oxford+john

Balliol (College)

['beɪljəl(,kɔlɪdʒ)]

Бе́йллиол(-Ко́лледж) (один из наиболее известных колледжей Оксфордского университета [ Oxford University]. Основан в 1263)

по имени основателя Джона де Бейллиола [John de Balliol]

Bampton lectures

[,bæmptən'lektʃəz]

Ба́мптонские ле́кции (ежегодный курс из восьми лекций на теологические темы, кот. читают в Оксфордском университете [ Oxford University])

первая такая лекция была прочитана священником Дж.Бамптоном [John Bampton] в 1751

Radcliffe Science Library

[,rædklɪf,saɪəns'laɪbrərɪ]

Нау́чная библиоте́ка Ра́дклиффа (часть Бодлианской библиотеки [ Bodleian] в г. Оксфорде [ Oxford I])

по имени основателя Дж.Радклиффа [John Radcliffe, 1650-1714]

Romanes lecture

[rəu'mɑːnɪz,lektʃə]

Романе́совская ле́кция (ежегодная лекция в Оксфордском университете [ Oxford University]; почётное право прочитать такую лекцию предоставляется видному учёному, искусствоведу или литератору)

фонд для лекций учреждён известным английским биологом Дж.Романесом [George John Romanes] в 1891

Ruskin College

['rʌskɪn,kɔlɪdʒ]

Ра́скин-Ко́лледж (профсоюзный колледж в г. Оксфорде [ Oxford I]; принимает лиц в возрасте от 20 до 40 лет; основные предметы - социология и история профсоюзного движения; содержится на профсоюзные и частично государственные средства; ок. 180 студентов. Основан в 1899)

назван в честь писателя и художника Дж.Раскина [John Ruskin, 1819-1900]

in

[ɪn] 1. предл.

1)

а) внутри, в, на, в пределах

dried in a furnace — высушенный в горниле

His chamber in Merton Coll. — Его комната в Мертон Колл.

I never saw greater devotion in any countenance. — Ни на одном лице я не видел выражения большей религиозности.

They are in the open sea. — Они в открытом море.

Hundreds lay languishing in prison. — В тюрьме гноили тысячи.

The worthiest man in Europe. — Самый богатый человек в Европе.

A word rings in my memory. — Мне все вспоминается одно слово.

She bathes in water. — Она купается в воде.

Thou (= you) wilt (= will) not leave us here in the dust. — Ты не оставишь нас здесь в пыли.

Groping in the dark. — Ползая во тьме.

б) из, среди, как часть

Ninety-nine in a hundred were attentive. — Из сотни внимательны были девяносто девять.

A debtor offered 6s. in the pound. — Должник предложил шесть шиллингов на каждый фунт.

The plaintiff applied for shares in this company. — Истец требовал доли в этой фирме.

- in places

- in parts

в) с характерными признаками в виде

A lovely girl in mourning is sitting. — Сидит милая девушка в трауре.

I am to be hanged in chains. — Меня закуют в цепи и подвесят.

During the descent Tuckett and I were in the same cord with them. — Во время спуска я и Такетт были в одной с ними связке.

г) в, внутрь, в центр, в направлении к

The said John cast the said writing in the fire. — Указанный Джон бросил указанную бумагу в огонь.

He plunged his lousy head in the pillows. — Он зарылся своей вшивой башкой в подушки.

д) ( in-) внутренний, не выходящий за пределы (процесса, организации)

Our in-company training programs. — Наши внутрифирменные программы обучения.

In-process gauging could halt waste. — Измерения по ходу процесса могут предотвратить потери.

For drying grass seed, the in-sack drier had many advantages. — Что касается сушки травяных семян, внутримешочная сушка имеет много преимуществ.

Development of in-service training for staff nurses. — Разработка программы обучения медсестер без отрыва от производства.

2)

а) во время, в течение

In the beginning God made of nought heaven and earth. — Вначале сотворил Господь небо и землю.

He was never so afraid in his days. — Никогда в жизни он не был так испуган.

Common in times of famine. — Обычное дело в голодные времена.

Between the hours of twelve and four in the morning. — Между двенадцатью и четырьмя часами утра.

All the gentlemen's houses you'll see in a railway excursion. — Все дома дворянства вы увидите во время железнодорожной экскурсии.

No Sunday shower kept him at home in that important hour. — Никакой дождь не мог удержать его дома в воскресенье в такое важное время.

б) за (истечением), в течение, в пределах

Men may sail it in seven days. — За семь дней это можно переплыть.

From this machine gun 1,000 bullets can be discharged in a single minute. — Этот пулемет имеет скорострельность 1000 пуль в минуту.

By working hard he could make one in a week. — Напряженно работая, он мог сделать одну такую вещь за неделю.

He died in three months. — Он умер через три месяца.

I came back from Oxford in ten days. — Через десять дней я вернулся из Оксфорда.

The succeeding four months in which we continued at sea. — Следующие четыре месяца, в течение которых мы были в море.

в) на протяжении

He was hungry as he had not been in months. — Ни разу за все прошедшие месяцы он не был так голоден, как сейчас.

Arlene said that she had not played tennis in three years. — Арлин говорит, что три года не играла в теннис.

3)

а) из (какого-л. материала)

A statue of a horse in brass. — Медная статуя лошади.

A long coat in green velvet. — Длинный плащ из зеленого бархата.

б) в объёме, в размере

In the main they agree with us. — В основном они с нами согласны.

Any act repealing in whole or in part any former statute. — Любой закон, отменяющий полностью или частично предыдущий статут.

Drift-wood was lying about in large quantities. — Плавник был разбросан повсюду в огромных количествах.

в) в качестве; взамен, вместо; в виде

She thus in answer spake (= spoke). — В ответ она сказала так.

He has written to the newspaper in reply to his assailant. — Он написал в газету письмо в ответ на нападки.

4)

а) в пределах досягаемости

All is in my sight. — Все доступно моему взору.

б) в качестве, в порядке

The living of Framley was in the gift of the Lufton family. — Содержание Фреймли было подарком от семьи Лафтонов, было содержанием, сутью дара семьи Лафтонов.

It was in newspapers. — Об этом писали в газетах.

