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101 test
1) замер2) испытание; испытания || испытывать; исследовать3) стат. критерий4) обнаружение; определение5) опробывание6) опыт; эксперимент7) признак8) проба || пробовать9) проверка || проверять10) тест || тестовый11) пробный•test for uniformity — мат. критерий равномерности
test for trend — мат. проверка на тренд
test for singularity — мат. критерий особенности
test for regression — мат. проверка на наличие регрессии
test for randomness — мат. критерий случайности
test for primality — мат. признак простоты (числа)
test for optimality — мат. критерий оптимальности
test for nonadditivity — мат. признак неаддитивности
test for minimum — мат. проверка на минимум
test for interaction — мат. критерий взаимодействия
test for exponentiality — мат. критерий экспоненциальности
test for ergodicity — мат. критерий эргодичности
test for divisibility — мат. признак делимости
test for definiteness — мат. критерий определённости
test for convergence — мат. критерий сходимости
test for concordance — мат. критерий согласия
test for casualty — мат. критерий обусловленности
- asymptotically efficient test - asymptotically minimax test - asymptotically most powerful rank test - asymptotically optimum test - asymptotically robust test - asymptotically unbiased test - double-tailed testto make test — стат. строить критерий (напр., для проверки значимости отклонений)
- fat test- general test for homogeneity- jet test- locally unbiased test - multiple comparison test - multiple ranking test - normal scores test - one-tailed test - probability ratio test - process normality test - single-tailed test - statistically valid test - test for goodness of fit - test for homogeneity of means - test for homogeneity of variances - test for nonsphericalness of disturbances - test for significant changes - test for uniform convergence - test hypothesis with experiment - uniformly asymptotically efficient test - uniformly best test - uniformly consistent test -
102 M
1) Общая лексика: ремонтопригодность (maintainability), тысяча (в системе римских цифр)2) Биология: heat, height, membrane, methionine, miscellaneous, mucoid, muscular3) Разговорное выражение: (-size) эмка (размер одежды)4) Американизм: Mediocre5) Военный термин: Mach, Mandatory, Maneuver, Maxim, Mechanized, Mission, magazine, maintainability, maintenance, map, mark, marker, marshal, mask, material, materiel, measure, mechanic, mechanism, memorandum, memory, message, messenger, meteorology, microfilm, microphone, mil, military, militia, mine, minesweeper, missing, mobile, mobilization, model, module, mortar, motor, mounted, movement, munition, mustard, военный воздушный транспорт, воинские воздушные перевозки, движущаяся цель, самолёт-ракетоносец, средняя квадратическая погрешность, Mega (Million), mobility6) Техника: bending moment, intensity of magnetic polarization, magnetic moment, magnetic quantum number, make, marker beacon, maxwell, megabyte, mesa, mesomeric effect, metering, micro, moderate, modulation, modulation factor, modulator, molar concentration, molecular magnetic rotary power, molecular rotary power, moraine, mother, mother spacecraft, mountain, multiplexer, nautical mile, order of spectrum, slope of equilibrium curve8) Химия: Molecular10) Религия: Matthew12) Бухгалтерия: Making13) Биржевой термин: Mutual14) Грубое выражение: Motherfucker15) Кино: Mature16) Оптика: magnification17) Сокращение: Malaysia, March, Marquess, Marquis, May, Miniatures, Monday, Monsieur, Moslem, magnetic, medical, medicine, member, meridian, metropolitan, minimum acceptable reliability, moment, motorway, muscle, мужчина, понедельник, Time zone 172. 5 E-180 E (GMT -12), Mega (million), mega - (million), Mike (phonetic alphabet), mach (speed of sound), Messier catalog, midnight, monoclonal, Maturity (кредитование)18) Университет: Engineering19) Физика: Magic21) Электроника: Magnetron23) Вычислительная техника: Mega - (metric 10^6)24) Нефть: & FP maximum and final pressure, a M-N crossplot parameter, magnetization, magnitude, marginal allowable, metacenter, mobility ratio, molal, mudstone, slope of interval transit time vs density, thousand, техническое обслуживание (maintainability)25) Генетика: метионин26) Биохимия: молей на литр ( моль/л)27) Космонавтика: Mira29) Фирменный знак: Microsoft30) СМИ: Multimedia32) Бурение: член