modelbiomorphic modelblowing modelbody alone modelbreadboard modelcable-mounted modelcargo load modelCFD modelcombustion modelcombustion-flow modelcommand modelcompensatory modelcomposite modelcompressibility modified modelcomputer modelcone-cylinder modelcone-finned modelconical-flow modelconsistent modelconstant amplitude fatigue modelconstitutive modelcontinuous-mass modelcontinuum modelcontroller modelcorrelation modelcounter-rotation modelcrack modelcrack growth modelcrack growth retardation modelcrossover modelcumulative damage modeldamage accumulation modeldamper modeldatabase modeldeterministic modeldevelopment-type modeldifferential-game modeldiscrete modeldistributed lift modeldisturbance modeldowndraft modeldrop modelDryden modelDugdale modeldynamically scaled modeldynamics modelenergy-conservation modelengagement modelengine modelengineering development modelerror modelfailure modelfatigue modelfilament modelfine grid modelfinite element modelfixed-base modelfixed-wing modelflow modelflutter modelflutter-suppression modelfour-input/four-output modelfractional derivative modelfracture modelfree to roll modelfree-flight modelfree-flying modelfree-spinning modelfreely flying modelfrequency-domain modelfull modelfull-order modelfull-span modelfull-span wing modelgame modelgeneric modelgeometric modelgeometrically scaled modelgravity modelgravity anomaly modelgust modelhalf-plane modelhalf-wing modelhigh-fineness-ratio modelhuman operator modelidentified modelilluminated modelinfinite-blade modelinput modelinstrumented modelinverse modelisolated wing modelk-e modelk-W modelkinematic modelkinetic modellarge-scale modellead-lag pilot modellead-only pilot modellinear modellongitudinal modellower-order modellumped parameter modellumped-mass modelMach-scaled modelmagnetically suspended modelmass-and-spring modelmass-spring modelMaxwell modelmembrane and rod modelmeteorological modelmicromechanical modelMiner-Palmgren damage modelminimum phase modelmissile modelmodal modelmomentum-conserved modelmoving modelmultiaxis modelmultidegree of freedom modelmultiloop modelmultiscale modelneuromuscular modelobservation modelover-parameterized modelparabolized Navier-Stokes modelpendulation modelperformance modelperturbation modelphenomenological modelphysical modelpilot-aircraft modelpilot-vehicle modelpiston modelpitch modelpitch-plunge modelpitch-lateral-directional modelplant modelplastic modelpneumodynamic modelpowered modelpowered-lift modelprecision modelprediction modelpreview modelproduction modelproperly parameterized modelpropfan modelpropulsion modelpure gain pilot modelquantized modelquasi-static modelR&M modelradar modelradial spring modelradio control modelradio controlled modelreal-world modelreduced order modelreference modelreflectivity modelreingestion modelreplica modelreplica-type modelrocket-propelled modelroll modelrotor-body modelrotorcraft modelscale modelscaled modelscattering modelself-consistent modelsemiempirical modelsemispan modelsemispan wing modelsensitivity modelsimulation modelsingle-axis modelsingle-body modelsingle-rotation modelspectrum fatigue modelspray modelstall modelstate modelstate space modelstatistical modelstiffness modelstochastic modelstress modelstructural modelstudy modelsupersonic cruise modeltask modelterrain modelthin-jet modelthree-degree-of-a-freedom modelthree-state modelthrust modeltire modeltransfer-function modeltransparent modeltruth modeltunnel-supported modelturbulence modeltwin-body modeltwo layer turbulence modeltwo-control modeltwo-degrees-of-freedom modeltwo-equation turbulence modelunquantized modeluntuned modelusage modelV/STOL modelvaporization modelvehicle stability modelvertical dynamic modelvestibular modelviscous/inviscid modelvisual cueing modelwake modelwake/wing modelwater tunnel modelWheeler retardation modelwind-tunnel modelwindshear modelwing-canard modelwing-rotor modelwireframe modelyaw model -
48 problem
1. проблема; задача2. проблема; трудностьproblem of three bodiesaerodynamic problemaeroelastic problemaeroservoelastic problembending problembest-range problembirdstrike problemBlasius boundary layer stability problemBolza problemboundary value problemBoussinesq problembuckling problemcalculus of variations problemChebyshev problemcompressible problemconstrained problemcontact problemcontinuum problemcontrol problemcorrosion problemcoupling control problemcrack problemcross-coupling problemcross-coupling robust design problemdesign problemdeterministic problemdirect problemdiscrete variable problemdivergence problemeigenvalue problemelastic contact problemelastic torsion problemelastoplastic problemelastostatic problemengine problemengine-out problemestimation problemfatigue problemfeedback problemfixed endpoint