в) в рядах, в кругу, в курсе

A friend of mine is in the army. — Один мой друг служит в армии.

Mind I'm in it. — Помни, я в деле.

I thought I really was in it at last, and knew what she meant. — Я полагал, что меня наконец "допустили", что я понимал, что она имеет в виду.

To those in it every sound conveys a meaning. — Для посвященных каждый звук наполнен смыслом.

г) в руках, в ведении, во власти; в стиле, в духе

The government of Greece is in the king. — Исполнительная власть в Греции принадлежит королю.

It is in me to punish you. — У меня есть право тебя наказывать.

His lordship knows rudeness is not in me. — Его превосходительство знает, что грубости не в моем духе.

Anyone who has it in him to do heroic deeds. — Любой человек, обладающий способностью совершать геройские поступки, способный на геройство.

The minerals, therefore, are in the trustees. — По этой причине камни хранятся у доверенных лиц.

д) в (о наличии интереса, "изюминки" в чем-л., о сравнительном достоинстве кого-л. / чего-л.)

The first round there was nothing much in it. — В первом раунде не произошло ничего особенного.

The "Washingtonologists" in Moscow must be getting their files out to see what is in it for the Soviet Union, and for the world. — "Вашингтонологи" в Москве, должно быть, роются сейчас в своих досье, пытаясь понять, что это означает для Советского Союза, да и для планеты вообще.

I can't see what there was in it for Mrs Plum. — Не могу понять, что это так заинтересовало миссис Плам.

I thought the Party knew all the technique there is about handling people, but they're not in it with the Church. — Я полагал, партия умела управлять людьми, но на самом деле до церкви ей конечно далеко.

All people are killers, potentially. Tigers aren't in it with people. — Все люди - потенциальные убийцы, куда там тиграм, тигры отдыхают!

5)

а) в состоянии, в положении

a cow in milk — дойная корова

Groping in our blindness we may seem big now, but, really, we're so small. (P. Hammill) — Мы идём по жизни на ощупь, как слепые, и кажемся порой великими, но, по правде, мы столь ничтожны.

All the Court was in a hubbub. — В зале суда бушевала буря.

Her husband has been in love with her ever since he knew her. — Её муж влюбился в неё ещё тогда, когда впервые её увидел.

You are absolutely forbidden speaking to him in private. — Вам категорически запрещается разговаривать с ним в приватной обстановке / с глазу на глаз.

The sea was in a blaze for many miles. — Море сверкало на много миль вперёд.

б) в процессе, в ходе

The Lacedemonians are already in labour of the war. — Лакедемоняне уже воюют.

In search of plunder. — В поисках, чего бы пограбить.

They have been in almost every variety of crime, from petty larceny down to downright murder. — Они совершили все возможные преступления, от простых краж прямо-таки до убийств.

He was drowned in crossing the river. — Он утонул, переправляясь через реку.

в) употребляется при указании на способ действия; переводится обычно наречиями или наречными оборотами; употребления часто сходны с аналогичными употреблениями предлога with

in the manner anciently used — cпособом, известным с древности

He told several people in confidence. — Он рассказал некоторым доверенным лицам.

He begged in piteous terms that he might be admitted to the royal presence. — Он униженно просил аудиенции у короля.

Among the trees in pairs they rose, they walked. (J. Milton, Paradise Lost, Book VII) — Попарно звери встали меж дерев и разминулись по местам своим. (пер. А. Штейнберга)

A hawk flew in a circle, screaming. — Крича, летал кругами ястреб.

He spoke in a strong French accent. — Он говорил с сильным французским акцентом

Bede is writing in a dead language, Gregory in a living. (M. Pattison) — Беда Достопочтенный пишет на мёртвом языке, папа Григорий I на живом.

A French ship ballasted in mahogany. — Французский корабль, груженый красным деревом.

Half-length portraits, in crayons. — Карандашные рисунки в половину роста.

6)

а) для, внутри; само по себе ( с возвратными местоимениями)

Of things absolutely or in themselves. — О вещах безотносительно к чему бы то ни было или о вещах самих по себе.

The story may be true in itself. — Сам по себе рассказ может быть правдив.

б) поэт. во (имя), ради

As in Adam all men die, so in Christ all men shall be resurrected. ( Bible) — Как в Адаме все умирают, так во Христе все оживут.

Blessed are the dead men, that die in the Lord. ( Bible) — Отныне блаженны мёртвые, умирающие в Господе.

в) в лице, в роли, по отношению к

I am to come out in Hamlet, in Laertes. — Мне предстоит играть в "Гамлете" Лаэрта.

Dread no thief in me! — Не бойся, я не вор!

How great a captain England possessed in her future King. — Какого великого полководца имела Британия в лице своего будущего короля!

All the thirty were in politics vehemently opposed to the prisoner. — Что касается политических взглядов, все тридцать были из противной узнику партии.

•

Gram:

[ref dict="LingvoGrammar (En-Ru)"]in[/ref]

2. нареч.

1) внутри; внутрь; с внутренней стороны

coat with furry side in — дублёнка ( мехом внутрь)

2) рядом, поблизости

Syn:

near 2.

3. сущ.

1)

а) ( the ins) разг. политическая партия, находящаяся у власти

- ins and outs

б) высокопоставленный чиновник

2) влияние, воздействие

the same sort of in — такое же воздействие

Syn:

influence 1., pull 1.

4. прил.

1)

а) расположенный внутри

б) внутренний, для внутреннего пользования

in information — внутренняя (секретная) информация

•

Syn:

inner

2) разг. находящийся у власти

- in party

3)

а) направленный внутрь

б) приближающийся, прибывающий

I saw the in train. — Я увидел прибывающий поезд.

Syn:

incoming 2.

4) разг.

а) модный

the in thing to do — самое модное увлечение

б) поддающийся влиянию моды ( о людях)

the

[ðiː] ( полная форма); [ðɪ] (редуцированная форма, употр. перед гласными), [ðə] (редуцированная форма, употр. перед согласными) 1. артикль

( определённый артикль)

1) выделяет конкретный, определённый объект из группы однородных объектов; употребляется перед названиями объектов, которые известны говорящему и слушающему, в том числе были упомянуты в предшествующем контексте

the door of the room — дверь (этой) комнаты

the students in our class — студенты в нашем классе

on the other side of the road — на другой стороне (этой) дороги

the flowers are in the vase — цветы стоят в вазе

2) указывает на существительное как на (эталонного) представителя определённого класса - часто при сопоставлении с другими классами

The wolf is a predator. — Волк является хищником.

