program value

автомат

automatic control unit
отдельное автоматическое устройство)
- (узел автоматического устройства) — automatic control
-, антиюзовый (система) — anti-skid control
- времени пуска (авп) — timer
- выработки топлива (из групп баков) — fuel flow proportioner
- выравнивания топлива (в группах баков) — fuel equalizer
- давления — pressure control (unit)
- давления гермокабины (регулятор) — cabin pressure controller /regulator/
- давления (противоперегрузочного костюма) — anti-g valve
- демпфирования колебаний рыскания по курсу — yaw damper (system)
- дозировки топлива (адт) — fuel-flow regulator (ffr), fuel control unit (fcu)
-, загрузочный пружинный — (load) feel spring (mechanism), artificial feel bungee
- заправки (аз системы суит) — automatic fueling control
управление клапанами заправки и магистральными клапанами.
- запуска двигателя — autostart control (unit)
- запуска, топливный — starting fuel control
- запуска, топливный (таз) — idling speed governor
для дозирования топлива при автоматическом запуске двигателя с выходом на режим малого газа. — fuel for ground starting (and idling) is regulated by an idling speed governor.
- захода на посадку (азп) — auto approach system
- защиты сети (азс) — circuit breaker (cb)
устройство, служащее для автоматического размыкания электроцепи при наличии в ней тока, превышающего заданную величину. — an automatic device which, under abnormal conditions, will open a current-carrying circuit without damaging itself (unlike a fuse).
- защиты сети без свободного расцепления (азс) — circuit breaker
- защиты сети двойного действия, кнопочный — push-pull type circuit breaker
- защиты сети, кнопочный — push-type circuit breaker
- защиты сети от перенапряжения (азп) — overvoltage relay unit, overvoltage protection unit
- защиты сети от повышенной частоты — overfrequency relay
- защиты сети от пониженной частоты — underfrequency relay
- защиты сети, рычажный — switch-type circuit breaker
- защиты сети свободного расцепления (азр) — trip-free type circuit breaker
- защиты сети выбит (выключился) — circuit breaker tripped off
- контроля (ак) — automatic monitor
для оценки работы системы по принципу"выше-годенниже"
- критических режимов (ауасп) — angle-of-attack, slip and acceleration indicating/warning system
- курса (ак, автопилота) свободный з-х степенной гироскоп с горизонтальной осью гиромотора и потенциометром курса. — directional gyro (dg) dg is a free two-degree-offreedom gyro with a horizontal gyromotor spin axis, and azimuth potentiometer.
-, легочный (кислородный) — demand-type oxygen regulator
- обогрева стекол (аос) — automatic windshield heat control unit
регулятор электрообогрева лобовых стекол кабины экипажа для предотвращения их обледенения и запотевания. — that portion of the system which is used to eliminate or prevent the formation of ice, frost or rain on windows and windshields.
- опережения зажигания (магнето) — automatic breaker advance mechanism
- перезарядки (оружия) — (automatic) gun recharger
- переключения потребитепей (aпп) — load monitor relay (lmr)
- перекпючения преобразователей (апп) — inverter monitor relay (imr)
- переключения шин (апш) — bus tie relay (btr)
- перекоса — swash plate assembly
механизм несущего винта вертолета, предназначенный для циклического изменения угла установки лопастей несущего винта (рис.42). — the mechanism in the main rotor head designed for cyclic change of the main rotor blades setting in azimuth.
- перекоса кольцевого типа — swash plate assembly
- перекоса типа "паук" — hub spider
- перестановки стабилизатора (апс) — horizontal stabilizer automatic longitudinal trimming control unit, horizontal stabilizer automatic trim control unit
- подогрева топлива — (automatic) fuel temperature control
- подсоса воздуха (кислородного прибора) — oxygen (regulator) diluter
- поиска записи программы (магнитофона) — automatic program locate device (apld)
- приемистости — acceleration control unit (acu)
устройство, автоматически регулирующее подачу топлива в гтд в процессе его разгона для обеспечения, независимо от темпа перемещения руд, хорошей приемистости двигателя. — the unit preventing excessive overfueling with possible subsequent surging when the throttle is advanced rapidly.
-, противоюзовый (датчик) — skid detector
- разгона (насоса-регулятора) — acceleration control
- разгрузки (гидронасоса) — automatic by-pass /relief/ valve
автоматическое устройство (клапан) перепуска рабочей жидкости с выхода насоса в зону низкого давления при достижении в линии нагнетания заданного давления. — the automatic relief valve will offload hydraulic pump when system pressure reaches predetermined maximum, and direct pump output to the system when the system pressure falls to predetermined value.
- раскрытия парашюта (временной) — parachute timer, time release mechanism, parachute actuator
- раскрытия парашюта, барометрический — barometric release (mechanism)
для раскрытия парашюта на заданной высоте. — designed to release the parachute at the predetermined altitude.
- раскрытия привязных ремней — harness time release mechanism
- расхода (автоматическая система управления перекачкой топлива) — fuel management system (fuel mngm)
- расхода (ap часть системы суит) — automatic fuel management control
- расхода топлива (из групп баков) — fuel flow proportioner
- регулирования загрузки (арз, в системе управления) — feel unit, load feel unit
- регулирования загрузки ручки управления — control stick load feel unit
- регулирования температуры масла (маслорадиатора) — auto oil temperature control (unit)
- регулирования усилий (ару, загрузочный механизм) — feel unit, load feel unit
- регулирования усилий (ару, по передаточным числам) — (automatic) gain control (agс)
- регулирования усилий по скоростному напору, пружинный — q-spring feel unit
- согласования (ас, курсовой системы) — synchronizer, slaving mechanism
- степени повышения давления двигателем (в насосерегуляторе) — engine pressure ratio control unit, epr control unit
- температуры топлива — (automatic) fuel temperature control
- торможения — anti-skid control
- тряски штурвала (при сигнализации режима сваливания) — stick shaker
- тяги — autothrottle
- углов атаки и перегрузок (система ауасп) для измерения, индикации и сигнализации, местных текущих и критических углов атаки, вертикальных перегрузок (nу) и выдачи соответствующих сигналов. — angle of attack and acceleration indicating/warning system used for output and display of present angle of attack, vertical acceleration (load factor) signals.
- усилий (в системе управления ла) — (artificial) feel unit, load feel unit
- усилий по числу м и скоростному напору — mach/q-feel unit
- форсажной тяги регулятор форсажного топлива — afterburner fuel control unit the unit determines the total fuel delivery to the afterburner burner assembly.
- центровки топлива (ацт) (в группах баков) — fuel equalizer
- центровки топлива (суит, система управления и измерения топлива) — fuel management and indicating system
включать азс — close the circuit breaker
включать азс после отключения — reset the circuit breaker
выбивать азс — trip circuit breaker off
выключать азс — open the circuit breaker
защищать цепь с помощью азс — protect the circuit by the circuit breaker

