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The word «science» comes from the Latin word «scientia», which means «knowledge». Science covers the broad field of knowledge that deals with facts and the relationship among these facts.
Scientists study a wide variety of subjects. Some scientists search for clues to the origin of the universe and examine the structure of the cells of living plants and animals. Other researchers investigate why we act the way we do, or try to solve complicated mathematical problems.
Scientists use systematic methods of study to make observations and collect facts. They develop theories that help them order and unify facts. Scientific theories consist of general principles or laws that attempt to explain how and why something happens or has happened. A theory is considered to become a part of scientific knowledge if it has been tested experimentally and proved to be true.
Scientific study can be divided into three major groups: the natural, social, and technical sciences. As scientific knowledge has grown and become more complicated, many new fields of science have appeared. At the same time, the boundaries between scientific fields have become less and less clear. Numerous areas of science overlap each other and it is often hard to tell where one science ends and another begins. All sciences are closely interconnected.
Science has great influence on our lives. It provides the basis of modern technology – the tools and machines that make our life and work easier. The discoveries and the inventions of scientists also help shape our view about ourselves and our place in the universe.
Technology means the use of people’s inventions and discoveries to satisfy their needs. Since people have appeared on the earth, they have had to get food, clothes, and shelter. Through the ages, people have invented tools, machines, and materials to make work easier.
Nowadays, when people speak of technology, they generally mean industrial technology. Industrial technology began about 200 years ago with the development of the steam engine, the growth of factories, and the mass production of goods. It influenced different aspects of people’s lives. The development of the car influenced where people lived and worked. Radio and television changed their leisure time. The telephone revolutionized communication.
Science has contributed much to modern technology. Science attempts to explain how and why things happen. Technology makes things happen. But not all technology is based on science. For example, people had made different objects from iron for centuries before they learnt the structure of the metal. But some modern technologies, such as nuclear power production and space travel, depend heavily on science.
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Результаты (русский) 1: [копия]
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Слово «наука» происходит от латинского слова «scientia», что означает «знание». Наука охватывает широкие области знаний, которая имеет дело с фактами и взаимосвязь между этими фактами.Ученые изучают широкий спектр предметов. Некоторые ученые ищут ключи к происхождение вселенной и изучить структуру клеток живых растений и животных. Другие исследователи расследовать, почему мы так, что мы делаем, или попытаться решить сложные математические проблемы.Ученые используют систематические методы исследования наблюдения и сбора фактов. Они разрабатывают теории, которые помогают им порядок и унифицировать факты. Научные теории состоят из общих принципов или законов, которые пытаются объяснить, каким образом и почему что-то происходит или произошло. Считается, что теория стать частью научных знаний, если они проверены экспериментально и подтвердилось.Научное исследование можно разделить на три основные группы: естественные, социальные и технические науки. Как научные знания выросла и становятся более сложными, появились многие новые области науки. В то же время границы между научными областями стали менее ясно. Многочисленные области науки перекрывают друг друга, и это часто трудно сказать, где заканчивается одна наука и начинается другое. Все науки тесно взаимосвязаны.Наука имеет большое влияние на нашу жизнь. Она обеспечивает основу современной технологии – инструменты и машины, которые делают нашу жизнь и работу легче. Открытия и изобретения ученых также помогают формировать наш взгляд о себе и наше место во Вселенной.Технология подразумевает использование изобретений и открытий для удовлетворения потребностей людей. Поскольку люди появились на земле, они были вынуждены получать продовольствие, одежду и жилье. На протяжении веков люди придумали инструменты, машины и материалы, чтобы сделать работу легче.В настоящее время когда люди говорят о технологии, они обычно означают промышленной технологии. Промышленная технология началась около 200 лет назад с развитием парового двигателя, рост фабрик и массового производства товаров. Его влияние на различные аспекты жизни людей. Разработка автомобиля, где люди жили и работали. Радио и телевидение изменили свое свободное время. Телефон революцию связи.Наука внесла много современной технологии. Наука пытается объяснить, как и почему вещи происходят. Технология делает вещи случаются. Но не все технология основана на науке. Например люди сделали различные предметы из железа на протяжении веков, прежде чем они узнали структуру металла. Но некоторые современные технологии, такие, как производство ядерной энергии и космических путешествий, в значительной степени зависят от науки.
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Результаты (русский) 2:[копия]
Скопировано!
Слово «наука» происходит от латинского слова «Scientia», что означает «знание». Наука охватывает широкое поле знаний , который имеет дело с фактами и взаимосвязи между этими фактами.
Ученые изучают широкий спектр предметов. Некоторые ученые ищут подсказки о происхождении Вселенной и изучить структуру клеток живых растений и животных. Другие исследователи выяснить , почему мы действуем так , как мы делаем, или пытаться решать сложные математические задачи.
