historical sciences

historical sciences

исторические науки

Doctor of Historical Sciences

Общая лексика: доктор исторических наук

International Committee for Historical Sciences

Общая лексика: МКИН, Международный комитет исторических наук

candidate of historical sciences

Образование: кандидат исторических наук

the journal is concerned with the history of all aspects of the mathematical sciences in all parts of the world and all historical periods

Математика: все аспекты математических наук, журнал посвящён истории

science

n

наука

to be engaged in science — заниматься наукой

to expand the field of science — расширять область применения науки

to harness science (for) — использовать науку ( для)

to keep abreast of science — следить за успехами науки

to popularize science — популяризировать науку

to promote sciences — содействовать развитию наук

to slow down progress of science — тормозить развитие науки

to widen the field of science — расширять область применения науки

- agricultural sciences

- allied sciences
- applied science
- calling for science
- Christian Science
- creation science
- cutting-edge science
- doctor of science
- economic science
- exact science
- fundamental sciences
- historical sciences
- information science
- life sciences
- man of science
- march of science
- military science
- natural science
- occult sciences
- physical sciences
- political science
- related sciences
- Sc. D.
- shrine of science
- social science
- specialized science
- technical sciences
- theoretical sciences

ICHS

1) Военный термин: integrated cargo handling system

2) Техника: integrated helicopter control system

3) Сокращение: International Committee for Historical Sciences, International Council of Home-Help Services

Philosophy

   1) There Are Ideas That Have Their Own True and Immutable Nature

   And what I believe to be more important here is that I find in myself an infinity of ideas of certain things which cannot be assumed to be pure nothingness, even though they may have perhaps no existence outside of my thought. These things are not figments of my imagination, even though it is within my power to think of them or not to think of them; on the contrary, they have their own true and immutable natures. Thus, for example, when I imagine a triangle, even though there may perhaps be no such figure anywhere in the world outside of my thought, nor ever have been, nevertheless the figure cannot help having a certain determinate nature... or essence, which is immutable and eternal, which I have not invented and which does not in any way depend upon my mind. (Descartes, 1951, p. 61)

   2) Examine What Is within Our Reach

   Let us console ourselves for not knowing the possible connections between a spider and the rings of Saturn, and continue to examine what is within our reach. (Voltaire, 1961, p. 144)

   3) Modern Philosophy Starts with the Cartesian Catastrophe

   As modern physics started with the Newtonian revolution, so modern philosophy starts with what one might call the Cartesian Catastrophe. The catastrophe consisted in the splitting up of the world into the realms of matter and mind, and the identification of "mind" with conscious thinking. The result of this identification was the shallow rationalism of l'esprit Cartesien, and an impoverishment of psychology which it took three centuries to remedy even in part. (Koestler, 1964, p. 148)

   4) The Rightful Claims of Philosophy

   It has been made of late a reproach against natural philosophy that it has struck out on a path of its own, and has separated itself more and more widely from the other sciences which are united by common philological and historical studies. The opposition has, in fact, been long apparent, and seems to me to have grown up mainly under the influence of the Hegelian philosophy, or, at any rate, to have been brought out into more distinct relief by that philosophy.... The sole object of Kant's "Critical Philosophy" was to test the sources and the authority of our knowledge, and to fix a definite scope and standard for the researches of philosophy, as compared with other sciences.... [But Hegel's] "Philosophy of Identity" was bolder. It started with the hypothesis that not only spiritual phenomena, but even the actual world-nature, that is, and man-were the result of an act of thought on the part of a creative mind, similar, it was supposed, in kind to the human mind.... The philosophers accused the scientific men of narrowness; the scientific men retorted that the philosophers were crazy. And so it came about that men of science began to lay some stress on the banishment of all philosophic influences from their work; while some of them, including men of the greatest acuteness, went so far as to condemn philosophy altogether, not merely as useless, but as mischievous dreaming. Thus, it must be confessed, not only were the illegitimate pretensions of the Hegelian system to subordinate to itself all other studies rejected, but no regard was paid to the rightful claims of philosophy, that is, the criticism of the sources of cognition, and the definition of the functions of the intellect. (Helmholz, quoted in Dampier, 1966, pp. 291-292)

   5) The Philosophy of Philosophy

   Philosophy remains true to its classical tradition by renouncing it. (Habermas, 1972, p. 317)

   6) Philosophy Is a Field Which Has Certain Central Questions

   I have not attempted... to put forward any grand view of the nature of philosophy; nor do I have any such grand view to put forth if I would. It will be obvious that I do not agree with those who see philosophy as the history of "howlers" and progress in philosophy as the debunking of howlers. It will also be obvious that I do not agree with those who see philosophy as the enterprise of putting forward a priori truths about the world.... I see philosophy as a field which has certain central questions, for example, the relation between thought and reality.... It seems obvious that in dealing with these questions philosophers have formulated rival research programs, that they have put forward general hypotheses, and that philosophers within each major research program have modified their hypotheses by trial and error, even if they sometimes refuse to admit that that is what they are doing. To that extent philosophy is a "science." To argue about whether philosophy is a science in any more serious sense seems to me to be hardly a useful occupation.... It does not seem to me important to decide whether science is philosophy or philosophy is science as long as one has a conception of both that makes both essential to a responsible view of the world and of man's place in it. (Putnam, 1975, p. xvii)

   7) The Central Task of Philosophy

   What can philosophy contribute to solving the problem of the relation [of] mind to body? Twenty years ago, many English-speaking philosophers would have answered: "Nothing beyond an analysis of the various mental concepts." If we seek knowledge of things, they thought, it is to science that we must turn. Philosophy can only cast light upon our concepts of those things.

   This retreat from things to concepts was not undertaken lightly. Ever since the seventeenth century, the great intellectual fact of our culture has been the incredible expansion of knowledge both in the natural and in the rational sciences (mathematics, logic).

   The success of science created a crisis in philosophy. What was there for philosophy to do? Hume had already perceived the problem in some degree, and so surely did Kant, but it was not until the twentieth century, with the Vienna Circle and with Wittgenstein, that the difficulty began to weigh heavily. Wittgenstein took the view that philosophy could do no more than strive to undo the intellectual knots it itself had tied, so achieving intellectual release, and even a certain illumination, but no knowledge. A little later, and more optimistically, Ryle saw a positive, if reduced role, for philosophy in mapping the "logical geography" of our concepts: how they stood to each other and how they were to be analyzed....

   Since that time, however, philosophers in the "analytic" tradition have swung back from Wittgensteinian and even Rylean pessimism to a more traditional conception of the proper role and tasks of philosophy. Many analytic philosophers now would accept the view that the central task of philosophy is to give an account, or at least play a part in giving an account, of the most general nature of things and of man. (Armstrong, 1990, pp. 37-38)

   8) Philosophy's Evolving Engagement with Artificial Intelligence and Cognitive Science

   In the beginning, the nature of philosophy's engagement with artificial intelligence and cognitive science was clear enough. The new sciences of the mind were to provide the long-awaited vindication of the most potent dreams of naturalism and materialism. Mind would at last be located firmly within the natural order. We would see in detail how the most perplexing features of the mental realm could be supported by the operations of solely physical laws upon solely physical stuff. Mental causation (the power of, e.g., a belief to cause an action) would emerge as just another species of physical causation. Reasoning would be understood as a kind of automated theorem proving. And the key to both was to be the depiction of the brain as the implementation of multiple higher level programs whose task was to manipulate and transform symbols or representations: inner items with one foot in the physical (they were realized as brain states) and one in the mental (they were bearers of contents, and their physical gymnastics were cleverly designed to respect semantic relationships such as truth preservation). (A. Clark, 1996, p. 1)

   9) The Enduring Value of Philosophy

   Socrates of Athens famously declared that "the unexamined life is not worth living," and his motto aptly explains the impulse to philosophize. Taking nothing for granted, philosophy probes and questions the fundamental presuppositions of every area of human inquiry.... [P]art of the job of the philosopher is to keep at a certain critical distance from current doctrines, whether in the sciences or the arts, and to examine instead how the various elements in our world-view clash, or fit together. Some philosophers have tried to incorporate the results of these inquiries into a grand synoptic view of the nature of reality and our human relationship to it. Others have mistrusted system-building, and seen their primary role as one of clarifications, or the removal of obstacles along the road to truth. But all have shared the Socratic vision of using the human intellect to challenge comfortable preconceptions, insisting that every aspect of human theory and practice be subjected to continuing critical scrutiny....