adventure training

HR

activities undertaken out of doors and away from the everyday work environment with a view to developing the skills and abilities of participants. Adventure training often takes place at a residential outdoor activity center and may include physically challenging activities such as climbing and rappelling or group exercises and games. The activities are designed to promote experiential learning in areas such as interpersonal communication, problem solving, decision making, and teamwork, and to develop self-confidence and leadership skills. Adventure training has its origins in the work of Kurt Hahn, the founder of Gordonstoun School in Scotland, who developed the Outward Bound program of outdoor activities during World War II. Adventure training programs for organizational personnel became popular during the late 1970s and 1980s, although some have doubted their value and effectiveness.

Also known as outdoor training, outward bound training

crash

1. Fin

a precipitous drop in value, especially of the stocks traded in a market

2. E-com

a hardware failure or program error that stops a computer working. If data has not been backed up it can be lost as a result of a crash.

3. Econ

a sudden and catastrophic downturn in an economy. The crash in the United States in 1929 is one of the most famous.

intellectual capital

Fin

knowledge which can be used to create value. Intellectual capital includes: human resources, the collective skills, experience, and knowledge of employees; intellectual assets, knowledge which is defined and codified such as a drawing, computer program, or collection of data; and intellectual property, intellectual assets which can be legally protected, such as patents and copyrights.

Scanlon plan

HR

a type of gain sharing plan that pays a bonus to employees for incremental improvements. The Scanlon plan was developed by Joseph N. Scanlon in the 1930s. A typical Scanlon plan includes an employee suggestion program, a committee system, and a formula-based bonus system. The simplest formula is: base ratio = HR payroll costs divided by net sales or production value. A Scanlon organization is characterized by teamwork and employee participation. A bonus is paid when the current ratio is better than that of the base period. A Scanlon plan focuses attention on the variables over which the organization and its employees have some control.