Popov invented the radio. — Попов изобрёл радио.

3)

а) употребляется перед названиями уникальных объектов или объектов, которые уникальны в данный момент времени

the sun — солнце

the air — воздух

the universe — вселенная

the world — мир

the earth — земля

the sky — небо

the Bible — Библия

the Pope — Папа

б) употребляется перед названиями рек, архипелагов, гор, областей (как правило, во мн.ч.); перед названиями некоторых стран

the Thames — (река) Темза

the Alps — Альпы

the Argentine — Аргентина

the Oxford Road — Оксфордская дорога

в) употребляется перед географическими названиями, представляющими собой словосочетание, где главное существительное не является именем собственным

the Black Sea — Чёрное море

the United States of America — США

г) употребляется перед названиями природных явлений, времён года

the spring — весна

the day — день

the night — ночь

the wind — ветер

the clouds — облака

4)

а) употребляется перед существительными, обозначающими время

at the moment — в настоящий момент, сейчас

Could you tell me the time, please? — Вы не подскажете, сколько времени?

б) употребляется перед числительными, обозначающими год

in the 2000 — в двухтысячном году

5) употребляется перед названиями периодических изданий; литературных, музыкальных, художественных произведений

the Times — (газета) Таймс

the Mona Lisa — (картина) Мона Лиза

6)

а) употребляется перед названием части тела или персональной принадлежностью, упомянутой или обозначенной раньше, вместо соответствующего притяжательного местоимения

He took him by the hand. — Он схватил его за руку.

б) употребляется перед названиями родственников

the wife — жена

the mother — мать

в) употребляется перед названиями болезней, недугов, которые в данном случае рассматриваются относительно их обладателя (также возможно безартиклевое употребление)

His secretary had gone down with the flu. — Его секретарша слегла с гриппом.

I have the toothache. — У меня болит зуб.

7) употребляется перед названиями кораблей, таверн, театров и других известных сооружений

the Coliseum — Колизей

8) употребляется перед названиями титулов

the King — король

the Duke — герцог

9) употребляется перед существительным, которое определяется относительным предложением или причастным оборотом

He is the man I told you about. — Это тот человек, о котором я вам рассказывал.

10) употребляется перед существительным (как правило, именем собственным), которое определяется предложной группой, особенно с предлогом of

the Rome of my youth — Рим моей молодости

11) тот, такой, подходящий (употребляется перед существительным, которое определяется инфинитивным оборотом)

He is not the person to lay before us the work of absolutely the finest quality. — Он не тот человек, который положит перед нами работу высочайшего качества.

This is the place to eat. — Вот где стоит поесть.

12)

а) употребляется перед существительным, которое определяет другое существительное (как правило, имя собственное), причём определяющее существительное обычно ставится после имени собственного

the poet Vergil — поэт Вергилий

William the Conqueror — Вильгельм Завоеватель

б) употребляется перед прилагательными, определяющими имена собственные; в том случае если прилагательное становится постоянным эпитетом, оно употребляется после существительного

the old John — старый Джон

Alfred the Great — Альфред Великий

Peter the First — Пётр Первый

13)

а) употребляется перед названиями наций, народов, племён и пр.

the Russians — русские

the English — англичане

the Americans — американцы

б) употребляется перед фамилиями, названиями династии, рода в форме множественного числа для обозначения всей семьи, династии

the Smiths — Смиты, семья Смитов

the Tudors — Тюдоры, династия Тюдоров

14) употребляется перед прилагательными в превосходной степени и порядковыми прилагательными

the second bottle — вторая бутылка

This is the most interesting book I've ever read. — Это самая интересная книга, которую я когда-либо читал.

15)

а) оформляет субстантивацию прилагательных, причастий, числительных, местоимений

the good — добро

the evil — зло

the who — субъект

the what — объект

words borrowed from the German — слова, заимствованные из немецкого

б) употребляется перед прилагательными или причастиями для образования коллективного собирательного существительного (как правило, относящегося к людям)

the poor — бедные, бедняки

•

Gram:

[ref dict="LingvoGrammar (En-Ru)"]the[/ref]

2. нареч.

1) тем

so the more — тем больше

it will be the easier for us to agree — тем легче будет нам согласиться

So much the worse for them, but so much the better for me in this case. — Тем хуже для них, но тем лучше для меня в этом случае.

2) чем... тем ( при сравнении)

the sooner the better — чем скорее, тем лучше

The more money people have, the more they spend. — Чем больше у людей денег, тем больше они их тратят.

make the best of both worlds

ирон.

( make the best of both (реже two) worlds)

1) жить припеваючи на земле, надеясь жить не хуже и на том свете; см. тж. make the worst of both worlds

Keegan: "...Let not the right side of your brain know what the left side doeth. I learnt at Oxford that this is the secret of Englishman's strange power of making the best of both worlds." (B. Shaw, ‘John Bull's Other Island’, act IV) — Киган: "...Пусть правая половина твоего мозга не ведает, что творит левая. В Оксфорде меня учили, что именно в этом секрет успеха англичан и в этом мире и в будущем."

2) умело использовать два (противоположных) обстоятельства

He became, as he spoke, the bon viveur and scientist, making the best of two worlds. (C. P. Snow,‘The Search’, part III, ch. V) — В выступлении Десмонда чувствовался то прожигатель жизни, то ученый. Десмонд умело использовал оба свои амплуа.