общества (member), меридиан (meridian), модуль (module)33) Глоссарий компании Сахалин Энерджи: US dollars million \<-\> млн. долл. США, magnitude (earthquake measured on Richter scale), mega (metric prefix meaning 1 x 1,000,000 [one million]), тысяч (в нефтегазовой отрасли), мониторинг (ПКК)34) Образование: Motivation35) Сетевые технологии: master36) Полимеры: mechanical, mega, modulus, mol, molality, molarity, molecular weight, monovalent37) Контроль качества: maintenance ratio, of E maintenance of equipment, Markov (ian)38) Расширение файла: Maple Common binary file, Matlab M-file Function and commands, Miranda programming language Script file, Macro module (Brief), Objective-C language source code file (gcc)39) Электрохимия: mole, г моль, грамм-молекула41) Электротехника: m42) США: Michigan43) Должность: Maiden, Man, Manservant, Mathematics, Music44) НАСА: Mars46) Международные перевозки: minimum (rate classification) -
103 m
1) Общая лексика: ремонтопригодность (maintainability), тысяча (в системе римских цифр)2) Биология: heat, height, membrane, methionine, miscellaneous, mucoid, muscular3) Разговорное выражение: (-size) эмка (размер одежды)4) Американизм: Mediocre5) Военный термин: Mach, Mandatory, Maneuver, Maxim, Mechanized, Mission, magazine, maintainability, maintenance, map, mark, marker, marshal, mask, material, materiel, measure, mechanic, mechanism, memorandum, memory, message, messenger, meteorology, microfilm, microphone, mil, military, militia, mine, minesweeper, missing, mobile, mobilization, model, module, mortar, motor, mounted, movement, munition, mustard, военный воздушный транспорт, воинские воздушные перевозки, движущаяся цель, самолёт-ракетоносец, средняя квадратическая погрешность, Mega (Million), mobility6) Техника: bending moment, intensity of magnetic polarization, magnetic moment, magnetic quantum number, make, marker beacon, maxwell, megabyte, mesa, mesomeric effect, metering, micro, moderate, modulation, modulation factor, modulator, molar concentration, molecular magnetic rotary power, molecular rotary power, moraine, mother, mother spacecraft, mountain, multiplexer, nautical mile, order of spectrum, slope of equilibrium curve8) Химия: Molecular10) Религия: Matthew12) Бухгалтерия: Making13) Биржевой термин: Mutual14) Грубое выражение: Motherfucker15) Кино: Mature16) Оптика: magnification17) Сокращение: Malaysia, March, Marquess, Marquis, May, Miniatures, Monday, Monsieur, Moslem, magnetic, medical, medicine, member, meridian, metropolitan, minimum acceptable reliability, moment, motorway, muscle, мужчина, понедельник, Time zone 172. 5 E-180 E (GMT -12), Mega (million), mega - (million), Mike (phonetic alphabet), mach (speed of sound), Messier catalog, midnight, monoclonal, Maturity (кредитование)18) Университет: Engineering19) Физика: Magic21) Электроника: Magnetron23) Вычислительная техника: Mega - (metric 10^6)24) Нефть: & FP maximum and final pressure, a M-N crossplot parameter, magnetization, magnitude, marginal allowable, metacenter, mobility ratio, molal, mudstone, slope of interval transit time vs density, thousand, техническое обслуживание (maintainability)25) Генетика: метионин26) Биохимия: молей на литр ( моль/л)27) Космонавтика: Mira29) Фирменный знак: Microsoft30) СМИ: Multimedia32) Бурение: член общества (member), меридиан (meridian), модуль (module)33) Глоссарий компании Сахалин Энерджи: US dollars million \<-\> млн. долл. США, magnitude (earthquake measured on Richter scale), mega (metric prefix meaning 1 x 1,000,000 [one million]), тысяч (в нефтегазовой отрасли), мониторинг (ПКК)34) Образование: Motivation35) Сетевые технологии: master36) Полимеры: mechanical, mega, modulus, mol, molality, molarity, molecular weight, monovalent37) Контроль качества: maintenance ratio, of E maintenance of equipment, Markov (ian)38) Расширение файла: Maple Common binary file, Matlab M-file Function and commands, Miranda programming language Script file, Macro module (Brief), Objective-C language source code file (gcc)39) Электрохимия: mole, г моль, грамм-молекула41) Электротехника: m42) США: Michigan43) Должность: Maiden, Man, Manservant, Mathematics, Music44) НАСА: Mars46) Международные перевозки: minimum (rate classification) -
104 всего лишь
•While the life of components in orbit may be as low as a few days, quick passage through the radiation belt has little effect.