See also Rucker plan

ионная сила

1. ionic strength

[lang name="Russian"]в силу; на основании — on the strength of

сила доказательств — strength of evidence

программа развития силы — strength program

сила и слабость — strengths and weaknesses

логическая сила сигнала — strength of value

2. ionic strenth

сила цели — target strenth

структурированный

structured

структурированный стиль — structured style

структурированная оценка — structured value

жестко структурированный — rigidly structured

структурированная команда — structured command

структурированная программа — structured program

демонстрация военной силы

demonstration of military strength

офицер вооруженных сил — military officer

сила доказательств — strength of evidence

программа развития силы — strength program

сила и слабость — strengths and weaknesses

логическая сила сигнала — strength of value

испытать силы

test strength

сила доказательств — strength of evidence

определение силы сцепления — cohesion test

программа развития силы — strength program

сила и слабость — strengths and weaknesses

логическая сила сигнала — strength of value

испытывать силы

test strength

сила доказательств — strength of evidence

определение силы сцепления — cohesion test

программа развития силы — strength program

сила и слабость — strengths and weaknesses

логическая сила сигнала — strength of value

испытывающий силы

testing strength

в силу; на основании — on the strength of

сила доказательств — strength of evidence

программа развития силы — strength program

сила и слабость — strengths and weaknesses

логическая сила сигнала — strength of value

проявит силу

show strength

в силу; на основании — on the strength of

сила доказательств — strength of evidence

программа развития силы — strength program

сила и слабость — strengths and weaknesses

логическая сила сигнала — strength of value

структурированный

structured

структурированный стиль — structured style

структурированная оценка — structured value

жестко структурированный — rigidly structured

структурированная команда — structured command

структурированная программа — structured program

шум

шум сущ

1. noise

2. sound акустический шум

acoustic noise

атмосферный шум

atmospheric noise

аэродинамический шум

aerodynamic noise

боковое расстояние до точки измерения шума

lateral noise measurement distance

боковой фактический уровень шума

actual sideline noise level

величина уровня шума

noise level value

взлет на режимах работы двигателей, составляющих наименьший шум

noise abatement takeoff

воздушное судно, не сертифицированное по шуму

nonnoise certificate aircraft

возникновение шума

noise generation

вредное воздействие шума от воздушных судов

aircraft noise pollution

выхлопной шум

exhaust

глушение шума

noise suppression

глушитель шума

1. noise suppression device

2. sound suppressor 3. noise suppressor глушитель шума на выхлопе

exhaust noise suppressor

годность по уровню шума

noiseworthiness

гофрированный глушитель шума

corrugated noise suppressor

данные измеренного шума

measured noise data

действующий технологический стандарт по шуму

current noise technology standard

диаграмма распространения шума

noise propagation pattern

длина траектории распространения шума

noise path length

допустимый предел шума при полете

flyover noise limit

допустимый уровень шума

permissible noise level

замер уровня бокового шума

sideline measurement

запрет полетов из-за превышения допустимого уровня шума

noise curfew

затухание шума

noise attenuation

защищенность от шума

noise immunity

зона распространения шума

noise carpet

излучение шума определенного уровня

noise level radiation

измерение направления шума

directional noise measurement

измерение фактического уровня шума

actual noise level measurement

измерение шума в процессе летных испытаний

flight test noise measurement

измерение шума при заходе на посадку

approach noise measurement

измерение шума при пролете

flyover noise measurement

испытание на шум

noise test

испытание на шум при взлете

takeoff noise test

испытание на шум при пролете

flyover noise test

исходные условия сертификации по шуму

noise certification reference conditions

Комитет по авиационному шуму

Committee on Aircraft Noise

комплексный показатель уровня шума

composite noise rating

контролирование шума

noise monitoring

контрольная точка замера шумов на участке захода на посадку

approach noise reference point

контроль уровня шума

noise control

контур воздействия шума