   Philosophy is, of course, part of a continuing tradition, and there is much to be gained from seeing how that tradition originated and developed. But the principal object of studying the materials in this book is not to pay homage to past genius, but to enrich one's understanding of central problems that are as pressing today as they have always been-problems about knowledge, truth and reality, the nature of the mind, the basis of right action, and the best way to live. These questions help to mark out the territory of philosophy as an academic discipline, but in a wider sense they define the human predicament itself; they will surely continue to be with us for as long as humanity endures. (Cottingham, 1996, pp. xxi-xxii)

    10) The Distinction between Dionysian Man and Apollonian Man, between Art and Creativity and Reason and Self- Control

   In his study of ancient Greek culture, The Birth of Tragedy, Nietzsche drew what would become a famous distinction, between the Dionysian spirit, the untamed spirit of art and creativity, and the Apollonian, that of reason and self-control. The story of Greek civilization, and all civilizations, Nietzsche implied, was the gradual victory of Apollonian man, with his desire for control over nature and himself, over Dionysian man, who survives only in myth, poetry, music, and drama. Socrates and Plato had attacked the illusions of art as unreal, and had overturned the delicate cultural balance by valuing only man's critical, rational, and controlling consciousness while denigrating his vital life instincts as irrational and base. The result of this division is "Alexandrian man," the civilized and accomplished Greek citizen of the later ancient world, who is "equipped with the greatest forces of knowledge" but in whom the wellsprings of creativity have dried up. (Herman, 1997, pp. 95-96)

MHS

1) Военный термин: Military Historical Society, Ministry of Home Security, medical history sheet

2) Техника: mechanical handling system, mechanical hydraulic control system

3) Химия: Ртуть-гидридная система (Mercury Hydride System)

4) Метеорология: Microwave Humidity Sensor

5) Юридический термин: Message Handling Switch

6) Ветеринария: Meat Hygiene Service

7) Телекоммуникации: Message Handling System (X. 400)

8) Сокращение: MASINT Hyperspectral Study, Militarhogskolan (Sweden), Mail Handling System (ISO)

9) Физиология: Mayo Health System, Memorial Healthcare System, Multi- Health Systems

10) Школьное выражение: Mandarin High School, Mesquite High School, Miami High School

11) Вычислительная техника: Message Handling System (GOSIP, X. 400, Novell, SPX, IPX), message handling system, система обработки сообщений

12) Иммунология: major histocompatibility system

13) Стоматология: (Master of Health Science) магистр валеологии

14) Фирменный знак: M Handling Systems, Maine Hosting Solutions

15) Деловая лексика: Must Have Software

16) Образование: Modern High School

17) Сетевые технологии: Message Handling Service, база дан-, база управляющей информации, система обработки сообщений МIВ база данных информации об объекте управления, служба обработки сообщений, управляющая база данных

18) Автоматика: material handling system

19) Химическое оружие: Military Health System, Mine handling system

20) Яхтенный спорт: Measurement Handicap System

21) Общественная организация: Maine Historical Society, Michigan Humane Society, Musical Heritage Society

22) Должность: Master in Health Sciences

23) Аэропорты: Mount Shasta, California

mhs

1) Военный термин: Military Historical Society, Ministry of Home Security, medical history sheet

2) Техника: mechanical handling system, mechanical hydraulic control system

3) Химия: Ртуть-гидридная система (Mercury Hydride System)

4) Метеорология: Microwave Humidity Sensor

5) Юридический термин: Message Handling Switch

6) Ветеринария: Meat Hygiene Service

7) Телекоммуникации: Message Handling System (X. 400)

8) Сокращение: MASINT Hyperspectral Study, Militarhogskolan (Sweden), Mail Handling System (ISO)

9) Физиология: Mayo Health System, Memorial Healthcare System, Multi- Health Systems

10) Школьное выражение: Mandarin High School, Mesquite High School, Miami High School

11) Вычислительная техника: Message Handling System (GOSIP, X. 400, Novell, SPX, IPX), message handling system, система обработки сообщений

12) Иммунология: major histocompatibility system

13) Стоматология: (Master of Health Science) магистр валеологии

14) Фирменный знак: M Handling Systems, Maine Hosting Solutions

15) Деловая лексика: Must Have Software

16) Образование: Modern High School

17) Сетевые технологии: Message Handling Service, база дан-, база управляющей информации, система обработки сообщений МIВ база данных информации об объекте управления, служба обработки сообщений, управляющая база данных

18) Автоматика: material handling system

19) Химическое оружие: Military Health System, Mine handling system

20) Яхтенный спорт: Measurement Handicap System

21) Общественная организация: Maine Historical Society, Michigan Humane Society, Musical Heritage Society

22) Должность: Master in Health Sciences

23) Аэропорты: Mount Shasta, California

Boston

Бостон

Город в восточной части штата Массачусетс, административный центр (столица) штата. 589,1 тысячи жителей (2000), с пригородами 3,4 млн. жителей, в Большом Бостоне 5,819 млн. жителей. Основан в 1630, один из старейших городов США. Сыграл особую роль как центр освоения континента (столица Колонии Массачусетского залива [ Massachusetts Bay Colony]), заслужил официальное прозвище "Колыбель революции" [Cradle of the Revolution, the]. Важный транспортный узел, морской порт (в устье р. Чарльз [ Charles River]). Международный аэропорт Логан [ Logan International Airport]. Торгово-финансовый, промышленный и научно-культурный центр Новой Англии [ New England]. В городе 16 больниц и 8 крупнейших медицинских научно-исследовательских центров. Здесь расположены правления крупных банков и промышленных корпораций. Многоотраслевая промышленность: приборостроение, производство медицинских инструментов, фототехники (фирма "Полароид" [ Polaroid Corp.]), радиоэлектроника, электротехника; судостроение; кожевенно-обувная, полиграфическая промышленность. Гарвардский университет [ Harvard University], Массачусетский технологический институт [ Massachusetts Institute of Technology], филиал Массачусетского университета [ Massachusetts, University of], Американская академия гуманитарных и точных наук [ American Academy of Arts and Sciences].