•The orbital periods of these stars can be as short as a few years.
•In this case a total of 200 shots is all that can be expected.
•Ethane theoretically possesses an indefinite number of conformations; however if..., there are but two significant conformations.
•Other embryonic movements are no more than (or are mere) preludes to adult behaviour.
•The factor leads to nothing more than a decrease in scattering and therefore is generally ignored.
•The innermost portion of the ring is a mere 7,000 miles above Saturn's face.
•A stationary electron in a uniform magnetic field has just two distinct energy levels.
•Tool-changing time can be as little as two seconds.
•Such a backup system can operate for weeks on as few as three or four "penlight" batteries.
•Scale differences of only 1 -2% can cause a loss of...
Русско-английский научно-технический словарь переводчика > всего лишь
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105 всего лишь
•While the life of components in orbit may be as low as a few days, quick passage through the radiation belt has little effect.
•The orbital periods of these stars can be as short as a few years.
•In this case a total of 200 shots is all that can be expected.
•Ethane theoretically possesses an indefinite number of conformations; however if..., there are but two significant conformations.
•Other embryonic movements are no more than (or are mere) preludes to adult behaviour.
•The factor leads to nothing more than a decrease in scattering and therefore is generally ignored.
•The innermost portion of the ring is a mere 7,000 miles above Saturn's face.
•A stationary electron in a uniform magnetic field has just two distinct energy levels.
•Tool-changing time can be as little as two seconds.
•Such a backup system can operate for weeks on as few as three or four "penlight" batteries.
•Scale differences of only 1 -2% can cause a loss of...
Русско-английский научно-технический словарь переводчика > всего лишь
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106 относиться к
. все, кого это касается; к ним относится; касаться; не относящийся к; охватывать; падать на; равным образом; распространяться на; справедлив для; это особенно относится к случаям, когда когда•Evidently Einstein's restriction should not apply to this wave.
•The laboratory rules are concerned with noncritical operations.
•The following rules of centrifugal machines hold true for all centrifugal pumps.
•Henry's Law refers only to the effect of pressure.
•Faraday's laws relate to the electrolysis of solutions and fused salts.
•The term "computer-aided engineering" refers to a "total" system concept, in which...
•The result is only appropriate for a finite time interval which is undetermined as yet.
•The above example pertains to the diffusion of liquids.
•The result applies (or refers, or relates) to mass transfer from plate to fluid, or fluid to plate.
•The book deals with (or treats on) distillation.
•Another question has to do with diseases arising from dietary deficiencies.
•This will be true for (or of) very high electric fields.
•Lines la and 2a apply to a 47-microfarad, 35-volt polar capacitor.
•The term caisson covers a wide range of foundation structures.
•Similar considerations hold for emitting molecules.
•This is particularly true in humid regions.
•These properties are not pertinent to the problem at hand.
•This is especially the case with wide armature cores.
•The differences are a matter of degree rather than of type.
•These terms are related to certain atomic groupings.
•The discoveries concern the properties of electric charges.
•This discussion has so far concerned itself with the experimental results obtained.