Man

1. n геогр. остров Мэн

2. n мужчина, человек

there were three men and two women in the room — в комнате было трое мужчин и две женщины

to play the man — поступать, как подобает мужчине

be a man! — будь мужчиной!

he is only half a man — он не настоящий мужчина

man to man, between man and man — как мужчина с мужчиной

a good man — хороший человек

a man of thirty — мужчина тридцати лет; тридцатилетний мужчина

a man of action — человек дела, энергичный человек

a man of character — волевой человек, сильная личность

a man of moods — человек настроения

a man of peace — мирный человек

a man of principle — принципиальный человек

a man of sense — разумный человек

a man of wisdom — мудрый человек

a man of ideas — изобретательный человек

a man of many parts — разносторонний человек

a man of genius — гениальный человек

a man of honour — честный человек

a man of distinction — выдающийся человек

a man of taste — человек со вкусом

a man of few words — немногословный человек

a man of many words — многословный человек

a man of his word — человек слова, господин своего слова

a man of family

a man of means — человек со средствами, состоятельный человек

a man of law — законник; адвокат; юрист

he is the very man for this job — он самый подходящий человек для этого дела

per man — на человека

man or woman — человек

big man — высокий человек

lame man — хромой человек

man of God — человек Божий

3. n муж

man and wife — муж и жена

valiant man — доблестный муж

4. n унив. студент; окончивший, выпускник

a University man — человек с университетским образованием

an old Oxford man — выпускник Оксфордского университета

5. n пренебр. приятель

speak up, man!, speak up my man! — ну, говори же, друг!

hurry up, man! hurry up my man! — да поскорей же, приятель!

come along, man!, come along my man! — ну, пошли, мой милый!

6. n человечество, человеческий род

son of man — сын человеческий

Son of Man — сын человеческий

act of man — человеческое действие

a man of that stripe — человек такого рода

in the infancy of man — на заре человечества

7. n слуга

they paid the man a shilling as his perquisite — они дали слуге шиллинг на чай

8. n чаще рабочий

the manager spoke to the men — управляющий поговорил с рабочими

rack man — рабочий у сливно-наливной эстакады

man stations — дежурить на рабочем месте

machine man — рабочий у станка; оператор

union man — рабочий - член профсоюза

outside man — временный рабочий

9. n солдат, рядовой, матрос

button man — рядовой член банды, бандит

10. n рядовой состав

officers and men — офицеры и солдаты

nonrated man — рядовой

11. n пешка

12. n шашка, фишка

to jump a man — брать шашку

13. n игрок

14. n ист. вассал

liege man — вассал

15. n как компонент сложных слов означает занятие, профессию

clergyman — священник

postman — почтальон

sportsman — спортсмен

workman — рабочий

to refresh the inner man — поесть, подкрепиться

to clothe the outer man — одеться

odd man out — «третий лишний»

heavy man — актёр, исполняющий трагические роли

one-dollar-a-year man — крупный капиталист, участвующий в деятельности правительственных органов и получающий номинальный оклад в один доллар в год

marked man

man of the house — глава семьи

my old man — мой отец

men of the day — герои дня

a man about town — светский человек, богатый повеса, жуир

a man of the turf — завсегдатай скачек

Man of Sorrows — Муж скорбей

a man in a thousand — редкий человек;

men in blue — федеральные войска

the next man — всякий другой, любой; первый встречный

every man Jack

a run-of-the-mill man — заурядный человек

the man in the moon

I have known him man and boy — я его знаю с детства; б) все как один

man and boy turned out into the street — все как один высыпали на улицу

the man for me, the man for my money — этот человек мне подходит, этот человек меня устраивает

the man higher up — начальник, хозяин, босс; высшая инстанция

the man at the wheel — руководитель

Man Friday — Пятница, верный слуга

to hit a man when he is down — бить лежачего

he is his own man — он сам себе хозяин

like master like man

many men, many minds — сколько голов, столько умов

a drowning man will catch at a straw — утопающий за соломинку хватается

every man has his hobby-horse — у каждого есть свой конёк ; у каждого есть свои маленькие слабости

as one man — все как один

to die a man — умереть, как подобает мужчине

professional man — человек свободной профессии

to acquit oneself like a man — держать себя как мужчина

why, shame upon you, man! — послушайте, как вам не стыдно?

16. v укомплектовывать кадрами, персоналом

man power ceiling — штатная численность персонала

17. v воен. мор. укомплектовывать личным составом; занимать людьми; ставить людей; посадить людей

to man a unit — укомплектовывать часть личным составом

man hoist — подъемник для людей

man engine — подъемник для людей

fellowship of man — братство людей

man the defenses — занимать оборонительные позиции

18. v занять; стать

to man the defenses — занимать оборонительные позиции

he has become a new man — он стал совсем другим человеком

19. v собрать всё своё мужество, мужаться, взять себя в руки

fly man — старый опытный вор

right-hand man — правая рука

the outer man — внешний вид, костюм

lawless man — человек, находящийся вне закона

if is great karma, man! — всё обстоит прекрасно, друг!

20. v охот. приручать

Синонимический ряд:

1. boy (noun) beau; blade; boy; buck; chap; cuss; fellow; galoot; gent; gentleman; guy; he; male; skate; snap; swain; yeoman

2. employee (noun) attendant; employee; worker

3. human (noun) being; body; creature; human; individual; life; mortal; party; person; personage; soul; wight

4. human beings (noun) flesh; folk; Homo sapiens; human being; human beings; humanity; humankind; mankind; mortality; mortals; people; populace; race

5. husband (noun) husband; lord; mister; Mr.

6. partner (noun) boyfriend; consort; fancy man; hubby; lover; married man; master; mate; paramour; partner; spouse

7. policeman (noun) bluecoat; cop; Dogberry; gumshoe; John Law; officer; patrolman; peace officer; police officer; policeman

8. policemen (noun) cops; officers; patrolmen; peace officers; police; police officers; policemen

9. staff (verb) defend; fortify; garrison; guard; people; protect; staff; station

Антонимический ряд:

abandon; woman

Fairbairn, Sir Peter

SUBJECT AREA: Textiles

[br]

b. September 1799 Kelso, Roxburghshire, Scotland

d. 4 January 1861 Leeds, Yorkshire, England

[br]

British inventor of the revolving tube between drafting rollers to give false twist.