noise exposure contour

контур воспринимаемого шума

contour of perceived noise

контур равного уровня шума

equal noise contour

контур уровня шума

noise dose contour

контур уровня шума в районе аэропорта

airport noise contour

коэффициент поглощения шума

noise absorption coefficient

кривая снижения уровня шума

noise level attenuation curve

максимально допустимый уровень шума

maximum permissible noise level

маршрут с минимальным уровнем шума

minimum noise route

меры по снижению шума

noise abatement measures

методика выполнения полета с минимальным шумом

minimum noise procedure

методика замера шумов

noise measurement procedure

методика оценки шума

noise evaluation procedure

методика сертификации по шуму

noise certification procedure

метод контроля шума

noise control technique

метод оценки воздействия шума

noise exposure assessment method

метод оценки шума

noise evaluation method

метод прогнозирования шума реактивных двигателей

jet noise prediction technique

модификация со сниженным уровнем шума

noise reduction modification

направленность шума

noise directivity

нормативный уровень шума

standard noise level

нормы шума при полетах на эшелоне

level flight noise requirements

область воздействия шума

noise field

обобщенные характеристики по шуму

generalized noise characteristics

оборудование для снижения шума

hush kit

ослабление шума

noise reduction

ослаблять шум

attenuate noise

оценка уровня шума

noise evaluation

параметр потока, критический по шуму

noise-critical flow parameter

пиковый уровень воспринимаемого шума

peak perceived noise level

поглощение шума

noise absorption

подавление шумов

noise cancelling

предполагаемое воздействие шума

noise exposure forecast

предпочтительная по уровню шума ВПП

noise preferential runway

предпочтительный по уровню шума маршрут

noise preferential route

программа прогнозирования авиационного шума

aircraft noise prediction program

программа сертификации по шуму

noise certification scheme

продолжительность воздействия шума

duration of noise effect

продолжительность суммарного шума

aggregate noise duration

раздражающее воздействие шума от воздушного суд

aircraft noise annoyance

распространение шума

1. propagation of sound

2. noise propagation рассеивание шума

noise dissipation

расчетный уровень шума

design noise level

сертификат воздушного судна по шуму

aircraft noise certificate

сертификационный стандарт по шуму

noise certification standard

сертификационный уровень шума

certificated noise level

сертификация по шуму на взлетном режиме

take-off noise

система оценки раздражающего воздействия шума

noise annoyance rating system

снижение шума при опробовании двигателей на земле

ground run-up noise abatement

создавать шум

originate noise

спектр шума

noise spectrum

способ снижения шума

noise abatement technique

среднесуточный уровень шума

day-night sound level

стандарт по шуму для дозвуковых самолетов

subsonic noise standard

схема распространения шумов

noise map

таблица шумов

noy table

технология снижения шумов

acoustic technology

точка измерения шума

noise measurement location

траектория взлета, сертифицированная по шуму

noise certification takeoff flight path

траектория захода на посадку, сертифицированная по шуму

noise certification approach path

траектория распространения шума

1. approach noise path

2. noise path требования по снижению шума

noise reduction requirements

угол распространения шума при взлете

takeoff noise angle

угол распространения шума при заходе на посадку

approach noise angle

уменьшать уровень шума

reduce noise level

уменьшать шум

reduce noise

уменьшение тяги с целью снижения шума

noise abatement thrust cutback

уменьшение шума за счет изменения тяги

noise thrust correction

уровень непрерывно воспринимаемого шума

continuous perceived noise level

уровень окружающего шума

ambient noise level

уровень полетного шума

flyover noise level

уровень шума

1. noise floor

2. noise level уровень шума в населенном пункте

community noise level

уровень шума при заходе на посадку

approach noise level

условия сертификационных испытаний по шуму

noise certification test conditions

устройство для снижения уровня шума

noise abatement device

характеристики по шуму

noise characteristics

характерный шум

hum

шкала шума

noise scale

штраф за превышение установленного уровня шума

noise charge

шум, вызываемый турбулентностью

turbulence-induced noise

шум окружающей среды

ambient noise

шум от несущего винта