см тж Beacon Hill, Beacon Street, Boston Bay, Boston National Historical Park, Boston Naval Base, Boston Public Library, Charles River, Boston Massacre, Boston Tea Party, Boston brahmins, Boston police strike, Bay Psalm Book, Body of Liberties, Boston News-Letter, Boston Post Road; Boston Latin School, Boston College, Boston University; Boston Bruins, Boston Celtics, Boston Marathon, Boston Red Sox; Boston Globe

Near North Side

Ближний Норт-Сайд

Престижный район г. Чикаго, славится многочисленными магазинами, отелями, ночными клубами. Здесь находятся Чикагская Академия наук [Chicago Academy of Sciences], Чикагское историческое общество [Chicago Historical Society], Галерея славы Международного хирургического колледжа [International College of Surgeons Hall of Fame], парк Линкольна [ Lincoln Park] с дендрарием и зоопарком, Военно-морской пирс [ Navy Pier], а также единственное здание, уцелевшее после пожара 1871 [ Chicago Fire] - старинная водонапорная башня [ Water Tower]

materialism

n філос. матеріалізм

- dialectic materialism діалектичний матеріалізм

- historical materialism історичний матеріалізм

- mechanistic materialism механістичний матеріалізм

- philosophical materialism філософський матеріалізм

- materialism of the natural sciences природничо-історичний матеріалізм

Chronology

  15,000-3,000 BCE Paleolithic cultures in western Portugal.

  400-200 BCE Greek and Carthaginian trade settlements on coast.

  202 BCE Roman armies invade ancient Lusitania.

  137 BCE Intensive Romanization of Lusitania begins.

  410 CE Germanic tribes — Suevi and Visigoths—begin conquest of Roman Lusitania and Galicia.

  714—16 Muslims begin conquest of Visigothic Lusitania.

  1034 Christian Reconquest frontier reaches Mondego River.

  1064 Christians conquer Coimbra.

  1139 Burgundian Count Afonso Henriques proclaims himself king of Portugal; birth of Portugal. Battle of Ourique: Afonso Henriques defeats Muslims.

  1147 With English Crusaders' help, Portuguese seize Lisbon from Muslims.

  1179 Papacy formally recognizes Portugal's independence (Pope Alexander III).

  1226 Campaign to reclaim Alentejo from Muslims begins.

  1249 Last Muslim city (Silves) falls to Portuguese Army.

  1381 Beginning of third war between Castile and Portugal.

  1383 Master of Aviz, João, proclaimed regent by Lisbon populace.

  1385 April: Master of Aviz, João I, proclaimed king of Portugal by Cortes of Coimbra. 14 August: Battle of Aljubarrota, Castilians defeated by royal forces, with assistance of English army.

  1394 Birth of "Prince Henry the Navigator," son of King João I.

  1415 Beginning of overseas expansion as Portugal captures Moroccan city of Ceuta.

  1419 Discovery of Madeira Islands.

  1425-28 Prince D. Pedro, older brother of Prince Henry, travels in Europe.

  1427 Discovery (or rediscovery?) of Azores Islands.

  1434 Prince Henry the Navigator's ships pass beyond Cape Bojador, West Africa.

  1437 Disaster at Tangier, Morocco, as Portuguese fail to capture city.

  1441 First African slaves from western Africa reach Portugal.

  1460 Death of Prince Henry. Portuguese reach what is now Senegal, West Africa.

  1470s Portuguese explore West African coast and reach what is now Ghana and Nigeria and begin colonizing islands of São Tomé and Príncipe.

  1479 Treaty of Alcáçovas between kings of Portugal and Spain.

  1482 Portuguese establish post at São Jorge da Mina, Gold Coast (now Ghana).

  1482-83 Portuguese navigator Diogo Cão reaches mouth of Congo River and Angola.

  1488 Navigator Bartolomeu Dias rounds Cape of Good Hope, South Africa, and finds route to Indian Ocean.

  1492-93 Columbus's first voyage to West Indies.

  1493 Columbus visits Azores and Portugal on return from first voyage; tells of discovery of New World. Treaty of Tordesillas signed between kings of Portugal and Spain: delimits spheres of conquest with line 370 leagues west of Cape Verde Islands (claimed by Portugal); Portugal's sphere to east of line includes, in effect, Brazil.

   King Manuel I and Royal Council decide to continue seeking all-water route around Africa to Asia.

   King Manuel I expels unconverted Jews from Portugal.

  1497-99 Epic voyage of Vasco da Gama from Portugal around Africa to west India, successful completion of sea route to Asia project; da Gama returns to Portugal with samples of Asian spices.

  1500 Bound for India, Navigator Pedro Álvares Cabral "discovers" coast of Brazil and claims it for Portugal.

  1506 Anti-Jewish riots in Lisbon.

   Battle of Diu, India; Portugal's command of Indian Ocean assured for some time with Francisco de Almeida's naval victory over Egyptian and Gujerati fleets.

   Afonso de Albuquerque conquers Goa, India; beginning of Portuguese hegemony in south Asia.

   Portuguese conquest of Malacca; commerce in Spice Islands.

  1519 Magellan begins circumnavigation voyage.

  1536 Inquisition begins in Portugal.

  1543 Portuguese merchants reach Japan.

  1557 Portuguese merchants granted Chinese territory of Macau for trading factory.

  1572 Luís de Camões publishes epic poem, Os Lusíadas.

  1578 Battle of Alcácer-Quivir; Moroccan forces defeat army of King Sebastião of Portugal; King Sebastião dies in battle. Portuguese succession crisis.

  1580 King Phillip II of Spain claims and conquers Portugal; Spanish rule of Portugal, 1580-1640.

  1607-24 Dutch conquer sections of Asia and Brazil formerly held by Portugal.

  1640 1 December: Portuguese revolution in Lisbon overthrows Spanish rule, restores independence. Beginning of Portugal's Braganza royal dynasty.

  1654 Following Dutch invasions and conquest of parts of Brazil and Angola, Dutch expelled by force.

  1661 Anglo-Portuguese Alliance treaty signed: England pledges to defend Portugal "as if it were England itself." Queen Catherine of Bra-ganza marries England's Charles II.

  1668 February: In Portuguese-Spanish peace treaty, Spain recognizes independence of Portugal, thus ending 28-year War of Restoration.

  1703 Methuen Treaties signed, key commercial trade agreement and defense treaty between England and Portugal.

  1750 Pombal becomes chief minister of King José I.

  1755 1 November: Massive Lisbon earthquake, tidal wave, and fire.

  1759 Expulsion of Jesuits from Portugal and colonies.

  1761 Slavery abolished in continental Portugal.

  1769 Abandonment of Mazagão, Morocco, last Portuguese outpost.

  1777 Pombal dismissed as chief minister by Queen Maria I, after death of José I.

  1791 Portugal and United States establish full diplomatic relations.

  1807 November: First Napoleonic invasion; French forces under Junot conquer Portugal. Royal family flees to colony of Brazil and remains there until 1821.

  1809 Second French invasion of Portugal under General Soult.

  1811 Third French invasion of Portugal under General Masséna.

  1813 Following British general Wellington's military victories, French forces evacuate Portugal.

  1817 Liberal, constitutional movements against absolutist monarchist rule break out in Brazil (Pernambuco) and Portugal (Lisbon, under General Gomes Freire); crushed by government. British marshal of Portugal's army, Beresford, rules Portugal.

   Liberal insurrection in army officer corps breaks out in Cadiz, Spain, and influences similar movement in Portugal's armed forces first in Oporto.

   King João VI returns from Rio de Janeiro, Brazil, and early draft of constitution; era of constitutional monarchy begins.

  1822 7 September: João VI's son Pedro proclaims independence of

   Brazil from Portugal and is named emperor. 23 September: Constitution of 1822 ratified.

   Portugal recognizes sovereign independence of Brazil.