[br]

Born of Scottish parents, Fairbairn was apprenticed at the age of 14 to John Casson, a mill-wright and engineer at the Percy Main Colliery, Newcastle upon Tyne, and remained there until 1821 when he went to work for his brother William in Manchester. After going to various other places, including Messrs Rennie in London and on the European continent, he eventually moved in 1829 to Leeds where Marshall helped him set up the Wellington Foundry and so laid the foundations for the colossal establishment which was to employ over one thousand workers. To begin with he devoted his attention to improving wool-weaving machinery, substituting iron for wood in the construction of the textile machines. He also worked on machinery for flax, incorporating many of Philippe de Girard's ideas. He assisted Henry Houldsworth in the application of the differential to roving frames, and it was to these machines that he added his own inventions. The longer fibres of wool and flax need to have some form of support and control between the rollers when they are being drawn out, and inserting a little twist helps. However, if the roving is too tightly twisted before passing through the first pair of rollers, it cannot be drawn out, while if there is insufficient twist, the fibres do not receive enough support in the drafting zone. One solution is to twist the fibres together while they are actually in the drafting zone between the rollers. In 1834, Fairbairn patented an arrangement consisting of a revolving tube placed between the drawing rollers. The tube inserted a "middle" or "false" twist in the material. As stated in the specification, it was "a well-known contrivance… for twisting and untwisting any roving passing through it". It had been used earlier in 1822 by J. Goulding of the USA and a similar idea had been developed by C.Danforth in America and patented in Britain in 1825 by J.C. Dyer. Fairbairn's machine, however, was said to make a very superior article. He was also involved with waste-silk spinning and rope-yarn machinery.

Fairbairn later began constructing machine tools, and at the beginning of the Crimean War was asked by the Government to make special tools for the manufacture of armaments. He supplied some of these, such as cannon rifling machines, to the arsenals at Woolwich and Enfield. He then made a considerable number of tools for the manufacture of the Armstrong gun. He was involved in the life of his adopted city and was elected to Leeds town council in 1832 for ten years. He was elected an alderman in 1854 and was Mayor of Leeds from 1857 to 1859, when he was knighted by Queen Victoria at the opening of the new town hall. He was twice married, first to Margaret Kennedy and then to Rachel Anne Brindling.

[br]

Principal Honours and Distinctions

Knighted 1858.

Bibliography

1834, British patent no. 6,741 (revolving tube between drafting rollers to give false twist).

Further Reading

Dictionary of National Biography.

Obituary, 1861, Engineer 11.

W.English, 1969, The Textile Industry, London (provides a brief account of Fairbairn's revolving tube).

C.Singer (ed.), 1958, A History of Technology, Vols IV and V, Oxford: Clarendon Press (provides details of Fairbairn's silk-dressing machine and a picture of a large planing machine built by him).

RLH

Gilbert, Joseph Henry

SUBJECT AREA: Agricultural and food technology

[br]

b. 1 August 1817 Hull, England

d. 23 December 1901 England

[br]

English chemist who co-established the reputation of Rothampsted Experimental Station as at the forefront of agricultural research.

[br]

Joseph Gilbert was the son of a congregational minister. His schooling was interrupted by the loss of an eye as the result of a shooting accident, but despite this setback he entered Glasgow University to study analytical chemistry, and then went to University College, London, where he was a fellow student of John Bennet Lawes. During his studies he visited Giessen, Germany, and worked in the laboratory of Justus von Liebig. In 1843, at the age of 26, he was hired as an assistant by Lawes, who was 29 at that time; an unbroken friendship and collaboration existed between the two until Lawes died in 1900. They began a series of experiments on grain production and grew plots under different applications of nitrogen, with control plots that received none at all. Much of the work at Rothampsted was on the nitrogen requirements of plants and how this element became available to them. The grain grown in these experiments was analyzed to determine whether nitrogen input affected grain quality. Gilbert was a methodical worker who by the time of his death had collected together some 50,000 carefully stored and recorded samples.

[br]

Principal Honours and Distinctions

Knighted 1893. FRS 1860. Fellow of the Chemistry Society 1841, President 1882–3. President, Chemical Section of the British Association 1880. Sibthorpian Professor of Rural Economy, Oxford University, 1884. Honorary Professor of the Royal Agricultural College, Cirencester. Honorary member of the Royal Agricultural Society of England 1883. Royal Society Royal Medal 1867 (jointly with Lawes). Society of Arts Albert Gold Medal 1894 (jointly with Lawes). Liebig Foundation of the Royal Bavarian Academy of Science Silver Medal 1893 (jointly with Lawes).

AP

Jacquard, Joseph-Marie

SUBJECT AREA: Textiles

[br]

b. 7 July 1752 Lyons, France

d. 7 August 1834 Oullines, France

[br]

French developer of the apparatus named after him and used for selecting complicated patterns in weaving.

[br]

Jacquard was apprenticed at the age of 12 to bookbinding, and later to type-founding and cutlery. His parents, who had some connection with weaving, left him a small property upon their death. He made some experiments with pattern weaving, but lost all his inheritance; after marrying, he returned to type-founding and cutlery. In 1790 he formed the idea for his machine, but it was forgotten amidst the excitement of the French Revolution, in which he fought for the Revolutionists at the defence of Lyons. The machine he completed in 1801 combined earlier inventions and was for weaving net. He was sent to Paris to demonstrate it at the National Exposition and received a bronze medal. In 1804 Napoleon granted him a patent, a pension of 1,500 francs and a premium on each machine sold. This enabled him to study and work at the Conservatoire des Arts et Métiers to perfect his mechanism for pattern weaving. A method of selecting any combination of leashes at each shoot of the weft had to be developed, and Jacquard's mechanism was the outcome of various previous inventions. By taking the cards invented by Falcon in 1728 that were punched with holes like the paper of Bouchon in 1725, to select the needles for each pick, and by placing the apparatus above the loom where Vaucanson had put his mechanism, Jacquard combined the best features of earlier inventions. He was not entirely successful because his invention failed in the way it pressed the card against the needles; later modifications by Breton in 1815 and Skola in 1819 were needed before it functioned reliably. However, the advantage of Jacquard's machine was that each pick could be selected much more quickly than on the earlier draw looms, which meant that John Kay's flying shuttle could be introduced on fine pattern looms because the weaver no longer had to wait for the drawboy to sort out the leashes for the next pick. Robert Kay's drop box could also be used with different coloured wefts. The drawboy could be dispensed with because the foot-pedal operating the Jacquard mechanism could be worked by the weaver. Patterns could be changed quickly by replacing one set of cards with another, but the scope of the pattern was more limited than with the draw loom. Some machines that were brought into use aroused bitter hostility. Jacquard suffered physical violence, barely escaping with his life, and his machines were burnt by weavers at Lyons. However, by 1812 his mechanism began to be generally accepted and had been applied to 11,000 draw-looms in France. In 1819 Jacquard received a gold medal and a Cross of Honour for his invention. His machines reached England c.1816 and still remain the basic way of weaving complicated patterns.

