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1 mechanical scales
Большой англо-русский и русско-английский словарь > mechanical scales
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2 mechanical scales
Англо-русский словарь технических терминов > mechanical scales
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3 mechanical scales
Техника: рычажные весы -
4 Forge scales
காய்ச்சியடிப்புச் செதில் -
5 Mill scales
மிற்செதில் -
6 scale
5) шкала7) масштаб || определять масштаб, масштабировать; изменять масштаб; сводить к определённому масштабу8) мн. ч. весы9) чашка весов10) взвешивать11) электрон. степень интеграции12) вчт. система счисления13) пищ. чешуя; чешуйка; шелуха || удалять чешую; отделяться чешуйками•at scales — в масштабе;to scale down — 1. представлять что-л. в уменьшенном масштабе 2. редуцировать, уменьшать ( изображение) 3. (пропорционально) уменьшать размеры ( элементов ИС) 4. делить на константу;to scale off — 1. выкрашиваться, крошиться (о камне, горной породе) 2. отслаивать(ся); шелушиться 3. удалять окалину 4. отбивать накипь 5. снимать [измерять\] что-л. в масштабе;to draw to scale — чертить [вычерчивать\] в масштабе;to generate a time scale — строить [создавать\] шкалу времени;to maintain a time scale — поддерживать [хранить\] шкалу времени;to mark off a scale in logarithmic units — градуировать шкалу в логарифмических единицах;to place a scale on a dial — градуировать шкалу, наносить отметки шкалы на циферблат;to realize a time scale on a dial — воспроизводить шкалу времени на циферблате часов;to retain a scale — поддерживать [хранить\] шкалу (напр. времени);to scale up — 1. представлять что-л. в увеличенном масштабе 2. увеличивать ( изображение) 3. умножать на константу;scale with central zero — шкала с нулевой отметкой посередине, двусторонняя шкала;-
absolute-temperature scale
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aligning scale
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alkali-promoted steel mill scale
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annual time scale
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antiknock rating reference fuel scale
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antiparallax mirror scale
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API hydrometer scale
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API scale
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arbitrary scale
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arc scale
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atomic scale
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atomic time scale
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atomic weight scale
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automatic weighing scales
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automatic scales
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bagging scale
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batching scales
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beam scale
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Beaufort scale
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belt conveyor scales
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bench-type scales
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binary scale
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boiler scale
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brightness scale
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calibrated divided scale
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calibration scale
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car scales
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CCT-64 scale
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Celsius scale
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centered scale
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centigrade scale
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charging scales
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chromatic scale
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chroma scale
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circular scale
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clock time scale
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colorimetric scale
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color scale
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complete number scale
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constant-interval scale
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constant-pressure gas thermometry scale
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constant-volume gas thermometry scale
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constant-volume hydrogen scale
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continuous tone density scale
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convective scale
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conventional scale
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conveyor scales
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coordinate scale
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crane scales
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Curie-temperature scale
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curved scale
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CVGT scale
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decimal scale
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depth scale
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derived scale
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dial scale
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direct-measurement scale
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direct scale
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direct-reading scale
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displacement scale
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distance scale
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divided scale
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dot gain scale
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drawn-in scale
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electronic railcar scales
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Engler scale
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equidistant scale
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expanded scale
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exposure scale
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extended scale
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Fahrenheit scale
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finely subdivided scale
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fire scale
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fish scale
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flat-disk scale
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floodlight scale
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floor scales
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focusing scale
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Forel-Ula's color scale
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Forel scale
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forklift truck scales
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frosted scale
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fuel measurement scale
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full scale
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furnace scale
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Giaque's temperature scale
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gray scale
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hardness scale
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heavy scale
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helium temperature scale
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high-temperature scale
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hopper scales
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hue scale
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hump scales
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hydrogen scale
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hydrogen temperature scale