   King João VI dies; power struggle for throne ensues between his sons, brothers Pedro and Miguel; Pedro, emperor of Brazil, abdicates Portuguese throne in favor of his daughter, D. Maria II, too young to assume crown. By agreement, Miguel, uncle of D. Maria, is to accept constitution and rule in her stead.

  1828 Miguel takes throne and abolishes constitution. Sections of Portugal rebel against Miguelite rule.

  1831 Emperor Pedro abdicates throne of Brazil and returns to Portugal to expel King Miguel from Portuguese throne.

  1832-34 Civil war between absolutist King Miguel and constitutionalist Pedro, who abandons throne of Brazil to restore his young daughter Maria to throne of Portugal; Miguel's armed forces defeated by those of Pedro. Miguel leaves for exile and constitution (1826 Charter) is restored.

  1834-53 Constitutional monarchy consolidated under rule of Queen Maria II, who dies in 1853.

  1851-71 Regeneration period of economic development and political stability; public works projects sponsored by Minister Fontes Pereira de Melo.

  1871-90 Rotativism period of alternating party governments; achieves political stability and less military intervention in politics and government. Expansion of colonial territory in tropical Africa.

   January: Following territorial dispute in central Africa, Britain delivers "Ultimatum" to Portugal demanding withdrawal of Portugal's forces from what is now Malawi and Zimbabwe. Portugal's government, humiliated in accepting demand under threat of a diplomatic break, falls. Beginning of governmental and political instability; monarchist decline and republicanism's rise.

   Anglo-Portuguese treaties signed relating to delimitation of frontiers in colonial Africa.

  1899 Treaty of Windsor; renewal of Anglo-Portuguese defense and friendship alliance.

  1903 Triumphal visit of King Edward VII to Portugal.

  1906 Politician João Franco supported by King Carlos I in dictatorship to restore order and reform.

  1908 1 February: Murder in Lisbon of King Carlos I and his heir apparent, Prince Dom Luís, by Portuguese anarchists. Eighteen-year-old King Manuel II assumes throne.

  1910 3-5 October: Following republican-led military insurrection in armed forces, monarchy falls and first Portuguese republic is proclaimed. Beginning of unstable, economically troubled, parliamentary republic form of government.

   May: Violent insurrection in Lisbon overturns government of General Pimenta de Castro; nearly a thousand casualties from several days of armed combat in capital.

   March: Following Portugal's honoring ally Britain's request to confiscate German shipping in Portuguese harbors, Germany declares war on Portugal; Portugal enters World War I on Allied side.

   Portugal organizes and dispatches Portuguese Expeditionary Corps to fight on the Western Front. 9 April: Portuguese forces mauled by German offensive in Battle of Lys. Food rationing and riots in Lisbon. Portuguese military operations in Mozambique against German expedition's invasion from German East Africa. 5 December: Authoritarian, presidentialist government under Major Sidónio Pais takes power in Lisbon, following a successful military coup.

  1918 11 November: Armistice brings cessation of hostilities on Western Front in World War I. Portuguese expeditionary forces stationed in Angola, Mozambique, and Flanders begin return trip to Portugal. 14 December: President Sidónio Pais assassinated. Chaotic period of ephemeral civil war ensues.

  1919-21 Excessively unstable political period, including January

  1919 abortive effort of Portuguese monarchists to restore Braganza dynasty to power. Republican forces prevail, but level of public violence, economic distress, and deprivation remains high.

  1921 October: Political violence attains peak with murder of former prime minister and other prominent political figures in Lisbon. Sectors of armed forces and Guarda Nacional Republicana are mutinous. Year of financial and corruption scandals, including Portuguese bank note (fraud) case; military court acquits guilty military insurrectionists, and one military judge declares "the country is sick."

   28 May: Republic overthrown by military coup or pronunciamento and conspiracy among officer corps. Parliament's doors locked and parliament closed for nearly nine years to January 1935. End of parliamentary republic, Western Europe's most unstable political system in this century, beginning of the Portuguese dictatorship, after 1930 known as the Estado Novo. Officer corps assumes reins of government, initiates military censorship of the press, and suppresses opposition.

   February: Military dictatorship under General Óscar Carmona crushes failed republican armed insurrection in Oporto and Lisbon.

   April: Military dictatorship names Professor Antônio de Oliveira Salazar minister of finance, with dictatorial powers over budget, to stabilize finances and rebuild economy. Insurrectionism among military elements continues into 1931.

  1930 Dr. Salazar named minister for colonies and announces balanced budgets. Salazar consolidates support by various means, including creation of official regime "movement," the National Union. Salazar engineers Colonial Act to ensure Lisbon's control of bankrupt African colonies by means of new fiscal controls and centralization of authority. July: Military dictatorship names Salazar prime minister for first time, and cabinet composition undergoes civilianization; academic colleagues and protégés plan conservative reform and rejuvenation of society, polity, and economy. Regime comes to be called the Estado Novo (New State). New State's constitution ratified by new parliament, the National Assembly; Portugal described in document as "unitary, corporative Republic" and governance influenced by Salazar's stern personality and doctrines such as integralism, Catholicism, and fiscal conservatism.

  1936 Violent instability and ensuing civil war in neighboring Spain, soon internationalized by fascist and communist intervention, shake Estado Novo regime. Pseudofascist period of regime features creation of imitation Fascist institutions to defend regime from leftist threats; Portugal institutes "Portuguese Youth" and "Portuguese Legion."

  1939 3 September: Prime Minister Salazar declares Portugal's neutrality in World War II. October: Anglo-Portuguese agreement grants naval and air base facilities to Britain and later to United States for Battle of the Atlantic and Normandy invasion support. Third Reich protests breach of Portugal's neutrality.

   6 June: On day of Allies' Normandy invasion, Portugal suspends mining and export of wolfram ore to both sides in war.

   8 May: Popular celebrations of Allied victory and Fascist defeat in Lisbon and Oporto coincide with Victory in Europe Day. Following managed elections for Estado Novo's National Assembly in November, regime police, renamed PIDE, with increased powers, represses opposition.

  1947 Abortive military coup in central Portugal easily crushed by regime. Independence of India and initiation of Indian protests against Portuguese colonial rule in Goa and other enclaves.

  1949 Portugal becomes founding member of NATO.

  1951 Portugal alters constitution and renames overseas colonies "Overseas Provinces." Portugal and United States sign military base agreements for use of air and naval facilities in Azores Islands and military aid to Lisbon. President Carmona dies in office, succeeded by General Craveiro Lopes (1951-58). July: Indians occupy enclave of Portuguese India (dependency of Damão) by means of passive resistance movement. August: Indian passive resistance movement in Portuguese India repelled by Portuguese forces with loss of life. December: With U.S. backing, Portugal admitted as member of United Nations (along with Spain). Air force general Humberto Delgado, in opposition, challenges Estado Novo's hand-picked successor to Craveiro Lopes, Admiral Américo Tomás. Delgado rallies coalition of democratic, liberal, and communist opposition but loses rigged election and later flees to exile in Brazil. Portugal joins European Free Trade Association (EFTA).

   January and February: Estado Novo rocked by armed African insurrection in northern Angola, crushed by armed forces. Hijacking of Portuguese ocean liner by ally of Delgado, Captain Henrique Galvão. April: Salazar defeats attempted military coup and reshuffles cabinet with group of younger figures who seek to reform colonial rule and strengthen the regime's image abroad. 18 December: Indian army rapidly defeats Portugal's defense force in Goa, Damão, and Diu and incorporates Portugal's Indian possessions into Indian Union. January: Abortive military coup in Beja, Portugal.