[br]

Principal Honours and Distinctions

French Cross of Honour 1819. National Exposition Bronze Medal 1801.

Further Reading

A.Barlow, 1878, The History and Principles of Weaving by Hand and by Power, London.

C.Singer (ed.), 1958, A History of Technology, Vol. IV, Oxford: Clarendon Press.

R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (covers the introduction of pattern weaving and the power loom).

RLH

Jenner, Edward

SUBJECT AREA: Medical technology

[br]

b. 17 May 1749 Berkeley, Gloucestershire, England

d. 26 January 1823 Berkeley, Gloucestershire, England

[br]

English medical practitioner, pioneer of vaccination against smallpox.

[br]

In 1770, following a local surgical apprenticeship in Gloucestershire, he became a resident pupil in London under John Hunter. In 1773 he returned to Berkeley to practise, but he continued correspondence with Hunter on a variety of topics of natural history, including the study of earthworms and hibernation.

From his apprentice days he had known of the country belief that an attack of cowpox would protect against smallpox. Soon after 1775 he had been in touch with Hunter, who gave him the celebrated advice to "trie the experiment". However, it was not until 14 May 1796 that he made the first vaccination from a case of cowpox. The practice of vaccination from mild cases of smallpox was already well established.

He was unable to undertake further observations until 1798, when he published the results of twenty-two more cases. The procedure gained wide acceptance and in 1802 he received a parliamentary award of £10,000; the Royal Jennerian Society for the promotion of smallpox vaccination was founded in 1803. In 1806 he was awarded a further £20,000. He received his first degree, of MD, from Oxford in 1813.

[br]

Bibliography

1798, An Enquiry into the Cause and Effects of the Variolae Vaccinae, London.

Further Reading

Crookshank, 1889, Pathology and History of Vaccination.

MG

Marconi, Marchese Guglielmo

SUBJECT AREA: Broadcasting, Electronics and information technology, Telecommunications

[br]

b. 25 April 1874 Bologna, Italy

d. 20 July 1937 Rome, Italy

[br]

Italian radio pioneer whose inventiveness and business skills made radio communication a practical proposition.

[br]

Marconi was educated in physics at Leghorn and at Bologna University. An avid experimenter, he worked in his parents' attic and, almost certainly aware of the recent work of Hertz and others, soon improved the performance of coherers and spark-gap transmitters. He also discovered for himself the use of earthing and of elevated metal plates as aerials. In 1895 he succeeded in transmitting telegraphy over a distance of 2 km (1¼ miles), but the Italian Telegraph authority rejected his invention, so in 1896 he moved to England, where he filed the first of many patents. There he gained the support of the Chief Engineer of the Post Office, and by the following year he had achieved communication across the Bristol Channel.

The British Post Office was also slow to take up his work, so in 1897 he formed the Wireless Telegraph \& Signal Company to work independently. In 1898 he sold some equipment to the British Army for use in the Boer War and established the first permanent radio link from the Isle of Wight to the mainland. In 1899 he achieved communication across the English Channel (a distance of more than 31 miles or 50 km), the construction of a wireless station at Spezia, Italy, and the equipping of two US ships to report progress in the America's Cup yacht race, a venture that led to the formation of the American Marconi Company. In 1900 he won a contract from the British Admiralty to sell equipment and to train operators. Realizing that his business would be much more successful if he could offer his customers a complete radio-communication service (known today as a "turnkey" deal), he floated a new company, the Marconi International Marine Communications Company, while the old company became the Marconi Wireless Telegraph Company.

His greatest achievement occurred on 12 December 1901, when Morse telegraph signals from a transmitter at Poldhu in Cornwall were received at St John's, Newfoundland, a distance of some 2,100 miles (3,400 km), with the use of an aerial flown by a kite. As a result of this, Marconi's business prospered and he became internationally famous, receiving many honours for his endeavours, including the Nobel Prize for Physics in 1909. In 1904, radio was first used to provide a daily bulletin at sea, and in 1907 a transatlantic wireless telegraphy service was inaugurated. The rescue of 1,650 passengers from the shipwreck of SS Republic in 1909 was the first of many occasions when wireless was instrumental in saving lives at sea, most notable being those from the Titanic on its maiden voyage in April 1912; more lives would have been saved had there been sufficient lifeboats. Marconi was one of those who subsequently pressed for greater safety at sea. In 1910 he demonstrated the reception of long (8 km or 5 miles) waves from Ireland in Buenos Aires, but after the First World War he began to develop the use of short waves, which were more effectively reflected by the ionosphere. By 1918 the first link between England and Australia had been established, and in 1924 he was awarded a Post Office contract for short-wave communication between England and the various parts of the British Empire.

With his achievements by then recognized by the Italian Government, in 1915 he was appointed Radio-Communications Adviser to the Italian armed forces, and in 1919 he was an Italian delegate to the Paris Peace Conference. From 1921 he lived on his yacht, the Elettra, and although he joined the Fascist Party in 1923, he later had reservations about Mussolini.

[br]

Principal Honours and Distinctions

Nobel Prize for Physics (jointly with K.F. Braun) 1909. Russian Order of S t Anne. Commander of St Maurice and St Lazarus. Grand Cross of the Order of the Crown (i.e. Knight) of Italy 1902. Freedom of Rome 1903. Honorary DSc Oxford. Honorary LLD Glasgow. Chevalier of the Civil Order of Savoy 1905. Royal Society of Arts Albert Medal. Honorary knighthood (GCVO) 1914. Institute of Electrical and Electronics Engineers Medal of Honour 1920. Chairman, Royal Society of Arts 1924. Created Marquis (Marchese) 1929. Nominated to the Italian Senate 1929. President, Italian Academy 1930. Rector, University of St Andrews, Scotland, 1934.