Ученые используют систематические методы исследования для наблюдений и сбора фактов. Они разрабатывают теории , которые помогают им упорядочить и унифицировать факты. Научные теории состоят из общих принципов или законов , которые пытаются объяснить , как и почему что — то происходит или произошло. Теория считается , чтобы стать частью научного знания , если оно было проверено экспериментально и подтвердилось.
Научное исследование можно разделить на три основные группы: естественные, социальные и технических наук. Научные знания выросли и стали более сложными, появилось много новых областей науки. В то же время, границы между научными полями стали меньше и менее ясна. Многочисленные области науки накладываются друг на друга , и часто трудно сказать , где заканчивается наука и начинается другая. Все науки тесно связаны между собой.
Наука имеет большое влияние на нашу жизнь. Она обеспечивает основу современной технологии — инструменты и машины , которые делают нашу жизнь и работу проще. Открытия и изобретений ученых также помогают формировать наше представление о нас самих и о нашем месте во Вселенной.
Технология подразумевает использование изобретений и открытий людей , чтобы удовлетворить их потребности. Так как люди появились на земле, они должны были получить пищу, одежду и кров. На протяжении веков люди изобрели инструменты, машины и материалы , чтобы сделать работу легче. В
наше время, когда люди говорят о технологии, они обычно означают промышленные технологии. Промышленная технология началась около 200 лет назад с развитием парового двигателя, рост заводов и массового производства товаров. Это влияние различные аспекты жизни людей. Развитие автомобиля повлияли где люди жили и работали. Радио и телевидение изменили свое свободное время. Телефон произвел революцию связи.
Наука внесла большой вклад в современные технологии. Наука пытается объяснить , как и почему вещи случаются. Технология делает вещи случаются. Но не все технологии основаны на науке. Например, люди сделали различные предметы из железа на протяжении многих веков , прежде чем они узнали структуру металла. Но некоторые современные технологии, такие как производство атомной энергетики и космических путешествий, в значительной степени зависит от науки.
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Результаты (русский) 3:[копия]
Скопировано!
слово «наука» происходит от латинского слова «Scientia», что означает «знания».наука охватывает широкие области знаний, что касается фактов и взаимосвязи между этими фактами.ученые изучают разнообразные темы.некоторые ученые ищут ключи к разгадке происхождения вселенной и изучении структуры клетки живых растений и животных.другие исследователи расследование, почему мы будем действовать так, как мы делаем это, или попытаться решить сложные математические проблемы.ученые используют последовательных методов исследования делать замечания и собирать факты.они разрабатывают теории, которые помогают им порядка и унифицировать факты.научные теории состоит из общих принципов или законы, которые пытаются объяснить, как и почему происходит что — то и произошло.теория, как считается, стать частью научных знаний, если она была проверена экспериментально и подтвердятся.научные исследования, можно разделить на три основные группы: природных, социальных, технических наук.в качестве научных знаний растет и усложняется, много новых областях науки, появились.в то же время границы между научной областях становятся все менее и менее ясным.в многочисленных областях науки перекрывают друг друга и зачастую трудно сказать, где заканчивается наука и начинается другая.все науки тесно взаимосвязаны.наука имеет большое влияние на нашу жизнь.он обеспечивает основу современных технологий, инструментов и станков, которые делают нашу жизнь и работу легче.открытия и изобретения ученых, помочь сформировать свое мнение о себе и наше место во вселенной.технология означает использование народной изобретений и открытий, чтобы удовлетворить их потребности.поскольку люди появились на земле, они должны были получить продовольствие, одежда и жилье.на протяжении веков люди изобрели инструментов, машин, и материалами, чтобы сделать работу легче.сегодня, когда говорят о технологии, они, как правило, имею в виду промышленных технологий.промышленные технологии начали около 200 лет назад в развитие парового двигателя, рост на заводах, и массового производства товаров.это повлияло на различные аспекты жизни людей.развитие машину влияние, где люди живут и работают.радио и телевидение изменило свое свободное время.телефон революцию в коммуникации.наука вносит много современных технологий.наука пытается объяснить, как и почему случается.технология позволяет вещам.но не все технологии на основе науки.например, люди сделали разные предметы из железа на протяжении веков до того, как они узнали структуру металла.но некоторые современные технологии, такие, как производство атомной энергии и космических путешествий, в значительной степени зависят от науки.
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- The word «science» comes from the Latin
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- The word «science» comes from the Latin
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Dear Jada,
If you were to travel around the world, the word “science” might look or sound very different. In Spanish, it’s ciencia. In Japanese, 理科. In German, wissenschaft! And in French…well, it’s also science. But with an accent.