  1965 February: General Delgado and his Brazilian secretary murdered and secretly buried near Spanish frontier by political police, PIDE.

  1968 August and September: Prime Minister Salazar, aged 79, suffers crippling stoke. President Tomás names former cabinet officer Marcello Caetano as Salazar's successor. Caetano institutes modest reforms in Portugal and overseas.

  1971 Caetano government ratifies amended constitution that allows slight devolution and autonomy to overseas provinces in Africa and Asia. Right-wing loyalists oppose reforms in Portugal. 25 April: Military coup engineered by Armed Forces Movement overthrows Estado Novo and establishes provisional government emphasizing democratization, development, and decolonization. Limited resistance by loyalists. President Tomás and Premier Caetano flown to exile first in Madeira and then in Brazil. General Spínola appointed president. September: Revolution moves to left, as President Spínola, thwarted in his program, resigns.

   March: Military coup by conservative forces fails, and leftist response includes nationalization of major portion of economy. Polarization between forces and parties of left and right. 25 November: Military coup by moderate military elements thwarts leftist forces. Constituent Assembly prepares constitution. Revolution moves from left to center and then right.

   March: Constitution ratified by Assembly of the Republic. 25 April: Second general legislative election gives largest share of seats to Socialist Party (PS). Former oppositionist lawyer, Mário Soares, elected deputy and named prime minister.

  1977-85 Political pendulum of democratic Portugal moves from center-left to center-right, as Social Democratic Party (PSD) increases hold on assembly and take office under Prime Minister Cavaco Silva. July

  1985 elections give edge to PSD who advocate strong free-enterprise measures and revision of leftist-generated 1976 Constitution, amended modestly in 1982.

  1986 January: Portugal joins European Economic Community (EEC).

  1987 July: General, legislative elections for assembly give more than 50 percent to PSD led by Prime Minister Cavaco Silva. For first time, since 1974, Portugal has a working majority government.

  1989 June: Following revisions of 1976 Constitution, reprivatization of economy begins, under PS government.

   January: Presidential elections, Mário Soares reelected for second term. July: General, legislative elections for assembly result in new PSD victory and majority government.

   January-July: Portugal holds presidency of the Council of the European Economic Community (EEC). December: Tariff barriers fall as fully integrated Common Market established in the EEC.

   November: Treaty of Maastricht comes into force. The EEC officially becomes the European Union (EU). Portugal is signatory with 11 other member-nations.

   October: General, legislative elections for assembly result in PS victory and naming of Prime Minister Guterres. PS replace PSD as leading political party. November: Excavations for Lisbon bank uncover ancient Phoenician, Roman, and Christian ruins.

   January: General, presidential elections; socialist Jorge Sampaio defeats PSD's Cavaco Silva and assumes presidency from Dr. Mário Soares. July: Community of Portuguese Languages Countries (CPLP) cofounded by Portugal and Brazil.

   May-September: Expo '98 held in Lisbon. Opening of Vasco da Gama Bridge across Tagus River, Europe's longest (17 kilometers/ 11 miles). June: National referendum on abortion law change defeated after low voter turnout. November: National referendum on regionaliza-tion and devolution of power defeated after another low voter turnout.

   October: General, legislative elections: PS victory over PSD lacks clear majority in parliament. Following East Timor referendum, which votes for independence and withdrawal of Indonesia, outburst of popular outrage in streets, media, and communications of Portugal approves armed intervention and administration of United Nations (and withdrawal of Indonesia) in East Timor. Portugal and Indonesia restore diplomatic relations. December: A Special Territory since 1975, Colony of Macau transferred to sovereignty of People's Republic of China.

   January-June: Portugal holds presidency of the Council of the EU; end of Discoveries Historical Commemoration Cycle (1988-2000).

   United Nations forces continue to occupy and administer former colony of East Timor, with Portugal's approval.

   January: General, presidential elections; PS president Sampaio reelected for second term. City of Oporto, "European City of Culture" for the year, hosts arts festival. December: Municipal elections: PSD defeats PS; socialist prime minister Guterres resigns; President Sampaio calls March parliamentary elections.

   1 January: Portugal enters single European Currency system. Euro currency adopted and ceases use of former national currency, the escudo. March: Parliamentary elections; PSD defeats PS and José Durão Barroso becomes prime minister. Military modernization law passed. Portugal holds chairmanship of Organization for Security and Co-operation in Europe (OSCE).

   May: Municipal law passed permitting municipalities to reorganize in new ways.

   June: Prime Minister Durão Barroso, invited to succeed Romano Prodi as president of EU Commission, resigns. Pedro Santana Lopes becomes prime minister. European Parliament elections held. Conscription for national service in army and navy ended. Mass grave uncovered at Academy of Sciences Museum, Lisbon, revealing remains of several thousand victims of Lisbon earthquake, 1755.

   February: Parliamentary elections; PS defeats PSD, socialists win first absolute majority in parliament since 1975. José Sócrates becomes prime minister.

   January: Presidential elections; PSD candidate Aníbal Cavaco Silva elected and assumes presidency from Jorge Sampaio. Portugal's national soccer team ranked 7th out of 205 countries by international soccer association. European Union's Bologna Process in educational reform initiated in Portugal.

   July-December: Portugal holds presidency of the Council of the European Union. For reasons of economy, Portugal announces closure of many consulates, especially in France and the eastern US. Government begins official inspections of private institutions of higher education, following scandals.

  2008 January: Prime Minister Sócrates announces location of new Lisbon area airport as Alcochete, on south bank of Tagus River, site of air force shooting range. February: Portuguese Army begins to receive new modern battle tanks (Leopard 2 A6). March: Mass protest of 85,000 public school (primary and secondary levels) teachers in Lisbon schools dispute recent educational policies of minister of education and prime minister.

Rosas, Fernando

(1946-)

   Portuguese academic, writer, and politician. A student at Lisbon's Pedro Nunes High School, Rosas joined the Portuguese Communist Party (PCP) through an organization at that school in 1961. He entered Lisbon University's Law School and, as a militant leftist student, was arrested and imprisoned by the political police, PIDE, on several occasions in 1965, 1971, and 1973. He went underground to escape further arrest and prison until the Revolution of 25 April 1974. After he had broken with the PCP following the Paris student riots of May 1968 and the Soviet invasion of Czechoslovakia, Rosas joined a Maoist organization and directed a radical newspaper, Luta Popular (People's Struggle).

   Rosas returned to university study in 1981, producing a great deal of journalism oriented to historical studies in major Lisbon newspapers such as Diário de Notícias and Público. In 1986, he received a master's degree in contemporary history and joined the human and social sciences faculty at the New University of Lisbon. In 1990, he completed his Ph.D. in history and became president of the Instituto de Historia Contemporanea, a consultant for the Mário Soares Foundation, and editor of História magazine. In 1999, he reentered politics and helped establish a party coalition, Left Bloc or Bloco de Esquerda (BE); in the 2001 presidential elections he ran as a candidate for the BE, garnering only 2.9 percent of the vote.

   In 2006, he was decorated by the president of the republic with a medal, as Commander of the Great Cross, Order of Liberty. An authority on the subject of 20th-century political and economic history, especially on the period of the Estado Novo, he is the author, coauthor, or editor of more than a dozen books and many scores of articles and chapters in newspapers and scholarly and popular journals and magazines, and he has been active in organizing international scholarly conferences.