Bibliography

1896, "Improvements in transmitting electrical impulses and in apparatus thereof", British patent no. 12,039.

1 June 1898, British patent no. 12,326 (transformer or "jigger" resonant circuit).

1901, British patent no. 7,777 (selective tuning).

1904, British patent no. 763,772 ("four circuit" tuning arrangement).

Further Reading

D.Marconi, 1962, My Father, Marconi.

W.J.Baker, 1970, A History of the Marconi Company, London: Methuen.

KF

Pasley, General Sir Charles William

SUBJECT AREA: Civil engineering

[br]

b. 8 September 1780 Eskdalemuir, Dumfriesshire, Scotland

d. 19 April 1861 London, England

[br]

Scottish Colonel-Commandant, Royal Engineers.

[br]

At first he was educated by Andrew Little of Lan-gholm. At the age of 14 he was sent to school at Selkirk, where he stayed for two years until joining the Royal Military Academy at Woolwich in August 1796. He was commissioned as Second Lieutenant in the Royal Artillery and transferred to the Royal Engineers on 1 April 1798. He served at Minorca, Malta, Naples, Sicily, Calabria and in the siege of Copenhagen and in other campaigns. He was promoted First Captain in 1807, and was on the staff of Sir John Moore at the battle of Coruna. He was wounded at the siege of Flushing in 1809 and was invalided for a year, employing his time in learning German.

In November 1810 he published his Essay on Military Policy and Institutions of the British Empire, which ran through four editions. In 1811 he was in command of a company of Royal Military Artificers at Plymouth and there he devised a method of education by which the NCOs and troops could teach themselves without "mathematical masters". His system was a great success and was adopted at Chatham and throughout the corps. In 1812 he was appointed Director of the School of Military Engineering at Chatham. He remained at Chatham until 1841, when he was appointed Inspector-General of Railways. During this period he organized improved systems of sapping, mining, telegraphing, pontooning and exploding gunpowder on land or under water, and prepared pamphlets and courses of instruction in these and other subjects. In May 1836 he started what is probably the most important work for which he is remembered. This, was a book on Limes, Calcareous Cements, Mortar, Stuccos and Concretes. The general adoption of Joseph Aspdin's Portland Cement was largely due to Pasley's recommendation of the material.

He was married twice: first in 1814 at Chatham to Harriet Cooper; and then on 30 March 1819 at Rochester to Martha Matilda Roberts, with whom he had six children— she died in 1881.

[br]

Principal Honours and Distinctions

KGB 1846. FRS 1816. Honorary DCL, Oxford University 1844.

Bibliography

1810, Essay on Military Policy and Institutions of the British Empire. Limes, Calcareous Cements, Mortar, Stuccos and Concretes.

Further Reading

Porter, History of the Corps of Royal Engineers. DNB. Proceedings of the Royal Society.

IMcN

Paul, Robert William

SUBJECT AREA: Electricity, Electronics and information technology, Photography, film and optics

[br]

b. 3 October 1869 Highbury, London, England

d. 28 March 1943 London, England

[br]

English scientific instrument maker, inventor of the Unipivot electrical measuring instrument, and pioneer of cinematography.

[br]

Paul was educated at the City of London School and Finsbury Technical College. He worked first for a short time in the Bell Telephone Works in Antwerp, Belgium, and then in the electrical instrument shop of Elliott Brothers in the Strand until 1891, when he opened an instrument-making business at 44 Hatton Garden, London. He specialized in the design and manufacture of electrical instruments, including the Ayrton Mather galvanometer. In 1902, with a purpose-built factory, he began large batch production of his instruments. He also opened a factory in New York, where uncalibrated instruments from England were calibrated for American customers. In 1903 Paul introduced the Unipivot galvanometer, in which the coil was supported at the centre of gravity of the moving system on a single pivot. The pivotal friction was less than in a conventional instrument and could be used without accurate levelling, the sensitivity being far beyond that of any pivoted galvanometer then in existence.

In 1894 Paul was asked by two entrepreneurs to make copies of Edison's kinetoscope, the pioneering peep-show moving-picture viewer, which had just arrived in London. Discovering that Edison had omitted to patent the machine in England, and observing that there was considerable demand for the machine from show-people, he began production, making six before the end of the year. Altogether, he made about sixty-six units, some of which were exported. Although Edison's machine was not patented, his films were certainly copyrighted, so Paul now needed a cinematographic camera to make new subjects for his customers. Early in 1895 he came into contact with Birt Acres, who was also working on the design of a movie camera. Acres's design was somewhat impractical, but Paul constructed a working model with which Acres filmed the Oxford and Cambridge Boat Race on 30 March, and the Derby at Epsom on 29 May. Paul was unhappy with the inefficient design, and developed a new intermittent mechanism based on the principle of the Maltese cross. Despite having signed a ten-year agreement with Paul, Acres split with him on 12 July 1895, after having unilaterally patented their original camera design on 27 May. By the early weeks of 1896, Paul had developed a projector mechanism that also used the Maltese cross and which he demonstrated at the Finsbury Technical College on 20 February 1896. His Theatrograph was intended for sale, and was shown in a number of venues in London during March, notably at the Alhambra Theatre in Leicester Square. There the renamed Animatographe was used to show, among other subjects, the Derby of 1896, which was won by the Prince of Wales's horse "Persimmon" and the film of which was shown the next day to enthusiastic crowds. The production of films turned out to be quite profitable: in the first year of the business, from March 1896, Paul made a net profit of £12,838 on a capital outlay of about £1,000. By the end of the year there were at least five shows running in London that were using Paul's projectors and screening films made by him or his staff.

Paul played a major part in establishing the film business in England through his readiness to sell apparatus at a time when most of his rivals reserved their equipment for sole exploitation. He went on to become a leading producer of films, specializing in trick effects, many of which he pioneered. He was affectionately known in the trade as "Daddy Paul", truly considered to be the "father" of the British film industry. He continued to appreciate fully the possibilities of cinematography for scientific work, and in collaboration with Professor Silvanus P.Thompson films were made to illustrate various phenomena to students.