•The common names isobutane and isopentane apply to those isomers having...
•The third factor concerns the bulky nature of...
•The most significant developments of that period centred around the field of communications.
II•The basic principle of the device dates from (or back to) the 15th century.
•The first trials go back to 1912.
•These mummies are dated to 2800 B.C.
•Most abrasive materials fall in the region at the top of the scale.
•All the above forces fall in(to) this category.
•All forms of anemia fall into two main types.
•The discussion of pseudovectors belongs to the domain of the tensor calculus.
IV•Mathematical biophysics stands in the same relation to experimental biology as mathematical physics to experimental physics.
Русско-английский научно-технический словарь переводчика > относиться к
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107 forhold
sg - fórholdet, pl - fórhold1) соотноше́ние с, пропо́рция жi fórhold til... — по сравне́нию с...
2) ( взаимо)отноше́ния мн; связь ж3) обстоя́тельства мнde nǽrmere fórhold — подро́бности мн
únder sǻdanne fórhold — при да́нных обстоя́тельствах
* * *circumstance, condition, factor, proportion, ratio, relationship* * *(et -)(især pl: tilstand, vilkår) conditions ( fx conditions in Denmark, social conditions), circumstances ( fx under the presentcircumstances); state of things ( fx the present state of things makes it impossible); situation ( fx the situation has changed);( målestoksforhold) scale;( proportion) proportion ( fx the proportion between Blacks and Whites in the population);( fordelingsforhold) ratio ( fx in the ratio of 2 to 3; share the profits in an agreed ratio);( forbindelse) relations ( fx between two countries, between parents and children, between Blacks and Whites); relationship ( fx between mother and child; it developed into a lasting relationship);( foreteelse, fænomen) phenomenon (pl phenomena), matter;( omstændighed) fact, circumstance ( fx I did not know of this fact (el.circumstance));[ forholdet er det at] the fact is that;( anklagepunkt) count ( fx he was found guilty on all counts);[ forholdene] matters, things, conditions, (the state of) affairs;[ de faktiske forhold] the facts;[ forb med (vb +) præp:][ efter den tids forhold] by the standards of that time;[ forholdet mellem årsag og virkning] the relation between cause and effect;[ hans forhold til sine overordnede (, sin familie)] his relations (el.relationship) with his superiors (, his family);[ få et naturligt forhold til] form a natural relationship with ( fx the opposite sex);( erotisk) have an affair with,(se også ndf: stå i forhold til);[få (, have) et afslappet forhold til](fx spiritus) develop (, have) a relaxed attitude to ( fx alcohol);[ have et godt forhold til] be on good (el. friendly) terms with;[ i forhold til] in proportion to, proportional to;( sammenlignet med) (as) compared with, on ( fx prices are now up 10% on last year); to ( fx it is nothing to what I have seen);[ stå i forhold til en kvinde] have sexual relations with a woman;[ hans held stod ikke i forhold til hans evner] his success was out of all proportion to his abilities;( i passende forhold til) proportion to ( fx proportion the reward to the work done);[ under de forhold] under those circumstances. -
108 exposure
nCINEMAT, PHOTO, PHYS, PRINT, TV exposición f -
109 rate
скорость имя существительное:пропорция (proportion, ratio, rate)глагол:тарифицировать (tariff, rate)ставить оценку (rate, grade) -
110 rates
ставки имя существительное:пропорция (proportion, ratio, rate)глагол:тарифицировать (tariff, rate)ставить оценку (rate, grade) -
111 load
нагрузка; груз; загрузка; заряд; тяжесть; ноша; загруженность (количество работы); закладка (заготовки в станок); pl. гружёные вагонетки; II грузить; нагружать; загружать; закладывать (деталь в приспособление); заряжать- load at first crack - load carrying capacity - load-carrying covering - load-carrying skin - load curve - load-deflection curve - load deflection of tyre - load-deformation curve - load diversity - load due to own weight - load due to snow - load due to wind - load extension curve - load increment - load-inflation table - load limit - load on axle - load out - load peak - load per unit - load per unit length - load rate - load-supporting ability of ground - load-strain diagram - load tension - load test - load testing of structures - load-time diagram - load to collapse - load-transfer device - load uniformly distributed over span - load-up - load-up condition - at no