Burks, Arthur Walter

SUBJECT AREA: Electronics and information technology

[br]

b. 13 October 1915 Duluth, Minnesota, USA

[br]

American engineer involved in the development of the ENIAC and Whirlwind computers.

[br]

After obtaining his AB degree from De Pere University, Wisconsin (1937), and his AM and PhD from the University of Michigan (1938 and 1941, respectively), Burks carried out research at the Moore School of Engineering, University of Pennsylvania, during the Second World War, and at the same time taught philosophy in another department. There, with Herman Goldstine, he was involved in the construction of ENIAC (the Electronic Numerical Integrator and Computer).

In 1946 he took a post as Assistant Professor of Engineering at Michigan University, and subsequently became Associate Professor (1948) and Full Professor (1954). Between 1946 and 1948 he was also associated with the computer activities of John von Neumann at the Institute of Advanced Studies, Princeton, and was involved in the development of the Whirlwind I computer (the first stored-program computer) by Jay Forrester at the Massachusetts Institute of Technology. From 1948 until 1954 he was a consultant for the Burroughs Corporation and also contributed to the Oak Ridge computer ORACLE. He was Chairman of the Michigan University Department of Communications Science in 1967–71 and at various times was Visiting Professor at Harvard University and the universities of Illinois and Stanford. In 1975 he became Editor of the Journal of Computer and System Sciences.

[br]

Bibliography

1946. "Super electronic computing machine", Electronics Industry 62.

1947. "Electronic computing circuits of the ENIAC", Proceedings of the Institute of Radio Engineers 35:756.

1980, "From ENIAC to the stored program computer. Two revolutions in computing", in N.Metropolis, J.Hewlett \& G.-C.Rota (eds), A History of Computing in the 20th Century, London: Academic Press.

Further Reading

J.W.Corlada, 1987, Historical Dictionary of Data Processing (provides further details of Burk's career).

KF

Morse, Samuel Finley Breeze

SUBJECT AREA: Telecommunications

[br]

b. 27 April 1791 Charlestown, Massachusetts, USA

d. 2 April 1872 New York City, New York, USA

[br]

American portrait painter and inventor, b est known for his invention of the telegraph and so-called Morse code.

[br]

Following early education at Phillips Academy, Andover, at the age of 14 years Morse went to Yale College, where he developed interests in painting and electricity. Upon graduating in 1810 he became a clerk to a Washington publisher and a pupil of Washington Allston, a well-known American painter. The following year he travelled to Europe and entered the London studio of another American artist, Benjamin West, successfully exhibiting at the Royal Academy as well as winning a prize and medal for his sculpture. Returning to Boston and finding little success as a "historical-style" painter, he built up a thriving portrait business, moving in 1818 to Charleston, South Carolina, where three years later he established the (now defunct) South Carolina Academy of Fine Arts. In 1825 he was back in New York, but following the death of his wife and both of his parents that year, he embarked on an extended tour of European art galleries. In 1832, on the boat back to America, he met Charles T.Jackson, who told him of the discovery of the electromagnet and fired his interest in telegraphy to the extent that Morse immediately began to make suggestions for electrical communications and, apparently, devised a form of printing telegraph. Although he returned to his painting and in 1835 was appointed the first Professor of the Literature of Art and Design at the University of New York City, he began to spend more and more time experimenting in telegraphy. In 1836 he invented a relay as a means of extending the cable distance over which telegraph signals could be sent. At this time he became acquainted with Alfred Vail, and the following year, when the US government published the requirements for a national telegraph service, they set out to produce a workable system, with finance provided by Vail's father (who, usefully, owned an ironworks). A patent was filed on 6 October 1837 and a successful demonstration using the so-called Morse code was given on 6 January 1838; the work was, in fact, almost certainly largely that of Vail. As a result of the demonstration a Bill was put forward to Congress for $30,000 for an experimental line between Washington and Baltimore. This was eventually passed and the line was completed, and on 24 May 1844 the first message, "What hath God wrought", was sent between the two cities. In the meantime Morse also worked on the insulation of submarine cables by means of pitch tar and indiarubber.

With success achieved, Morse offered his invention to the Government for $100,000, but this was declined, so the invention remained in private hands. To exploit it, Morse founded the Magnetic Telephone Company in 1845, amalgamating the following year with the telegraph company of a Henry O'Reilly to form Western Union. Having failed to obtain patents in Europe, he now found himself in litigation with others in the USA, but eventually, in 1854, the US Supreme Court decided in his favour and he soon became very wealthy. In 1857 a proposal was made for a telegraph service across the whole of the USA; this was completed in just over four months in 1861. Four years later work began on a link to Europe via Canada, Alaska, the Aleutian Islands and Russia, but it was abandoned with the completion of the transatlantic cable, a venture in which he also had some involvement. Showered with honours, Morse became a generous philanthropist in his later years. By 1883 the company he had created was worth $80 million and had a virtual monopoly in the USA.

[br]

Principal Honours and Distinctions

LLD, Yale 1846. Fellow of the Academy of Arts and Sciences 1849. Celebratory Banquet, New York, 1869. Statue in New York Central Park 1871. Austrian Gold Medal of Scientific Merit. Danish Knight of the Danneborg. French Légion d'honneur. Italian Knight of St Lazaro and Mauritio. Portuguese Knight of the Tower and Sword. Turkish Order of Glory.

Bibliography

E.L.Morse (ed.), 1975, Letters and Journals, New York: Da Capo Press (facsimile of a 1914 edition).

Further Reading

J.Munro, 1891, Heroes of the Telegraph (discusses his telegraphic work and its context).

C.Mabee, 1943, The American Leonardo: A Life of Samuel Morse; reprinted 1969 (a detailed biography).

KF

Randall, Sir John Turton

SUBJECT AREA: Medical technology

[br]

b. 23 March 1905 Newton-le-Willows, Lancashire, England

d. 16 June 1984 Edinburgh, Scotland

[br]

English physicist and biophysicist, primarily known for the development, with Boot of the cavity magnetron.

[br]

Following secondary education at Ashton-inMakerfield Grammar School, Randall entered Manchester University to read physics, gaining a first class BSc in 1925 and his MSc in 1926. From 1926 to 1937 he was a research physicist at the General Electric Company (GEC) laboratories, where he worked on luminescent powders, following which he became Warren Research Fellow of the Royal Society at Birmingham University, studying electronic processes in luminescent solids. With the outbreak of the Second World War he became an honorary member of the university staff and transferred to a group working on the development of centrimetric radar. With Boot he was responsible for the development of the cavity magnetron, which had a major impact on the development of radar.

When Birmingham resumed its atomic research programme in 1943, Randall became a temporary lecturer at the Cavendish Laboratory in Cambridge. The following year he was appointed Professor of Natural Philosophy at the University of St Andrews, but in 1946 he moved again to the Wheatstone Chair of Physics at King's College, London. There his developing interest in biophysical research led to the setting up of a multi-disciplinary group in 1951 to study connective tissues and other biological components, and in 1950– 5 he was joint Editor of Progress in Biophysics. From 1961 until his retirement in 1970 he was Professor of Biophysics at King's College and for most of that time he was also Chairman of the School of Biological Sciences. In addition, for many years he was honorary Director of the Medical Research Council Biophysics Research Unit.

After he retired he returned to Edinburgh and continued to study biological problems in the university zoology laboratory.

[br]

Principal Honours and Distinctions

Knighted 1962. FRS 1946. FRS Edinburgh 1972. DSc Manchester 1938. Royal Society of Arts Thomas Gray Memorial Prize 1943. Royal Society Hughes Medal 1946. Franklin Institute John Price Wetherill Medal 1958. City of Pennsylvania John Scott Award 1959. (All jointly with Boot for the cavity magnetron.)