main rotor noise

шум от системы кондиционирования

environment control system noise

шум от системы увеличения подъемной силы

augmented lift system noise

шум при взлете

takeoff noise

шум при включении реверса тяги

reverse thrust noise

шум при испытании

test noise

шум при посадке

landing noise

шум при пролете

flyover noise

шум реактивной струи

jet noise

шум солнечного излучения

solar noise

эксплуатационные методы снижения авиационного шума

aircraft noise abatement operating procedures

эксплуатационные приемы снижения шума

noise abatement procedures

Computers

   1) A Comparison of the Digital Computer and the Brain

   The brain has been compared to a digital computer because the neuron, like a switch or valve, either does or does not complete a circuit. But at that point the similarity ends. The switch in the digital computer is constant in its effect, and its effect is large in proportion to the total output of the machine. The effect produced by the neuron varies with its recovery from [the] refractory phase and with its metabolic state. The number of neurons involved in any action runs into millions so that the influence of any one is negligible.... Any cell in the system can be dispensed with.... The brain is an analogical machine, not digital. Analysis of the integrative activities will probably have to be in statistical terms. (Lashley, quoted in Beach, Hebb, Morgan & Nissen, 1960, p. 539)

   2) Computers Do Not Crunch Numbers, They Manipulate Symbols

   It is essential to realize that a computer is not a mere "number cruncher," or supercalculating arithmetic machine, although this is how computers are commonly regarded by people having no familiarity with artificial intelligence. Computers do not crunch numbers; they manipulate symbols.... Digital computers originally developed with mathematical problems in mind, are in fact general purpose symbol manipulating machines....

   The terms "computer" and "computation" are themselves unfortunate, in view of their misleading arithmetical connotations. The definition of artificial intelligence previously cited-"the study of intelligence as computation"-does not imply that intelligence is really counting. Intelligence may be defined as the ability creatively to manipulate symbols, or process information, given the requirements of the task in hand. (Boden, 1981, pp. 15, 16-17)

   3) Getting Computers to Explain Things to Themselves

   The task is to get computers to explain things to themselves, to ask questions about their experiences so as to cause those explanations to be forthcoming, and to be creative in coming up with explanations that have not been previously available. (Schank, 1986, p. 19)

   4) Some Limits of Artificial Intelligence

   In What Computers Can't Do, written in 1969 (2nd edition, 1972), the main objection to AI was the impossibility of using rules to select only those facts about the real world that were relevant in a given situation. The "Introduction" to the paperback edition of the book, published by Harper & Row in 1979, pointed out further that no one had the slightest idea how to represent the common sense understanding possessed even by a four-year-old. (Dreyfus & Dreyfus, 1986, p. 102)

   5) The Computer as a Humanizing Influence

   A popular myth says that the invention of the computer diminishes our sense of ourselves, because it shows that rational thought is not special to human beings, but can be carried on by a mere machine. It is a short stop from there to the conclusion that intelligence is mechanical, which many people find to be an affront to all that is most precious and singular about their humanness.

   In fact, the computer, early in its career, was not an instrument of the philistines, but a humanizing influence. It helped to revive an idea that had fallen into disrepute: the idea that the mind is real, that it has an inner structure and a complex organization, and can be understood in scientific terms. For some three decades, until the 1940s, American psychology had lain in the grip of the ice age of behaviorism, which was antimental through and through. During these years, extreme behaviorists banished the study of thought from their agenda. Mind and consciousness, thinking, imagining, planning, solving problems, were dismissed as worthless for anything except speculation. Only the external aspects of behavior, the surface manifestations, were grist for the scientist's mill, because only they could be observed and measured....