My friend Michael Goldsby is a philosopher of science at Washington State University. He said the English word “science” comes from the Latin, scientia, which means knowledge.
In medieval times, the pursuit of knowledge included things like grammar, logic, rhetoric, arithmetic, geometry, music, and astronomy. Of course, the meaning of the word “science” has changed over time.
“We don’t know exactly who coined that term first,” Goldsby said. “Although, we do know that it was philosopher William Whewell who first coined the term ‘scientist.’ Prior to that, scientists were called ‘natural philosophers’.”
Whewell coined the term in 1833, said my friend Debbie Lee. She’s a researcher and professor of English at WSU who wrote a book on the history of science. She told me about one of her favorite examples of the way science was approached a long time ago. It was in the form of a really long poem written by a natural historian named Erasmus Darwin. The poem filled up a whole book.
This poetry was full of observations about the lives of plants. But it didn’t necessarily involve new questions or testing out ideas. Just a couple generations later, Erasmus’ grandson Charles started doing just this. His curiosity about different birds on the Galapagos Islands led him to a question that could actually be tested.
He noticed that different birds had different beak shapes, depending on what they ate to survive. The observations and questions led to discoveries about how animals adapt to their environment and evolve over time.
Lee said in the 18th and 19th centuries a lot of people in Europe were going out to other parts of the world to explore.
“They came up with these huge systems of cataloging and naming the world,” she said. “Science really continued to grow out of that pursuit.”
Goldsby said it was around this time the word “science” really started to become attached to the way we use it today. While people had ways of gaining new knowledge through exploring history or philosophy, science became more about a method of learning and knowing.
As you may know, that is what we call the scientific method, Goldsby explains.
“It tends to rely on observing the world and testing things out to figure out what claims we ought to believe,” he said.
Some of my friends at Spokane Public Schools put together a helpful video about the scientific method. Maybe you could even use it to help guide your next science fair project.
You know, we explore all kinds of science questions together, but you bring up a good one with your third question. What does science mean to you? Tell me about it between now and Nov. 30 at Dr.Universe@wsu.edu for a chance to win your very own explorer’s field guide.
Sincerely,
Dr. Universe
The
word science comes from the Latin «scientia,» meaning
knowledge.
How
do we define science? According to Webster’s New Collegiate
Dictionary, the definition of science is «knowledge attained
through study or practice,» or «knowledge covering general
truths of the operation of general laws, esp. as obtained and tested
through scientific method [and] concerned with the physical world.»
What
does that really mean? Science refers to a system of acquiring
knowledge. This system uses observation and experimentation to
describe and explain natural phenomena. The term science also refers
to the organized body of knowledge people have gained using that
system. Less formally, the word science often describes any
systematic field of study or the knowledge gained from it.
What
is the purpose of science? Perhaps the most general description is
that the purpose of science is to produce useful models of reality.
Most
scientific investigations use some form of the scientific
method. You can find out
more about the scientific method here.
SCIENCE
is
Knowledge,
especially that gained through experience. And the
organized body of knowledge gained through such research.
science [Lat. scientia=knowledge].
For many the term science refers
to the organized body of knowledge concerning the physical world,
both animate and inanimate, but a proper definition would also have
to include the attitudes and methods through which this body of
knowledge is formed; thus, a science is both a particular kind of
activity and also the results of that activity.
Science (from
the Latin scientia,
meaning «knowledge») is, in its broadest sense,
any systematic knowledge
that is capable of resulting in a correct prediction or reliable
outcome. In this sense, science
may
refer to a highly skilled technique, technology, or practice.
Scientific
fields are
commonly divided into two major groups:
Science
as defined above is sometimes called pure science to differentiate it
from applied science, which is the application of research to human
needs. Fields of science are commonly classified along two major
lines:
— Natural sciences,
the study of the natural world, and
—
Social sciences,
the systematic study of human behavior and society.
Natural
sciences:
A
science, such as biology, chemistry, or physics, that deals with the
objects, phenomena, or laws of nature and the physical world.
(Dictionary)
In science, the term natural science refers to a naturalistic approach to the study of the universe, which is understood as obeying rules or laws of natural origin.
social
sciences:
Any
discipline or branch of science that deals with the sociocultural
aspects of human behaviour. The social sciences generally
include cultural
anthropology, economics, political
science, sociology, criminology,
and social
psychology. Comparative law and comparative religion (the comparative
study of the legal systems and religions of different nations and
cultures) are also sometimes regarded as social sciences. (Britannica
Encyclopedia)
The
study of human society and of individual relationships in and to
society. A scholarly or scientific discipline that deals with such
study, generally regarded as including sociology, psychology,
anthropology, economics, political science, and history.