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ideal-gas scale
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illuminated scale
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image scale
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indicating scale
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indicator scale
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industrial scales
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instrument scale
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integration scale
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intensity scale
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International Practical Temperature scale
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international scale
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Kelvin temperature scale
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light-capacity scales
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line scale
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linear scale
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line-standard scale
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logarithmic scale
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loudness scale
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low-temperature scale
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magnetic scale
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magnetic temperature scale
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magnetic-acoustic temperature scale
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magnitude scale
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margin scale
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mean-time scale
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measuring device scale
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mechanical scales
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Mercalli scale
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meter scale
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mill-roll scale
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mired scale
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mirror scale
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MM scale
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Modified Mercalli scale
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Mohs scale
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motor-truck scales
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natural scale
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Nernst hydrogen scale
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nominal scale
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nonglare scale
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nonlinear scale
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normal hydrogen scale
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normalizing scale
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number scale
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numbered scale
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octane scale
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one-meter scale
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optical scale
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ordinal scale
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overhead track scales
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overlaid scale
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packing house scales
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paper scale
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paraffin scale
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paramagnetic-salt temperature scale
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paramagnetic temperature scale
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pendulum scales
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photometric scale
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physical scale
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pipe scale
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pitless scales
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platform scales
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platinum resistance thermometer scale
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practical salinity scale
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practical scale
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precision scale
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primary scale
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primary thermometry scale
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projection scale
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provisional scale
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pyrheliographic scale
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radiation scale of temperature
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radiometric scale
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Rankine scale
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ratio scale
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reading scale
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Reaumur scale
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receiver tuning scale
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recording scales
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reduced scale
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reduction scale
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Redwood scale
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reference scale
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regular scale
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relative scale
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reproducible scale
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reproduction scale
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resistance thermometer scale
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Richter scale
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rider bar scale
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rider scale
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Rinman scale
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Rockwell hardness scale
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roll scale
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rolled-in scale
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Rossi-Forel scale
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salt-pan scale
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Saybolt scale
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scale of magnification
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scale of physical quantity
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scale of turbulence
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seasonal time scale
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secondary scale
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segmental scale
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sensitivity scale
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set-point scale
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Shore hardness scale
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sieve scale
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snow scale
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soft dot scale
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solid hydrocarbon scale
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space-time scale
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splash scale
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spring scales
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standard scale
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state of sea scale
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static scales
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straight scale
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subgrid scale
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subsynoptic scale
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synoptic scale
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table-type scales