load - acting load - active load - actual load - apex load - artificial load - assumed load - asymmetric load - attach a sling to the load - bulky load - cable load - capacitive load - capacity load - carousel load - carry a load - centre-point load - centric load - centrifugal load - cantilever load - constant power load - constant torque load - dead-line load - drawbar load - dynamical load - elastic-limit load - emergency load - endurance limit load - equalization of load at conveyer pulleys - equalization of load at hoisting drums - equivalent load - extra load - fail under a load - fail under an impact load - failure load - fictitious load - filter load - frictional load - gravity load - gripper load - heaped load - heating load - heavy load - high friction load - high inertial load - hydrodynamic load - hydrostatic load - ice load - lateral load - locking load - machine load - maximum load - maximum useful load on table - midspan load - minimum load - miscellaneous load - mobile load - momentary load - most efficient load - movable load - moving load - multiaxial loads - near-ultimate load - net load - no-load - nominal load - non-central load - noncutting load - normal load - oblique load - off-center load - off-design load - operate at no-load - operating load - optimally load - optimum work load - oscillating load - out-of-balance load - outer load - outer ring load - overhauling load - overhung load - over-tolerance load - palletized work load - panel load - parabolic load - part load - pay load - paying load - peak load - permanent load - permanently acting load - permissible load - perpendicular load - pick-up load - piezoelectric load - point load - pollutant load - pollutional load - potential order load - predetermined maximum cutting load - pressure load - production load - proof load - proportional limit load - pulling load - pulsating load - punch load - quiescent load - racking load - radial load - rapidly moving load - rated load - rated load capacity - react a load - reactive load - release the load - repeated load - resist load - return load - reversal load - reversed load - rolling load - roof load - rotating inner ring load - rotating outer ring load - safe load - safe bearing load - service load - severe load - shear load - shear lock load - shearing load - shock load - side load - sightseers loading onto a bus - single load - snow load - specific tooth load - specified load - specified rated load - split load - stated load - static load - statical load - stationary load - steady load - steady-state load - steering axle load - stiffness test load - stylus load - sucker-rod load - sudden load - suddenly applied load - super-load - superimposed load - sustained load - surface load - symmetrical loads - take up the load - tangential load - target load - tensile load - tension load - terminal load - test load - test scale load - thrust load - tilting load - tooth load - torque load - torsional load - total load - towed load - traction load - tractional load - traffic load - transferred load - transient load - transmitted load - transport a load - transverse load - travelling load - trial load - ultimate load - unbalanced load - under load - uniform load - uniformly distributed load - unit load - unsafe load - useful load - variable load - varying load - vibrational load - vibratory load - waste load - water load - way-supported loads - weight load - wheel load - wide load - wind load - working load - zero load -
112 effect
1) эффект, влияние || влиять2) действие, воздействие || действовать, воздействовать3) результат, следствие; явление4) эффект, впечатление5) производить, изготовлять•to come into effect — вступать в действие, вступать в силу
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113 minor
1. n несовершеннолетний, не достигший 18 лет2. n младший из двух братьев или однофамильцев3. n амер. второстепенный, не основной предмет4. n муз. минорный ключ; минор5. n мат. минор6. n рел. ист. минорит, францисканец7. a незначительный; второстепенныйminor injury — лёгкое ранение, небольшой ушиб
minor repair — мелкая починка, мелкий ремонт
minor action — действия мелких подразделений, столкновение
minor offence — мелкое правонарушение, проступок