(Dictionary)
Social
science, term
for any or all of the branches of study that deal with humans in
their social relations. Often these studies are referred to in the
plural as the social sciences. Although human social behavior has
been studied since antiquity, the modern social sciences as
disciplines rooted in the scientific method date only from the 18th
cent. Enlightenment. Interest at first centered on economics,
but by the 19th cent. separate disciplines had been developed
in anthropology, political
science, psychology,
and sociology.
The 19th cent. was characterized by the development of wide-ranging
theories (e.g., the work of Auguste Comte, Karl Marx, and Herbert
Spencer). Developments in the 20th cent. have moved in these
directions: the improvement and increased use of quantitative methods
and statistical techniques; increased use of the empirical method, as
opposed to general theorizing; and the direct practical application
of social science knowledge. Social science departments are now
firmly established in universities, and social scientists are
increasingly called upon to advise industries and governments for
future planning (Columbia encyclopedia)
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Пожалуйста, переведите этот текст SCIENCE The word «science» comes from the Latin word «scientia», which means «knowledge».
Scientists make observations and collect facts in field they work in.
Then they arrange facts orderly and try to express the connection between the facts and try to work out theories.
Then they have to prove the facts or theory correct and make sufficient and sound evidence.
So scientific knowledge is always growing and improving.
Science has great influence on our life.
It provides with base of modern technology, materials, sources of power and so on.
Modern science and technology have changed our life in many different ways.
During the present century our life changed greatly.
Thanks to radio and television we can do a great number of jobs ; it was radio and TV that made it possible to photograph the dark side of the moon and to talk with the first cosmonaut while he was orbiting the Earth.
На этой странице сайта размещен вопрос Пожалуйста, переведите этот текст SCIENCE The word «science» comes from the Latin word «scientia», which means «knowledge»? из категории
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The term Science comes from the Latin word scientia, meaning “knowledge”. It can be defined as a systematic attempt to discover, by means of observation and reasoning, particular facts about the world, and to establish laws connecting facts with one another and, in some cases, to make it possible to predict future occurrences. There are other ways to define science, but all definitions refer in one way or another to this attempt to discover specific facts and the ability to figure out patterns in which these facts are connected.
There is an interesting quote from Carl Sagan about the scientific attitude:
If we lived on a planet where nothing ever changed, there would be little to do. There would be nothing to figure out. There would be no impetus for science. And if we lived in an unpredictable world, where things changed in random or very complex ways, we would not be able to figure things out. But we live in an in-between universe, where things change, but according to patterns, rules, or as we call them, laws of nature. If I throw a stick up in the air, it always falls down. If the sun sets in the west, it always rises again the next morning in the east. And so it becomes possible to figure things out. We can do science, and with it we can improve our lives. (Carl Sagan, 59)
Early Scientific Developments
The regular occurrence of natural events encouraged the development of some scientific disciplines. After a period of observation and careful recordkeeping, even some of the events perceived as random and unpredictable might begin to display a regular pattern which initially was not immediately obvious. Eclipses are a good example
The regular occurrence of natural events encouraged the development of some scientific disciplines.
In North America, the Cherokee said that eclipses were caused when the moon (male) visits his wife, the sun, and the Ojibway believed the sun would be totally extinguished during an eclipse, so they used to shoot flaming arrows to keep it alight. Stephen Hawking mentions that according to the Vikings, the sun and the moon are being chased by two wolves, Skoll and Hati. When either wolf successfully catches their prey, an eclipse occurs. The Nordics made as much noise as they could to scare off the wolves, so they could rescue the victims:
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Skoll a wolf is called who pursues the shining god
to the protecting woods;
and another is Hati, he is Hrodvitnir’s son,
who chases the bright bride of heaven.
(The Poetic Edda. Grimnir’s Sayings, 39)
Hawking goes on saying that people eventually realized that the sun and the moon would emerge from the eclipse regardless of whether they made noise to rescue the victims. In societies where they had record keeping on celestial events, they must have noticed after some time that eclipses do not happen at random, but rather in regular patterns that repeat themselves.
Some events in nature clearly occur according to rules, but there are others that do not display a clear pattern of occurrence, and they do not even seem to happen as a result of a specific cause. Earthquakes, storms, and pestilence all appear to occur randomly, and natural explanations do not seem to be relevant. Therefore, supernatural explanations arose to account for such events, most of them merged with myth and legends.
Supernatural explanations gave rise to magic, an attempt to control nature by means of rite and spell. Magic is based on people’s confidence that nature can be directly controlled. Magic thought is convinced that by performing certain spells, a specific event will take place. James Frazer has suggested that there is a link between magic and science, since both believe in the cause-and-effect principle. In magic, the causes are somehow unclear and they tend to be based upon spontaneous thoughts, while in science, through careful observation and reasoning, the causes are better isolated and understood. Science is founded on the idea that experience, effort, and reason are valid, while magic is founded on intuition and hope. In ancient times, it was common for science to be merged with magic, religion, mysticism, and philosophy, since the limits of the scientific discipline were not fully understood.