Bibliography

1934, Diffraction of X-Rays by Amorphous Solids, Liquids \& Gases (describes his early work).

1953, editor, Nature \& Structure of Collagen.

1976, with H.Boot, "Historical notes on the cavity magnetron", Transactions of the Institute of Electrical and Electronics Engineers ED-23: 724 (gives an account of the cavity-magnetron development at Birmingham).

Further Reading

M.H.F.Wilkins, "John Turton Randall"—Bio-graphical Memoirs of Fellows of the Royal Society, London: Royal Society.

KF

Science

   1) Thoughts, Feelings, and Actions of Sentient Beings Are Not a Subject of Science

   It is a common notion, or at least it is implied in many common modes of speech, that the thoughts, feelings, and actions of sentient beings are not a subject of science.... This notion seems to involve some confusion of ideas, which it is necessary to begin by clearing up. Any facts are fitted, in themselves, to be a subject of science, which follow one another according to constant laws; although those laws may not have been discovered, nor even to be discoverable by our existing resources. (Mill, 1900, B. VI, Chap. 3, Sec. 1)

   2) Two Contending But Complementary Philosophies of Science

   One class of natural philosophers has always a tendency to combine the phenomena and to discover their analogies; another class, on the contrary, employs all its efforts in showing the disparities of things. Both tendencies are necessary for the perfection of science, the one for its progress, the other for its correctness. The philosophers of the first of these classes are guided by the sense of unity throughout nature; the philosophers of the second have their minds more directed towards the certainty of our knowledge. The one are absorbed in search of principles, and neglect often the peculiarities, and not seldom the strictness of demonstration; the other consider the science only as the investigation of facts, but in their laudable zeal they often lose sight of the harmony of the whole, which is the character of truth. Those who look for the stamp of divinity on every thing around them, consider the opposite pursuits as ignoble and even as irreligious; while those who are engaged in the search after truth, look upon the other as unphilosophical enthusiasts, and perhaps as phantastical contemners of truth.... This conflict of opinions keeps science alive, and promotes it by an oscillatory progress. (Oersted, 1920, p. 352)

   3) The Fundamental Ideas of Science Are Essentially Simple

   Most of the fundamental ideas of science are essentially simple, and may, as a rule, be expressed in a language comprehensible to everyone. (Einstein & Infeld, 1938, p. 27)

   4) A New Scientific Truth Triumphs Because Its Opponents Eventually Die

   A new scientific truth does not triumph by convincing its opponents and making them see the light, but rather because its opponents eventually die, and a new generation grows up that is familiar with it. (Planck, 1949, pp. 33-34)

   [Original quotation: "Eine neue wissenschaftliche Wahrheit pflegt sich nicht in der Weise durchzusetzen, dass ihre Gegner ueberzeugt werden und sich as belehrt erklaeren, sondern vielmehr dadurch, dass die Gegner allmaehlich aussterben und dass die heranwachsende Generation von vornherein mit der Wahrheit vertraut gemacht ist." (Planck, 1990, p. 15)]

   5) The Search for the Absolute

   I had always looked upon the search for the absolute as the noblest and most worth while task of science. (Planck, 1949, p. 46)

   6) When Your Scientific Doing Is Worthless

   If you cannot-in the long run-tell everyone what you have been doing, your doing has been worthless. (SchroЁdinger, 1951, pp. 7-8)

   7) Description in Plain Language Is a Criterion of Understanding

   Even for the physicist the description in plain language will be a criterion of the degree of understanding that has been reached. (Heisenberg, 1958, p. 168)

   8) The Tentativeness of Scientific Statements

   The old scientific ideal of episteґmeґ-of absolutely certain, demonstrable knowledge-has proved to be an idol. The demand for scientific objectivity makes it inevitable that every scientific statement must remain tentative forever. It may indeed be corroborated, but every corroboration is relative to other statements which, again, are tentative. Only in our subjective experiences of conviction, in our subjective faith, can we be "absolutely certain." (Popper, 1959, p. 280)

   9) Scientists Often Close Their Minds to New Scientific Evidence

   The layman, taught to revere scientists for their absolute respect for the observed facts, and for the judiciously detached and purely provisional manner in which they hold scientific theories (always ready to abandon a theory at the sight of any contradictory evidence) might well have thought that, at Miller's announcement of this overwhelming evidence of a "positive effect" [indicating that the speed of light is not independent from the motion of the observer, as Einstein's theory of relativity demands] in his presidential address to the American Physical Society on December 29th, 1925, his audience would have instantly abandoned the theory of relativity. Or, at the very least, that scientists-wont to look down from the pinnacle of their intellectual humility upon the rest of dogmatic mankind-might suspend judgment in this matter until Miller's results could be accounted for without impairing the theory of relativity. But no: by that time they had so well closed their minds to any suggestion which threatened the new rationality achieved by Einstein's world-picture, that it was almost impossible for them to think again in different terms. Little attention was paid to the experiments, the evidence being set aside in the hope that it would one day turn out to be wrong. (Polanyi, 1958, pp. 12-13)

    10) The Practice of Normal Science

   The practice of normal science depends on the ability, acquired from examplars, to group objects and situations into similarity sets which are primitive in the sense that the grouping is done without an answer to the question, "Similar with respect to what?" (Kuhn, 1970, p. 200)

    11) Of What Science Consists

   Science in general... does not consist in collecting what we already know and arranging it in this or that kind of pattern. It consists in fastening upon something we do not know, and trying to discover it. (Collingwood, 1972, p. 9)

    12) The Emergence of Scientific Fields

   Scientific fields emerge as the concerns of scientists congeal around various phenomena. Sciences are not defined, they are recognized. (Newell, 1973a, p. 1)

    13) We Do Not Take Our Theories Seriously Enough

   This is often the way it is in physics-our mistake is not that we take our theories too seriously, but that we do not take them seriously enough. I do not think it is possible really to understand the successes of science without understanding how hard it is-how easy it is to be led astray, how difficult it is to know at any time what is the next thing to be done. (Weinberg, 1977, p. 49)

    14) Science Takes away Philosophical Foundations

   Science is wonderful at destroying metaphysical answers, but incapable of providing substitute ones. Science takes away foundations without providing a replacement. Whether we want to be there or not, science has put us in a position of having to live without foundations. It was shocking when Nietzsche said this, but today it is commonplace; our historical position-and no end to it is in sight-is that of having to philosophize without "foundations." (Putnam, 1987, p. 29)

innovation

1. инновация
2. инновации

 

инновации
1. Процесс создания и освоения новых технологий и продуктов, приводящий к повышению эффективности производства. 2. Новая техника, технологии, являющиеся результатом научно-технического прогресса. Инновации, в современных условиях, достигаются преимущественно путем инвестиций в нематериальные активы (НИОКР, информационные технологии, переподготовку кадров, привлечение покупателей) Инновации в самом общем смысле, прежде всего, делятся на два класса: инновации процесса и инновации продукта, хотя они тесно связаны между собой; возможно как изготовление нового продукта старыми методами, так и изготовление старого продукта новыми методами – и наоборот. Не следует смешивать понятия инноваций и изобретений. Второе – более узко, относится к технике и технологии. Однако порою простая реорганизация производства ( а это организационная инновация) может принести не меньший экономический эффект, чем изобретение, техническое усовершенствование. Инновации – основа и движущая сила научно-технического прогресса во всех его видах: трудосберегающего, капиталосберегающего, нейтрального. Основоположник теории инноваций австрийский экономист Й.Шумпетер утверждал, что двигателем экономического развития выступает предприимчивость, выражающаяся в постоянном поиске новых комбинаций факторов производства, дающих предпринимателю возможность получать прибыль, большую по сравнению со средней. Все инновации связаны с большой долей риска. Но известно и другое: отказ от инноваций является еще более рисковым делом, поскольку ведет к замедлению научно-технического прогресса и экономического роста в целом.См. Диффузия инноваций.
[ http://slovar-lopatnikov.ru/]