8. a меньший из двух; младший из двух братьев или однофамильцев9. a грустный, минорный10. a спец. малый11. v амер. студ. изучать в качестве второй специальностиСинонимический ряд:1. child (adj.) adolescent; child; junior; slip; youth2. lesser (adj.) casual; dinky; inconsiderable; inferior; insignificant; lesser; light; little; low; lower; minor-league; minute; petty; secondary; shoestring; slight; small; small-beer; smaller; small-fry; small-time; subordinate; trivial; under; unimportant3. mediocre (adj.) mediocre; passable; second-rate4. underage (adj.) underage5. adolescent (noun) adolescent; child; teenager; youngster; youthАнтонимический ряд:adult; first; greater; important; major -
114 response
1. реакция; реагирование; отклик; ответ(ное действие); выходной сигнал; срабатывание; возмущенное движение <ЛА>/ реагировать; отвечать3. характеристика; зависимость; (динамические) характеристики4. приемистость < двигателя>5. эффективность < органа управления>response due to longitudinal stick commandresponse due to rudder inputresponse in sideslipresponse in turnresponse of stick position to stick forceresponse to turbulenceabrupt responseacceleration responseactuator responseaerodynamic responseaeroelastic responseaircraft responseairspeed responsealpha responsealpha-ramp responseamplitude responseangle-of-attack responseangular responseattitude to stick force responsebase-excitation responsebeam responseblade responsebrake responsebuffet responsebuffeting responseC* responsechord responseclosed-loop responseclosed-loop frequency responsecommand responsecommanded responsecomputer responsecomputer-triggered responsecontrol responsecontrol surface responsecontrol-system responsecoupled responsecrisp responsedamped responsedamper responsedead-beat responsedecoupled responsedisplacement responsedivergent responsediverging responsedoublet responseDutch roll responsedynamic responseedgewise responseelastic responseelastodynamic responseexperimental responsefilter responseflap responseflat amplitude responseflexible responseflight responseflight path to stick force frequency responseflight path responseflight path angle responseforced responsefracture responsefree responsefree-flight responsefrequency responsefull-scale responsefull-state responsefull-elevator responseg responseglideslope responsegust responseheave responseHeaviside responsehelicopter responsehigh-frequency responsehigh-overshoot responsehorizontal tail deflection responsehorizontal tail rate responseimpact responseimpulse responsein-phase responseindicial responseinelastic responseinstantaneous responsejamming responselanding gear responselarge-amplitude responselateral responselateral stick responselateral-directional responselead-lag responselift responselift coefficient responseload responseload factor responselong term responselong-period responselongitudinal responseloop frequency responselow-overshoot responsemaneuver responsemaneuvering responsemaximum control responsemid-frequency responsemodel responsemodel-following responsemotor responsenon-Gaussian responsenormal acceleration responsenz responseoff-axis responseon-axis responseopen-loop responseopen-loop frequency responseoscillatory responseout-of-phase responseoverly sensitive responsephase responsephugoid responsephysiologic responsepiloted responsepitch responsepitch axis responsepitch command responsepitch rate responsepitch attitude responsepointing responsepower responserate-independent plastic responseresonant responseresonator responserigid body mode responseroll responseroll axis responseroll rate responserolling responserolling axis responserough airfield responserudder pedal responsesharp responseshort term responseshort-period responseshort-period dynamic responseside-slip responsesideforce responsesimulated responsesimulator responsesluggish responsespectral responsespoiler responsesprung mass responsestatic responsesteady-state responsestep responsestep-function responsestrain responsestress responsestructural-acoustic responsesubharmonic responsethrust responsetime responsetorsional responsetracking responsetrailing-edge deflection responsetrailing-edge rate responsetransient responsetrim responseturbulence responseturbulence-excited responsetwo-per-rev responseundamped responseunstable responsevehicle responsevelocity responsevertical responsevestibular responsevibration responsevibrational responsevibratory responsewell-damped responsewing responsewing beam responsewing rock type responseyaw responseyawing response -
115 Bollée, Ernest-Sylvain