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Babylonian Science
Like in Egypt, priests encouraged much of the development of Babylonian science. Babylonians used a numeral system with 60 as its base, which allowed them to divide circles into 360 degrees. The use of 60 as a base of a mathematical system is not a minor issue: 60 is a number that has many divisors (1, 2, 3, 4, 5, 6, 10, 12, 15, 20, 30, 60), which simplifies the representation of fractions: 1/2 (30/60), 1/3 (20/60), 1/4 (15/60), 1/5 (12/60), 1/6 (10/60), and so forth. As early as 1800 BCE, Babylonian mathematicians understood the properties of elementary sequences, such as arithmetic and geometrical progressions, and a number of geometrical relationships. They estimated the value of pi as 3 1/8, which is about a 0.6 percent error. It is highly likely that they also were familiar with what we today call the Pythagorean Theorem which states that the square of the longest side of a right triangle equals the sum of the squares of the other two sides. However, we have no evidence that the Babylonians proved it formally, since their mathematics rested on empirical knowledge rather than formal proof.
It was in astronomy where Babylonians showed a remarkable talent, and magic, mysticism, astrology, and divination were its main drivers. They believed that the movement of the heavenly bodies forecasted some terrestrial event. Since the reign of Nabonassar (747 BCE), the Babylonians kept complete lists of eclipses and by 700 BCE, it was already known that solar eclipses could only be possible during new moons and lunar eclipses only during full moons. It is possible that by this time Babylonians also knew the rule that lunar eclipses take place every six months, or occasionally every five months. By the time Nebuchadnezzar ruled Babylon, the priests had also calculated the courses of the planets and plotted the orbits of the sun and the moon.
The Pyramids Oisin Mulvihill (CC BY)
Egyptian Science
Despite their superstitions, Egyptian priests encouraged the development of many scientific disciplines, especially astronomy and mathematics. The construction of the pyramids and other astonishing monuments would have been impossible without a highly developed mathematical knowledge. The Rhind Mathematical Papyrus (also known as the Ahmes Papyrus) is an ancient mathematical treatise, dating back to approximately 1650 BCE. This work explains, using several examples, how to calculate the area of a field, the capacity of a barn, and it also deals with algebraic equations of the first degree. In the opening section, its author, a scribe named Ahmes, declares that the Papyrus is a transcription of an ancient copy, possibly 500 years before the time of Ahmes himself.
The flooding of the Nile, which constantly altered the border markers that separated the different portions of land, also encouraged the development of mathematics: Egyptian land surveyors had to perform measurements over and over again to restore the boundaries that had been lost. In fact, this is the origin of the word geometry: “measurement of land”. Egyptian land surveyors were very practical minded: in order to form right angles, which was critical for establishing the borders of a field, they used a rope divided into twelve equal parts, forming a triangle with three parts on one side, four parts on the second side, and five parts on the remaining side. The right angle was to be found where the three-unit side joined the four-unit side. In other words, Egyptians knew that a triangle whose sides are in a 3:4:5 ratio is a right triangle. This is a useful rule of thumb and it is also a step away from the Pythagoras Theorem, which is based on stretching the 3:4:5 triangle concept to its logical limit.
Egyptians calculated the value of the mathematical constant pi at 256/81 (3.16), and for the value of the square root of two, they used the fraction 7/5 (which they thought of as 1/5 seven times). For fractions, they always used the numerator 1 (in order to express 3/4, they wrote 1/2 + 1/4). Unfortunately they did not know the zero, and their numeral system lacked simplicity: 27 signs were required to express 999.
Theories of Aristarchus Konstable (CC BY-SA)
Greek Science
Unlike other parts of the world were science was strongly connected with religion, Greek scientific thought had a stronger connection with philosophy. As a result, the Greek scientific spirit had a more secular approach and was able to replace the notion of supernatural explanation with the concept of a universe that is governed by laws of nature. Greek tradition credits Thales of Miletus as the first Greek who, around 600 BCE, developed the idea that the world can be explained in natural terms. Thales lived in Miletus, a Greek city locate in Ionia, the central sector of Anatolia’s Aegean shore in Asia Minor, present-day Turkey. This city was the main focus of the “Ionian awakening”, the initial phase of classical Greek civilization, a time when the ancient Greeks developed a number of ideas surprisingly similar to some of our modern scientific concepts.
