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61 moisture
влага; влажность -
62 method
метод; способсм. тж. method,method for predictionmethod of acceleration with conjugate gradientsmethod of assumed modesmethod of characteristicsmethod of dynamic causticsmethod of feasible directionsmethod of generalized coordinatesmethod of imagesmethod of linesmethod of momentsmethod of separation of variablesmethod of splittingmethod of weighted residualsaccelerometer methodacoustic methodAdams-Bashforth methodadjoint variable methodaerodynamic methodair bubbles methodALM methodanthropometric scaling methodanti-g methodanti-g protective methodassumed stress methodaugmented Lagrange multiplier methodback of the envelope methodBayesian estimation methodbirefringent coating methodBirnbaum's methodblock-bidiagonal methodBode methodboundary collocation methodboundary element methodboundary force methodboundary integral methodboundary integral equation methodboundary point methodboundary layer methodBroydon-Fletcher-Goldfarb-Shanno methodchina-clay methodClmax prediction methodCohen and Reshotko methodcollocation methodcomplex variable boundary element methodcomplex-variable methodcompliance methodconfigurational methodconjugate directions methodconstant pressure panel methodcontinuation methodcorrection storage methodcorrelation methodcycle counting methodcyclic reduction methodDavidon-Fletcher-Powell methoddeferred correction methoddescribing function methoddesign method for reliabilitydesign to constraints methoddetection methoddifference methoddifferencing methoddiscrete vortex methoddisplacement methodDorodnitsyn finite element methoddoublet lattice methoddynamic condensation methodeigenfunction expansion methodeigenvalue methodelectrical discharge methodenergy methodenergy management methodequivalent control methodequivalent linearization methodEuler methodevaluation methodexplicit-implicit methodextrapolation methodFAS methodfeedback methodfinite difference methodfinite element methodfinite element method with splittingfinite element displacement methodfinite strip methodfinite volume methodFletcher-Reeves methodflexibility methodflutter experimental methodflux-difference/splitting methodforce methodFourier transform methodfractional steps methodfractographic methodfrequency methodfrequency-domain methodfull-approximation storage methodfull-potential methodGalerkin methodGauss elimination methodGauss-Seidel methodgeneralized methodGodunov methodgrid methodharmonic balance methodhelium-bubble methodhigher order methodHorner's methodhose-drogue methodhybrid vortex methodhydrogen bubbles methodinfra-imaging methodintegral methodintegral equation methodinterferometric methodinverse methodJ-integral methodkernel-function methodKhachian's methodLagrange multiplier methodLagrangian methodLanczos methodlaser induced fluorescence methodlaser light sheet methodleast-cost methodleast-square methodleast-squares methodleast-squares estimation methodLyapunov's second methodlift-analysis methodlinear quadratic methodlinear quadratic Gaussian methodlinear regulator methodlinear quadratic regulator methodLQ methodLQG methodlumped-parameter methodMacCormack's methodMach box methodmaintenance methodmarching methodmatrix methodmaximum likelihood methodmechanized methodML methodmodel-following methodmoment methodmoving finite element methodmultisurface methodmultigrid methodmultiple grid methodMyklestad methodNavier-Stokes methodNeal-Smith analysis methodNewton's methodNewton-Raphson methodnonconservative methodnumerical methodNyquist methodoil-flow methodoperational methodPade approximant methodpanel methodpaneling methodparameter methodperturbation methodphotoelastic methodpower methodPrandtl-Munk methodprediction methodpressure-splitting methodprobabilistic methodpseudo-spectral methodpseudospectral methodpseudotransient methodquasi-Newton methodR-curve methodrainflow methodrandom decrement methodrandomdec methodRayleigh methodRayleigh-Ritz methodrecovery methodreduction methodreliability methodrigid-plastic finite-element methodrobustness enhancing methodroot-locus methodRunge-Kutta methodsawtooth methodSchlieren methodsecant methodsemianalytic methodshadowgraph methodshock-capturing methodshock-expansion methodshock-fitting methodshooting methodsimplex methodsingular perturbation methodsingular value methodsizing methodsmoke-wire methodSouthwell methodspace-marching methodsplit-coefficient methodsplit-coefficient matrix methodsplitting methodsquare root methodstate space methodsteepest-ascent methodsteepest-descent methodstiffness methodstress relaxation methodsublimation methodsubspace iteration methodsubstitutional methodsubstructure synthesis methodsubstructuring methodsuper-characteristics methodsuperelement methodsuperposition methodsurface tracer methodsynthesis methodTheodorsen methodthrust methodthrust efficient methodtime-domain methodtransfer matrix methodtransfer-function methodTrefftz`s methodtuft methodunit load methodupwind methodupwind differencing methodV-g methodvapor-screen methodvariational methodvector methodvelocity-split methodviscous/inviscid interacting methodvon Schlippe methodvortex methodvortex panel methodvortex-lattice methodWalsh-function methodweight fraction methodX-ray diffraction methodz-transform methodzonal method -