problemFlamant problemflap-lag problemflap-lag-torsion problemflight dynamics problemflutter problemg-LOC-in-flight problemg-tolerance problemguidance problemhandling problemhardware problemhigh-order problemhigh-g problemicing problemimpact problemin-service problemincompressible problemLamb's problemlanding problemlifting surface problemlinear regulator problemlinear quadratic Gaussian problemLQG problemmaneuver problemmechanics problemminimax problemminimum time problemminimum time-to-climb problemminimum fuel problemminimum time to turn problemmulti-input multi-output problemnonself-adjoint problemnonlinear inequality-constrained problemnumerical problemoptimal control problemoptimal guidance problemoptimization problemPIO problemplane stress problempost-buckling problempursuit-evasion problemrobustness problemrotor-fuselage problemrotorcraft problemsaddle point problemsafety-of-flight problemscattering problemstability problemstall problemstatically determinate problemstepped-altitude problemstress problemSturm-Liouville problemsupersonic aircraft problemsynthesis problemtail-rotor problemtakeoff problemtargeting problemthermoelasticity problemthree-state problemtime-delay-related problemtraveling salesman problemtwist problemtwo-dimensional airfoil problemtwo-point boundary value problemunconstrained problemvariational problemvibration problemviscoelastic problemvisibility problemvisual problem -
49 surface
1.наплавлять; облицовывать; обрабатывать в поверхностном слое; доводить; обрабатывать на точный размер2.поверхность; уровеньtrue plane surface — ровная поверхность; гладкая поверхность
См. также в других словарях:
Scattering parameters — or S parameters are properties used in electrical engineering, electronics engineering, and communication systems engineering describing the electrical behavior of linear electrical networks when undergoing various steady state stimuli by small… … Wikipedia
Scattering theory — Top: the real part of a plane wave travelling upwards. Bottom: The real part of the field after inserting in the path of the plane wave a small transparent disk of index of refraction higher than the index of the surrounding medium. This object… … Wikipedia
Scattering length — The scattering length in quantum mechanics describes low energy scattering. It is represented by the term a. General concept When a slow particle scatters off a short ranged scatterer (e.g. an impurity in a solid or a heavy particle) it cannot… … Wikipedia
Scattering amplitude — The scattering amplitude describes the amplitude of an outgoing, elementary, spherical wave relative to a plane, incoming wave scattered on a point size particle. Since the spherical wave amplitude varies with frac{1}{R} (note, the intensity is… … Wikipedia
Scattering from rough surfaces — Surface roughness scattering or interface roughness scattering is the elastic scattering of a charged particle by an imperfect interface between two different materials. It is an important effect in electronic devices which contain narrow layers … Wikipedia
Multiangle light scattering — (MALS) is a technique for determining, independently, the absolute molar mass and the average size of particles in solution, by detecting how they scatter light. Collimated light from a laser source is most often used, in which case the technique … Wikipedia
Helium atom scattering — (HAS) is a surface analysis technique used in materials science. HAS provides information about the surface structure and lattice dynamics of a material by measuring the diffracted atoms from a monochromatic helium beam incident on the sample.… … Wikipedia
Thomson scattering — In physics, Thomson scattering is the scattering of electromagnetic radiation by acharged particle. The electric and magnetic components of theincident wave accelerate the particle. As it accelerates, it in turn emits radiation and thus, the wave … Wikipedia
Grazing-incidence small-angle X-ray scattering — (GISAXS) is a scattering technique most commonly done at synchrotron radiation facilities. A related technique also exists for neutron scattering (GISANS). 300px|thumb|right|Scheme 1: GISAXS scattering geometry. The incident beam strikes the… … Wikipedia
Mie scattering — Monostatic radar cross section [RCS] of a perfectly conducting metal sphere as a function of frequency (calculated by Mie theory). In the low frequency Rayleigh scattering limit where the circumference is less than the wavelength, the normalized… … Wikipedia
Carrier scattering — Defect types include atom vacancies, adatoms, steps, and kinks which occur most frequently at surfaces due to finite material size causing crystal discontinuity. What all types of defects have in common, whether they be surface or bulk, is that… … Wikipedia