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temper scale
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temperature scale
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thermodynamic pressure scale
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thermodynamic temperature scale
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time scale
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tone scale
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tonnage scale
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total life scale
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track scales
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transparent aligning scale
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uniform scale
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unit-weight scales
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universal-time scale
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vernier scale
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Vickers hardness scale
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water scale
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white scale
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yarn scales -
7 рычажные весы
1) General subject: balance scales2) Engineering: beam scales, mechanical scales3) Oil: mud balance (для определения удельной массы бурового раствора), mud weight balance, multiplying lever balance, beam balance4) Metrology: beam scale5) Drilling: mud scale6) Oilfield: beam-type balance7) Makarov: Westphal balance, scales -
8 рычажные весы
Большой англо-русский и русско-английский словарь > рычажные весы
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9 рычажные весы
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10 рычажные весы
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11 rider
<i&c> (on old mechanical scales) ■ Aufsetzwägestück n<i&c> ■ Reiter m ; Reiterwägestück n -
12 автоматический
1. automated2. self-sustaining3. automatical4. machine-created5. mechanicalвинтовая подача; автоматическая подача — mechanical feed
6. self-acting7. typematic8. unattended9. unmanned10. unstaffed11. unwatched12. automaticСинонимический ряд:1. машинальный (прил.) машинальный; механический2. самодействующий (прил.) самодействующий -
13 Ramsden, Jesse
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 6 October 1735 (?) Halifax, Yorkshire, Englandd. 5 November 1800 Brighton, Sussex, England[br]English instrument-maker who developed machines for accurately measuring angular and linear scales.[br]Jesse Ramsden was the son of an innkeeper but received a good general education: after attending the free school at Halifax, he was sent at the age of 12 to his uncle for further study, particularly in mathematics. At the age of 16 he was apprenticed to a cloth-worker in Halifax and on completion of the apprenticeship in 1755 he moved to London to work as a clerk in a cloth warehouse. In 1758 he became an apprentice in the workshop of a London mathematical instrument-maker named Burton. He quickly gained the skill, particularly in engraving, and by 1762 he was able to set up on his own account. He married in 1765 or 1766 the youngest daughter of the optician John Dollond FRS (1706– 61) and received a share of Dollond's patent for making achromatic lenses.Ramsden's experience and reputation increased rapidly and he was generally regarded as the leading instrument-maker of his time. He opened a shop in the Haymarket and transferred to Piccadilly in 1775. His staff increased to about sixty workers and apprentices, and by 1789 he had constructed nearly 1,000 sextants as well as theodolites, micrometers, balances, barometers, quadrants and other instruments.One of Ramsden's most important contributions to precision measurement was his development of machines for obtaining accurate division of angular and linear scales. For this work he received a premium from the Commissioners of the Board of Longitude, who published his descriptions of the machines. For the trigonometrical survey of Great Britain, initiated by General William Roy FRS (1726–90) and continued by the Board of Ordnance, Ramsden supplied a 3 ft (91 cm) theodolite and steel measuring chains, and was also engaged to check the glass tubes used to measure the fundamental base line.[br]Principal Honours and DistinctionsFRS 1786; Royal Society Copley Medal 1795. Member, Imperial Academy of St Petersburg 1794. Member, Smeatonian Society of Civil Engineers 1793.Bibliography1774, Description of a New Universal Equatorial Instrument, London; repub. 1791. 1777, Description of an Engine for Dividing Mathematical Instruments, London. 1779, Description of an Engine for Dividing Straight Lines on MathematicalInstruments, London.1779, "Description of two new micrometers", Philosophical Transactions of the Royal Society 69:419–31.1782, "A new construction of eyeglasses for such telescopes as may be applied to mathematical instruments", Philosophical Transactions of the Royal Society 73:94–99.Further ReadingR.S.Woodbury, 1961, History of the Lathe to 1850, Cleveland, Ohio; W.Steeds, 1969, A History of Machine Tools 1700–1910, Oxford (both provide a brief description of Ramsden's dividing machines).RTS -
14 automatic
1. n автоматический механизм; автоматическое устройство2. n автоматическая винтовка, автомат3. n амер. автоматический пистолет4. a автоматический автоматизированный5. a относящийся к автоматическому оружию6. a обязательный, непременныйyou will get an automatic increase in every year — каждый год вы автоматически будете получать прибавку к зарплате
7. a машинальный8. a физиол. непроизвольный; бессознательныйСинонимический ряд:1. habitual (adj.) habitual; routine2. mechanical (adj.) automated; cybernetic; laborsaving; mechanical; mechanized; motorized; perfunctory; self-acting; self-moving; self-operating; self-propelling3. spontaneous (adj.) impulsive; instinctive; involuntary; reflex; spontaneous; unconscious; uncontrollable; unmeditated; unpremeditated; unprompted; unthinking; will-lessАнтонимический ряд:conscious; deliberate; intentional; manual -
15 Donkin, Bryan I
[br]b. 22 March 1768 Sandoe, Northumberland, Englandd. 27 February 1855 London, England[br]English mechanical engineer and inventor.[br]It was intended that Bryan Donkin should follow his father's profession of surveyor and land agent, so he spent a year or so in that occupation before he was apprenticed to John Hall, millwright of Dartford, Kent. Donkin remained with the firm after completing his apprenticeship, and when the Fourdrinier brothers in 1802 introduced from France an invention for making paper in continuous lengths they turned to John Hall for help in developing the machine: Donkin was chosen to undertake the work. In 1803 the Fourdriniers established their own works in Bermondsey, with Bryan Donkin in charge. By 1808 Donkin had acquired the works, but he continued to manufacture paper-making machines, paying a royalty to the patentees. He also undertook other engineering work including water-wheels for driving paper and other mills. He was also involved in the development of printing machinery and the preservation of food in airtight containers. Some of these improvements were patented, and he also obtained patents relating to gearing, steel pens, paper-making and railway wheels. Other inventions of Bryan Donkin that were not patented concerned revolution counters and improvements in accurate screw threads for use in graduating mathematical scales. Donkin was elected a member of the Society of Arts in 1803 and was later Chairman of the Society's Committee of Mechanics and a Vice-President of the society. He was also a member of the Royal Astronomical Society. In 1818 a group of eight young men founded the Institution of Civil Engineers; two of them were apprentices of Bryan Donkin and he encouraged their enterprise. After a change in the rules permitted the election of members over the age of 35, he himself became a member in 1821. He served on the Council and became a Vice- President, but he resigned from the Institution in 1848.[br]Principal Honours and DistinctionsFRS 1838. Vice-President, Institution of Civil Engineers 1826–32, 1835–45. Member, Smeatonian Society of Civil Engineers 1835; President 1843. Society of Arts Gold Medal 1810, 1819.Further ReadingS.B.Donkin, 1949–51, "Bryan Donkin, FRS, MICE 1768–1855", Transactions of the Newcomen Society 27:85–95.RTS
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