   It is one of the surprising gifts of the computer in the history of ideas that it played a part in giving back to psychology what it had lost, which was nothing less than the mind itself. In particular, there was a revival of interest in how the mind represents the world internally to itself, by means of knowledge structures such as ideas, symbols, images, and inner narratives, all of which had been consigned to the realm of mysticism. (Campbell, 1989, p. 10)

   6) The Intentionality of Computers Is Essentially Borrowed, Hence Derivative

   [Our artifacts] only have meaning because we give it to them; their intentionality, like that of smoke signals and writing, is essentially borrowed, hence derivative. To put it bluntly: computers themselves don't mean anything by their tokens (any more than books do)-they only mean what we say they do. Genuine understanding, on the other hand, is intentional "in its own right" and not derivatively from something else. (Haugeland, 1981a, pp. 32-33)

   7) The Possibility of Computer Thought

   he debate over the possibility of computer thought will never be won or lost; it will simply cease to be of interest, like the previous debate over man as a clockwork mechanism. (Bolter, 1984, p. 190)

   8) We Are Getting Better at Building Even Better Computers, an Ever- Escalating Upward Spiral

   t takes us a long time to emotionally digest a new idea. The computer is too big a step, and too recently made, for us to quickly recover our balance and gauge its potential. It's an enormous accelerator, perhaps the greatest one since the plow, twelve thousand years ago. As an intelligence amplifier, it speeds up everything-including itself-and it continually improves because its heart is information or, more plainly, ideas. We can no more calculate its consequences than Babbage could have foreseen antibiotics, the Pill, or space stations.

   Further, the effects of those ideas are rapidly compounding, because a computer design is itself just a set of ideas. As we get better at manipulating ideas by building ever better computers, we get better at building even better computers-it's an ever-escalating upward spiral. The early nineteenth century, when the computer's story began, is already so far back that it may as well be the Stone Age. (Rawlins, 1997, p. 19)

   9) Weak Artificial Intelligence and Strong Artificial Intelligence

   According to weak AI, the principle value of the computer in the study of the mind is that it gives us a very powerful tool. For example, it enables us to formulate and test hypotheses in a more rigorous and precise fashion than before. But according to strong AI the computer is not merely a tool in the study of the mind; rather the appropriately programmed computer really is a mind in the sense that computers given the right programs can be literally said to understand and have other cognitive states. And according to strong AI, because the programmed computer has cognitive states, the programs are not mere tools that enable us to test psychological explanations; rather, the programs are themselves the explanations. (Searle, 1981b, p. 353)

    10) Why People Are Smarter Than Computers

   What makes people smarter than machines? They certainly are not quicker or more precise. Yet people are far better at perceiving objects in natural scenes and noting their relations, at understanding language and retrieving contextually appropriate information from memory, at making plans and carrying out contextually appropriate actions, and at a wide range of other natural cognitive tasks. People are also far better at learning to do these things more accurately and fluently through processing experience.

   What is the basis for these differences? One answer, perhaps the classic one we might expect from artificial intelligence, is "software." If we only had the right computer program, the argument goes, we might be able to capture the fluidity and adaptability of human information processing. Certainly this answer is partially correct. There have been great breakthroughs in our understanding of cognition as a result of the development of expressive high-level computer languages and powerful algorithms. However, we do not think that software is the whole story.

   In our view, people are smarter than today's computers because the brain employs a basic computational architecture that is more suited to deal with a central aspect of the natural information processing tasks that people are so good at.... hese tasks generally require the simultaneous consideration of many pieces of information or constraints. Each constraint may be imperfectly specified and ambiguous, yet each can play a potentially decisive role in determining the outcome of processing. (McClelland, Rumelhart & Hinton, 1986, pp. 3-4)

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)

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