One of the great advantages of Greece was the influence of Egyptian mathematics, when Egypt opened its ports to Greek trade during the 26th Dynasty (c. 685–525 BCE) and Babylonian astronomy, after Alexander’s conquest of Asia Minor and Mesopotamia during Hellenistic times. The Greeks were very talented at systematically innovating upon the Egyptian and Babylonian mathematical and astronomical knowledge. This turned the Greeks into some of the most competent mathematicians and astronomers of antiquity and their achievements in geometry were arguably the finest.
While observation was important at the beginning, Greek science eventually began to undervalue observation in favour of the deductive process, where knowledge is built by means of pure thought. This method is key in mathematics and the Greeks put such an emphasis on it that they falsely believed that deduction was the way to obtain the highest knowledge. Observation was underestimated, deduction was made king, and Greek scientific knowledge was led up a blind alley in virtually every branch of science other than exact sciences (mathematics).
Indian Science
In India, we find some aspects of astronomical science already in the Vedas (composed between 1500 and 1000 BCE), where the year is divided into twelve lunar months (occasionally adding an additional month to adjust the lunar with the solar year), six seasons of the year are named and related to different gods, and also the different phases of the moon are observed and personified as different deities. Many of the ceremonies and sacrificial rites of Indian society were regulated by the position of the moon, the sun, and other astronomical events, which encouraged a detailed study of astronomy.
Geometry was developed in India as a result of strict religious rules for the construction of altars. Book 5 of the Taittiriya Sanhita, included in the Yajur-Veda, describes the different shapes that the altars could have. The oldest of these altars had the shape of a falcon and an area of 7.50 squares purusha (a purusha was a unit equivalent to the height of a man with uplifted arms, about 7.6 feet or 2.3 meters). Sometimes other altar shapes were required (such as a wheel, a tortoise, a triangle), but the area of these new altars had to remain the same, 7.50 square purusha. Some other times, the size of the altar had to be increased without changing the shape or the relative proportion of the figure. All these procedures were impossible to carry out without a fine knowledge of geometry.
A work known as the Shulba Sutras, first composed in India around 800 BCE, contains detailed explanations on how to perform all the geometrical operations required to support the religious procedures regarding the altars. This text also develops mathematical topics such as square roots and squaring the circle. After developing important geometrical studies, religious practices changed in India, and the need for geometrical knowledge gradually died out as the construction of altars fell out of use.
Possibly the most influential achievement of Hindu science was the study of arithmetic, particularly the development of the numbers and the decimal notation that the world uses today. The so-called “Arabic numbers” actually originated in India; they already appear in the Rock Edicts of the Mauryan emperor Ashoka (3rd century BCE), about 1,000 years before they are used in Arabic literature.
Chinese Science
In China, the priesthood never had any significant political power. In many cultures, science was encouraged by the priesthood, who were interested in astronony and the calendar, but in China, it was government officials who had the power and were concerned with these areas, and therefore the development of Chinese science is strongly linked to government officials. The court astronomers were particularly interested in the sciences of astronomy and mathematics, since the calendar was a sensitive imperial matter: the life of the sky and the life on earth had to develop in harmony, and the sun and the moon regulated the different festivals. During the time of Confucius (c. 551 to c. 479 BCE), Chinese astronomers successfully calculated the occurrence of eclipses.
Geometry developed as a result of the need to measure land, while algebra was imported from India. During the 2nd century BCE, after many centuries and generations, a mathematical treatise named The Nine Chapters on the Mathematical Art was completed. This work contained mostly practical mathematical procedures including topics such as determining the areas of fields of different shapes (for taxation purposes), pricing of different goods, commodities rate exchange and equitable taxation. This book develops algebra, geometry and also mentions negative quantities for the first time in recorded history. Zu Chongzhi (429-500CE), estimated the right value of pi to the sixth decimal place and improved the magnet, which had been discovered centuries earlier.
Where the Chinese displayed an exceptional talent was at making inventions. Gunpowder, paper, woodblock printing, the compass (known as “south-pointing needle»), are some of the many Chinese inventions. Despite their immense creativity, it is ironic that Chinese industrial life did not undergo any significant development between the Han dynasty (206 BCE-220 CE) to the fall of the Manchu (1912 CE).
Intihuatana Stone, Machu Picchu Flickr User: David (CC BY-NC-ND)
Mesoamerican Science
Mesoamerican mathematics and astronomy were highly precise. The accuracy of the Maya calendar was comparable to the Egyptian calendar (both civilizations fixed the year at 365 days) and already in the 1st century CE the Maya used the number zero as a place-holder value in their records, many centuries before the zero appears in European and Asian literature.