63 velocity
скорость, см. тж. rate, speed; вектор скоростиaverage jet exhaust velocity — среднее значение скорости [осредненная скорость] истечения реактивной струи
characteristic velocity required for rendezvous — потребная характеристическая скорость для обеспечения встречи (на орбите)
hyperbolic excess passage velocity — гиперболическая избыточная скорость прохождения [пролета] (планеты)
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64 Anderson, John
SUBJECT AREA: Weapons and armour[br]b. 1726 Roseneath, Dumbartonshire, Scotlandd. 13 January 1796[br]Scottish natural philosopher.[br]Born in Roseneath manse, son of the minister, he was educated after his father's death by an aunt, a Mrs Turner, to whom he later paid back the cost, and was later an officer in the corps that was raised to resist the rebellion of 1745. He studied at Glasgow, where in 1756 he became Professor of Oriental Languages and, in 1760, Professor of Natural Philosophy; he is notable for allowing artisans to attend his lectures in their working clothes. He planned the fortifications set up to defend Greenock in 1759, and was sympathetic with the French Revolution. He invented a cannon in which the recoil was counteracted by the condensation of air in the carriage. After unsuccessfully trying to interest the Government in this gun, he went to Paris in 1791 and offered it to the National Convention. While there he invented a means of smuggling French newspapers into Germany by the use of small balloons. He lost in a lawsuit with the other professors. In 1786 he published Institutes of Physics, which ran to five editions in ten years, and in 1800 he wrote on Roman antiquities. Upon his death he left all his library and apparatus to an educational institute, which was named after him but has now become the University of Strathclyde, Glasgow.[br]Bibliography1786, Institutes of Physics.Further ReadingGlasgow Mechanics' Magazine.IMcN -
65 moisture
влажность; влага; сырость
См. также в других словарях:
condensation — condensational, adj. condensative, adj. /kon den say sheuhn, deuhn /, n. 1. the act of condensing; the state of being condensed. 2. the result of being made more compact or dense. 3. reduction of a book, speech, statement, or the like, to a… … Universalium
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condensation — [ kɔ̃dɑ̃sasjɔ̃ ] n. f. • 1361; lat. imp. condensatio 1 ♦ Passage d un corps de la phase gazeuse à une des phases condensées, liquide ou solide; action de condenser. Point de condensation (cf. Point de rosée). ⇒ saturation. Condensation de la… … Encyclopédie Universelle
Condensation (aerosol dynamics) — Condensation can be summarized as a phase transition from a gas to a liquid as vapor condenses on a pre existing surface, the exact opposite of the transition from liquid to vapor which occurs in evaporation. Both condensation and evaporation are … Wikipedia
Condensation - Dynamique Des Aérosols — La condensation, dans le cas des aérosols, se produit lorsque de la vapeur se condense sur une particule, ou s’en évapore. Le phénomène de la condensation peut être résumé par la transition de phase de gazeux à liquide lorsque la vapeur se… … Wikipédia en Français
Condensation - dynamique des aerosols — Condensation dynamique des aérosols La condensation, dans le cas des aérosols, se produit lorsque de la vapeur se condense sur une particule, ou s’en évapore. Le phénomène de la condensation peut être résumé par la transition de phase de gazeux à … Wikipédia en Français
Condensation - dynamique des aérosols — La condensation, dans le cas des aérosols, se produit lorsque de la vapeur se condense sur une particule, ou s’en évapore. Le phénomène de la condensation peut être résumé par la transition de phase de gazeux à liquide lorsque la vapeur se… … Wikipédia en Français
Condensation in aerosol dynamics — Condensation can be summarized as a phase transition from a gas to a liquid as vapor condenses on a pre existing surface, the exact opposite of the transition from liquid to vapor which occurs in evaporation. Both condensation and evaporation are … Wikipedia
Air gun — Air rifle and Air pistol redirect here. For other uses, see Air gun (disambiguation) An air gun (air rifle or air pistol) is a rifle or pistol which fires projectiles by means of compressed air or other gas, (in contrast to a firearm which uses… … Wikipedia
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AIR (élément) — AIR, élément Anaximène (AIR (élément) 556 AIR (élément) 480), à la différence de Thalès, enseignait que toute substance provient de l’air (pneuma ) par raréfaction et condensation; dilaté à l’extrême, cet air devient feu; comprimé, il se… … Encyclopédie Universelle