[br]b. 19 July 1814 Clefmont (Haute-Marne), Franced. 11 September 1891 Le Mans, France[br]French inventor of the rotor-stator wind engine and founder of the Bollée manufacturing industry.[br]Ernest-Sylvain Bollée was the founder of an extensive dynasty of bellfounders based in Le Mans and in Orléans. He and his three sons, Amédée (1844–1917), Ernest-Sylvain fils (1846–1917) and Auguste (1847-?), were involved in work and patents on steam-and petrol-driven cars, on wind engines and on hydraulic rams. The presence of the Bollées' car industry in Le Mans was a factor in the establishment of the car races that are held there.In 1868 Ernest-Sylvain Bollée père took out a patent for a wind engine, which at that time was well established in America and in England. In both these countries, variable-shuttered as well as fixed-blade wind engines were in production and patented, but the Ernest-Sylvain Bollée patent was for a type of wind engine that had not been seen before and is more akin to the water-driven turbine of the Jonval type, with its basic principle being parallel to the "rotor" and "stator". The wind drives through a fixed ring of blades on to a rotating ring that has a slightly greater number of blades. The blades of the fixed ring are curved in the opposite direction to those on the rotating blades and thus the air is directed onto the latter, causing it to rotate at a considerable speed: this is the "rotor". For greater efficiency a cuff of sheet iron can be attached to the "stator", giving a tunnel effect and driving more air at the "rotor". The head of this wind engine is turned to the wind by means of a wind-driven vane mounted in front of the blades. The wind vane adjusts the wind angle to enable the wind engine to run at a constant speed.The fact that this wind engine was invented by the owner of a brass foundry, with all the gear trains between the wind vane and the head of the tower being of the highest-quality brass and, therefore, small in scale, lay behind its success. Also, it was of prefabricated construction, so that fixed lengths of cast-iron pillar were delivered, complete with twelve treads of cast-iron staircase fixed to the outside and wrought-iron stays. The drive from the wind engine was taken down the inside of the pillar to pumps at ground level.Whilst the wind engines were being built for wealthy owners or communes, the work of the foundry continued. The three sons joined the family firm as partners and produced several steam-driven vehicles. These vehicles were the work of Amédée père and were l'Obéissante (1873); the Autobus (1880–3), of which some were built in Berlin under licence; the tram Bollée-Dalifol (1876); and the private car La Mancelle (1878). Another important line, in parallel with the pumping mechanism required for the wind engines, was the development of hydraulic rams, following the Montgolfier patent. In accordance with French practice, the firm was split three ways when Ernest-Sylvain Bollée père died. Amédée père inherited the car side of the business, but it is due to Amédée fils (1867– 1926) that the principal developments in car manufacture came into being. He developed the petrol-driven car after the impetus given by his grandfather, his father and his uncle Ernest-Sylvain fils. In 1887 he designed a four-stroke single-cylinder engine, although he also used engines designed by others such as Peugeot. He produced two luxurious saloon cars before putting Torpilleur on the road in 1898; this car competed in the Tour de France in 1899. Whilst designing other cars, Amédée's son Léon (1870–1913) developed the Voiturette, in 1896, and then began general manufacture of small cars on factory lines. The firm ceased work after a merger with the English firm of Morris in 1926. Auguste inherited the Eolienne or wind-engine side of the business; however, attracted to the artistic life, he sold out to Ernest Lebert in 1898 and settled in the Paris of the Impressionists. Lebert developed the wind-engine business and retained the basic "stator-rotor" form with a conventional lattice tower. He remained in Le Mans, carrying on the business of the manufacture of wind engines, pumps and hydraulic machinery, describing himself as a "Civil Engineer".The hydraulic-ram business fell to Ernest-Sylvain fils and continued to thrive from a solid base of design and production. The foundry in Le Mans is still there but, more importantly, the bell foundry of Dominique Bollée in Saint-Jean-de-Braye in Orléans is still at work casting bells in the old way.[br]Further ReadingAndré Gaucheron and J.Kenneth Major, 1985, The Eolienne Bollée, The International Molinological Society.Cénomane (Le Mans), 11, 12 and 13 (1983 and 1984).KM
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