Time record-keeping in Mesoamerica included a 260 day period known by the Maya as tzolkin “count of days” and tonalpohualli by the Aztecs. This interval was obtained by combining cycles of 20 days with thirteen numerical coefficients (20 x 13 = 260). The origin of this interval is believed to be around the 6th century BCE in the southern region of the Zapotec Civilization, and it is in tune with some important natural events: 260 is a good approximation of the human gestation period and, in mid-Mesoamerican latitude, is perfectly consistent with the agricultural cycle. There was also a 360 day period known as tun by the Maya, composed of cycles of 20 days and 18 months (20 x 18 = 360). Most Mesoamerican calendars would be based on one tun plus an additional month of five days (360 + 5 = 365), which is a good approximation of the solar cycle. This count regulated the holidays, religious ceremonies, sacrifices, work life, tributes, and many other aspects of religious, political and social life.
The 260 and 365 day count would be run simultaneously, and every 52 years the starting point of both would match up, an event termed as a “calendar round”. The Aztec codices suggest that during the time of a calendar round, it was believed that the world was vulnerable to destruction, so at that time they held a number of sacrifices and religious ceremonies in order to please the gods and ensure the world would continue.
The Mayas created the longest Mesoamerican calendar cycle by multiplying one tun by 20 (360 days x 20 = 7,200 days, or one katun) and one katun by 20 (7,200 days x 20 = 144,000 days, or one baktun). The Mayan Long Count was composed of 13 baktuns (144,000 days x 13 = 1,872,000 days), or 5,125.37 years. The starting point of the Mayan Long Count is August 11, 3114 BCE and it ended on December 21, 2012 BCE.
This article has been reviewed for accuracy, reliability and adherence to academic standards prior to publication.
Наука
Слово «наука» происходит от латинского слова «scientia», которое, означает «знание». Наука охватывает широкую область знаний,
имеет дело с фактами и отношения между этими фактами.
Ученые изучают самые разные предметы. Некоторые ученые ищут вьющихся растений и животных. Другие исследователи выясняют, почему мы ведем себя так, как мы поступаем, или пытаемся решать сложные математические задачи.
Ученые используют систематические методы исследования для наблюдения и сбора фактов. Они развивают теории, которые помогают им упорядочивать и объединять факты.
Научные теории состоят из общих принципов или законов, которые пытаются объяснить, как и почему что-то происходит или произошло. Теория рассматривается как кусок научного знания, он был проверен экспериментально и подтвердил, что
Научные исследования можно разделить на три основные группы: естественные, социальные и технические науки. По мере того как научное знание росло и усложнялось, появилось много новых областей науки. В то же время границы между научными все меньше и меньше расчищать. Многочисленные области науки пересекаются друг с другом, и зачастую трудно сказать, где заканчивается одна наука и начинается другая.
Все науки тесно взаимосвязаны.
Наука оказывает огромное влияние на нашу жизнь, она обеспечивает основу современных технологий — инструменты и машины, которые облегчают нашу жизнь и работу. Открытия и изобретения ученых также помогают формировать наши Евреи о себе и нашем месте во вселенной.
Presentation on theme: «The word science comes from the Latin «scientia,» meaning knowledge. Scientific Theories are not «tentative ideas» or «hunches». The word «theory» is often.»— Presentation transcript:
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The word science comes from the Latin «scientia,» meaning knowledge. Scientific Theories are not «tentative ideas» or «hunches». The word «theory» is often used this way in everyday conversation, but a theory in science refers to a highly probable, well- tested comprehensive explanation, usually for a large collection of observations.
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What is Science? Many different definitions: Science is the concerted human effort to understand, or to understand better, the history of the natural world and how the natural world works, with observable physical evidence as the basis of that understanding. It is done through observation of natural phenomena, and/or through experimentation that tries to simulate natural processes under controlled conditions
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What is Science? The systematic observation of natural events and conditions in order to discover facts about them and to formulate laws and principles based on these facts. The organized body of knowledge that is derived from such observations and that can be verified or tested by further investigation.
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Science is not Technology Technology is the process by which humans modify nature to meet their needs and wants. It is Related to Science? Although there is certainly a relationship between science and technology, there is, except in certain high technology industries, very little technology that could be classified as applied science. Technology is marked by different purposes, different processes a different relationship to established knowledge and a particular relationship to specific contexts of activity. Change in the material environment is the explicit purpose of technology, and not, as is the case with science, the understanding of nature; accordingly its solutions are not right or wrong, verifiable or falsifiable, but more or less effective from different points of view.