Тематики

• экономика

EN

• innovation

 

инновация
1. Вложение средств в экономику, обеспечивающее смену поколений техники и технологии.
2. Новая техника, технология, являющиеся результатом достижений научно-технического прогресса. Развитие изобретательства, появление пионерских и крупных изобретений является существенным фактором инновации.
[ http://www.lexikon.ru/dict/buh/index.html]

инновация
1.- См статью Иннновации, 2. — результат вложения средств (инвестиций) в разработку новой техники и технологии, во внедрение новых форм бизнеса, современных методов работы на рынке, новых товаров и услуг, финансовых инструментов.
[ http://slovar-lopatnikov.ru/]

Параллельные тексты EN-RU из ABB Review. Перевод компании Интент

Partners in technology

New challenges to a history of cooperation with customers

Партнеры по технологии

Новые уроки сотрудничества с заказчиками

ABB’s predecessor companies, ASEA and BBC, were founded almost 120 years ago in a time when electromagnetism and Maxwell’s equations were considered “rocket science.” Since then several technological transitions have occurred and ABB has successfully outlived them all while many other companies vanished at some point along the way. This has been possible because of innovation and a willingness to learn from history. Understanding historical connections between products, technology and industrial economics is extremely Partners in technology New challenges to a history of cooperation with customers George A. Fodor, Sten Linder, Jan-Erik Ibstedt, Lennart Thegel, Fredrik Norlund, Håkan Wintzell, Jarl Sobel important when planning future technologies and innovations.

Предшественницы АББ, компании ASEA и BBC, были основаны почти 120 лет назад, в то время, когда электромагнетизм и уравнения Максвелла считались «космическими технологиями». С тех пор прошло несколько технических революций и АББ успешно пережила их все, в то время как многие другие компании затерялись по дороге. Это стало возможным, благодаря постоянным инновациям и стремлению учиться на уроках истории. Для планирования будущих технологий и инноваций огромную роль играет понимание исторических взаимосвязей между продуктами, технологиями и экономикой

These connections rely on information channels in companies and their existence cannot be underestimated if a company is to survive. An organization can acquire more information than any one individual, and the optimal use of this information depends on the existence and types of communication channels between those working in a company and the relevant people outside it.

Эти взаимосвязи опираются на существующие в компании информационные каналы и, если компания намерена выжить, их значение нельзя недооценивать. Организация может накопить значительно больше информации, чем любой отдельный человек, и оптимальное использование этой информации зависит от наличия и типов коммуникационных каналов между работниками компании и причастными людьми за ее пределами.

Force Measurement, a division of ABB AB, has a long tradition of innovation. Thanks to strong ties with its customers, suppliers, research institutes and universities, Force Measurement provides state-of-the-art equipment for accurate and reliable measurement and control in a broad range of applications. At the same time, established principles such as Maxwell’s equations continue to be applied in new and surprisingly innovative ways to produce products that promote long-term growth and increased competitiveness.

Группа измерения компании АББ имеет давние традиции использования инноваций. Благодаря прочным связям с заказчиками, поставщиками, исследовательскими институтами и университетами, она создает уникальное оборудование для точных и надежных измерений в самых разных областях. В то же время незыблемые принципы, подобные уравнениям Максвелла, продолжают применяться новыми и удивительно инновационными способами, позволяя создавать продукты, обеспечивающие устойчивый рост и высокую конкурентоспособность.

Innovation is a key factor if companies and their customers are to survive what can only be called truly testing times. The target of innovation is to find and implement ideas that reshape industries, reinvent markets and redesign value chains, and many of these ideas come from innovative customers.

Если компания и ее заказчики намерены пережить тяжелые времена, то основное внимание следует обратить на инновации. Целью инноваций является поиск и воплощение идей, позволяющих перевернуть промышленность, заново открыть рынки и перестроить стоимостные цепочки, причем многие из этих идей поступают от заказчиков.

Key to successful innovation is communication or the types of information channels employed by firms [1, 2]. A global company like ABB, with offices and factories spanning 90 countries, faces many challenges in maintaining information channels. First of all, there are the internal challenges. Ideas need to be evaluated from many different perspectives to determine their overall impact on the market. Selecting the most effective ones requires expertise and teamwork from the various business, marketing and technology competence groups. Just as important are the channels of communication that exist between ABB, and its customers and suppliers.

Секрет успешных инноваций кроется в типах используемых фирмой информационных каналов [1, 2]. Глобальные компании, подобные АББ, с офисами и заводами более чем в 90 странах, сталкиваются с серьезными проблемами управления информационными каналами. Во-первых, существуют внутренние проблемы. Чтобы определить ценность идеи и ее общее влияние на рынок, ее нужно подвергнуть всесторонней оценке. Выбор наиболее эффективных идей требует коллективной работы различных экономических, маркетинговых и технологических групп. Не менее важны и коммуникационные каналы между компанией АББ и ее заказчиками и поставщиками.

Many of ABB’s customers come from countries that are gradually developing strong technology and scientific cultures thanks to major investments in very ambitious research programs. China and India, for example, are two such countries. In fact, the Chinese Academy of Sciences is currently conducting research projects in all state of-the-art technologies. Countries in Africa and Eastern Europe are capitalizing on their pool of young talent to create a culture of technology development. Emerging markets, while welcome, mean stiffer competition, and competition to companies like ABB encourages even greater levels of innovation

Многие заказчики АББ пришли из стран, постоянно развивающих сильную технологию и научную культуру путем крупных инвестиций в грандиозные исследовательские программы. К таким странам относятся, например, Индия и Китай. На самом деле, Китайская академия наук ведет исследования по всем перспективным направлениям. Страны Африки и Восточной Европы делают ставку на молодые таланты, которым предстоит создавать культуру технологического развития. Новые рынки, хоть и привлекательны, ужесточают конкуренцию, а конкуренция с такими компаниями, как АББ способствует повышению уровня инноваций.

Many customers, similar stories Backed by 120 years of technological development and experience, ABB continues to produce products and services in many automation, power generation and robotics fields, and the examples described in the following section illustrate this broad customer range.

Заказчиков много, история одна

Опираясь более чем на 120-летний опыт технологического развития, АББ продолжает выпускать продукты и оказывать услуги во многих отраслях, связанных с автоматизацией, генерацией энергии и робототехникой. Приведенные далее при меры иллюстрируют широкий диапазон таких заказчиков.

Тематики

• бухгалтерский учет
• экономика

EN

• innovation

3.1.29 инновация (innovation): Конечный результат инновационной деятельности, получивший реализацию в виде нового или усовершенствованного продукта, реализуемого на рынке, нового или усовершенствованного технологического процесса, используемого в практической деятельности.

Источник: ГОСТ Р 54147-2010: Стратегический и инновационный менеджмент. Термины и определения оригинал документа

Англо-русский словарь нормативно-технической терминологии > innovation