Paul ended his involvement with film making in 1910 to concentrate on his instrument business; on his retirement in 1920, this was amalgamated with the Cambridge Instrument Company. In his will he left shares valued at over £100,000 to form the R.W.Paul Instrument Fund, to be administered by the Institution of Electrical Engineers, of which he had been a member since 1887. The fund was to provide instruments of an unusual nature to assist physical research.

[br]

Principal Honours and Distinctions

Fellow of the Physical Society 1920. Institution of Electrical Engineers Duddell Medal 1938.

Bibliography

17 March 1903, British patent no. 6,113 (the Unipivot instrument).

1931, "Some electrical instruments at the Faraday Centenary Exhibition 1931", Journal of Scientific Instruments 8:337–48.

Further Reading

Obituary, 1943, Journal of the Institution of Electrical Engineers 90(1):540–1. P.Dunsheath, 1962, A History of Electrical Engineering, London: Faber \& Faber, pp.

308–9 (for a brief account of the Unipivot instrument).

John Barnes, 1976, The Beginnings of Cinema in Britain, London. Brian Coe, 1981, The History of Movie Photography, London.

BC / GW

Ramsden, Jesse

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 6 October 1735 (?) Halifax, Yorkshire, England

d. 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 Distinctions

FRS 1786; Royal Society Copley Medal 1795. Member, Imperial Academy of St Petersburg 1794. Member, Smeatonian Society of Civil Engineers 1793.

Bibliography

1774, 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 Mathematical

Instruments, 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 Reading

R.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

Ward, Joshua

SUBJECT AREA: Chemical technology

[br]

b. 1685

d. 21 November 1761 London, England

[br]

English doctor and industrial chemist.

[br]

Ward is perhaps better described as a "quack" than a medical doctor. His remedies, one containing a dangerous quantity of antimony, were dubious to say the least. A fraudulent attempt to enter Parliament in 1717 forced him to leave the country quickly. After his pardon in 1733, he returned to London and established a successful practice. His medical prowess is immortalized in Hogarth's picture The Harlot's Progress.

Sulphuric acid had been an important chemical for centuries and Ward found that he needed large quantities of it to make his remedies. He set up works to manufacture it at Twickenham, near London, in 1736 and then at Richmond three years later. His process consisted of burning a mixture of saltpetre (nitre; potassium nitrate) and sulphur in the neck of a large glass globe containing a little water. Dilute sulphuric acid was thereby formed, which was concentrated by distillation. Although the method was not new, having been described in the seventeenth century by the German chemist Johann Glauber, Ward was granted a patent for his process in 1749. An important feature was the size of the globes, which had no less than fifty gallons' capacity, which must have entailed considerable skill on the part of the glassblowers. Through the adoption of Ward's process, the price of this essential commodity fell from £2 per pound to only 2 shillings. It provided the best method of manufacture until the advent of the lead-chamber process invented by John Roebuck.

[br]

Further Reading

A.Clow and N.Clow, 1952, The Chemical Revolution: A Contribution to Social Technology, London: Batch worth.

C.Singer et al. (eds), 1958, A History of Technology, 7 vols, Oxford: Clarendon Press, Vol. IV.

LRD

Williams, Sir Frederic Calland

SUBJECT AREA: Electronics and information technology

[br]

b. 26 June 1911 Stockport, Cheshire, England

d. 11 August 1977 Prestbury, Cheshire, England

[br]

English electrical engineer who invented the Williams storage cathode ray tube, which was extensively used worldwide as a data memory in the first digital computers.

[br]

Following education at Stockport Grammar School, Williams entered Manchester University in 1929, gaining his BSc in 1932 and MSc in 1933. After a short time as a college apprentice with Metropolitan Vickers, he went to Magdalen College, Oxford, to study for a DPhil, which he was awarded in 1936. He returned to Manchester University that year as an assistant lecturer, gaining his DSc in 1939. Following the outbreak of the Second World War he worked for the Scientific Civil Service, initially at the Bawdsey Research Station and then at the Telecommunications Research Establishment at Malvern, Worcestershire. There he was involved in research on non-incandescent amplifiers and diode rectifiers and the development of the first practical radar system capable of identifying friendly aircraft. Later in the war, he devised an automatic radar system suitable for use by fighter aircraft.

After the war he resumed his academic career at Manchester, becoming Professor of Electrical Engineering and Director of the University Electrotechnical Laboratory in 1946. In the same year he succeeded in developing a data-memory device based on the cathode ray tube, in which the information was stored and read by electron-beam scanning of a charge-retaining target. The Williams storage tube, as it became known, not only found obvious later use as a means of storing single-frame, still television images but proved to be a vital component of the pioneering Manchester University MkI digital computer. Because it enabled both data and program instructions to be stored in the computer, it was soon used worldwide in the development of the early stored-program computers.

[br]

Principal Honours and Distinctions

Knighted 1976. OBE 1945. CBE 1961. FRS 1950. Hon. DSc Durham 1964, Sussex 1971, Wales 1971. First Royal Society of Arts Benjamin Franklin Medal 1957. City of Philadelphia John Scott Award 1960. Royal Society Hughes Medal 1963. Institution of Electrical Engineers Faraday Medal 1972. Institute of Electrical and Electronics Engineers Pioneer Award 1973.

Bibliography

Williams contributed papers to many scientific journals, including Proceedings of the Royal Society, Proceedings of the Cambridge Philosophical Society, Journal of the Institution of Electrical Engineers, Proceedings of the Institution of Mechanical Engineers, Wireless Engineer, Post Office Electrical Engineers' Journal. Note especially: 1948, with J.Kilburn, "Electronic digital computers", Nature 162:487; 1949, with J.Kilburn, "A storage system for use with binary digital computing machines", Proceedings of the Institution of Electrical Engineers 96:81; 1975, "Early computers at Manchester University", Radio \& Electronic Engineer 45:327. Williams also collaborated in the writing of vols 19 and 20 of the MIT Radiation

Laboratory Series.

Further Reading

B.Randell, 1973, The Origins of Digital Computers, Berlin: Springer-Verlag. M.R.Williams, 1985, A History of Computing Technology, London: Prentice-Hall. See also: Stibitz, George R.; Strachey, Christopher.

KF