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What Science is NOT Science is not a process that can solve all kinds of problems and questions. The realm of science is limited strictly to solving problems about the natural world. Science is not properly equipped to handle the supernatural realm (as such), nor the realm of values and ethics. It’s not a process that can ignore rules. Science must follow certain rules; otherwise, it’s not science. It’s not a process that seeks the truth or facts. The goal of science is to come as close as we can to understanding the cause-effect realities of the natural world. It’s never «truth» or «facts». «Truth» and «facts» can mean different things to different people. It’s not a process that attempts to prove things. The process of science, when properly applied, actually attempts to disprove ideas (tentative explanations)… a process called «testing», or «challenging». If the idea survives testing, then it is stronger, and more likely an accurate explanation.
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What Science is NOT (cont.) It’s not a process that can produce any kind of explanation. Scientific explanations must be potentially disprovable. Therefore, supernatural explanations cannot be used, since they can never be disproved (supernatural forces, by definition, do not predictably follow the laws of nature). Whatever results occur in any test can be attributed to those nebulous forces, effectively ending any further efforts to explain. It’s not a process that produces certainties, or absolute facts. Science is a process which can only produce «possible» to «highly probable» explanations for natural phenomena; these are never certainties. With new information, tools, or approaches, earlier findings (theories, or even facts) can be replaced by new findings.
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What Science is NOT (cont.) It’s not a process that is free from values, opinions or bias. Scientists are people, and although they follow certain rules and try to be as objective as possible, both in their observations and their interpretations, their biases are still there. Unconscious racial bias, gender bias, social status, source of funding, or political leanings can and do influence one’s perceptions and interpretations. It’s not a process in which one solution is as good as another, or is simply a matter of opinion. In science, there is a rigorous analysis and fair-test comparison of alternative explanations, using discriminate criteria, e.g., confirmation by multiple independent lines of evidence, leading to one «best» solution.
English term or phrase: The word “science” comes from the latin word “scientia”, which means “knowledge” |
The word “science” comes from the latin word “scientia”, which means “knowledge”. Scientists make observations and collect facts in field they work in. Then they arrange facts ordelly and try to express the connaction between the facts and try to work out theories. Then they have to prove the facts or theory correct and make sufficient and sound evidence. So sientific knowledge is always growing and improving. Science has great influence on our life. It provides with base of modern technology, materials, sources of power and so on. Modern science and technology have changed our life in many different ways. During the present century our life changed greatly. Thanks to radio and television we can do a great number of jobs; it was radio and TV that made it possible to photograph the dark side of the moon and to talk with the first cosmonaut while he was orbiting the Earth. On of the wonders og our age is the “electronic brain”, or giant calculating mashine, which can to some extent duplicste human sences. The desk computer is expected to function as your personal librarian, to carry out simple optimization computations, to control your budget or diet, play several hundred games, etc. further development of the computer is bellieved to lead to a situation in which most of the knowledge accepted by mankind will be stored in the computers and made accessible to anyone with the home computers. It is natural that the advent of minicomputers with extensive memories and possibilities will lead to a new higher level in information culture. Among other things, we shall be able to organise educational process in the country’s colleges and universities and also in the system of school education on a new basic. Knowledge is the most valuable wealth, and minicomputers will help us to make it accessible for everyone. Agrycultiral sientists develop better varietives of plants. The development of antibiotics and other drugs has helped to control many diseases. Studies in anatomy and physiology have let to amazing surgical operations and the inventions of lifesaving mashines, that can do the work of such organs as heart, lungs and so on. Nuclear fission when a tremendous amount if energy is setting free is very important discovery. Science improved the living standarts, communications, promoted contact between people and government, knowledge and culture, made it possible to discover and develop new sources of energy, made it possible to prolong man’s life. But science also has some disadvantages. It produces mass culture: painting, music, literature. Some scientific inventions increase the ecological problems, provide with new diseases like AIDS, increased the danger of violent death. The greatest scientists were very persistent and were sure in their success. Even without any serious education they made great inventions. Even during times of disappointing experiments and unacknowledgement by other scientists, they didn’t give up and went on working out theories. Also they were always ready to begin everything from the very beginning. They worked a lot, and this work wasn’t for money. The aim, the main object of the greatest scientists of all times was always to find out the trith and no personal prejudices can be allowed. So the science grows and prospers and is the engine of progress. The problem of learning languages very important today. Foreign languages are socially demanded especially at the present time when the progress in science and technology has led to an explosion of knowledge and has contributed to an overflow of information. The total knowledge of mankind is known to double every seven years. Foreign languages are needed as the main and the most efficient means of information exchange of the people of our planet. |
Английское слово “science” происходит от латинского слова “scientia”, которое означает “знание” |
Explanation: . ————————————————— Если Ваш вопрос, Аскер, состоял именно в этом, то я перевела фразу в заголовке. Мы часто сетуем, что Аскеры дают мало контекста или вообще не дают. А Вы наоборот — дали много контекста. Но это ничего — в таком деле лучше много, чем мало. С наступающим Новым годом, Алексей! |
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