Connections_1《文明的纽带-人类科技史话_I》
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影片原始规格:
- 中文片名 :文明的纽带-人类科技史话 I
- 中文系列名:
- 英文片名 :Connections 1
- 英文系列名:
- 电视台 :BBC
- 地区 :英国
- 语言 :英语
- 时长 :约 50 分钟/集
- 版本 :DVD
- 发行时间 :2007
影片内容介绍
剧情简介
This ten volume series was made in 1978 by turning science into a detective story, James Burke creates a series that will fascinate students and adults alike. This interdisciplinary approach has never before been applied to history or science and it succeeds tremendously. Winner of the Red Ribbon in the American Film Festival, the scope of the series covers 19 countries and 150 locations, requiring over 14 months of filming. As the Sherlock Holmes of science, Burke tracks through 12,000 years of history for the clues that lead us to eight great life changing inventions-the atom bomb, telecommunications, the computer, the production line, jet aircraft, plastics, rocketry and television. Burke postulates that such changes occur in response to factors he call “triggers” some of them seemingly unrelated. These have their own triggering effects, causing change in totally unrelated fields as well. And so the connections begin…
分集介绍
The Trigger Effect
Both the beginning and the end of the story are here. The end is our present dependence on complex technological networks illustrated by the NYC power blackouts. Life came almost to a standstill: support systems taken for granted failed. How did we become so helpless? Technology originated with the plow and agriculture. Each invention demands its own follow-up: once started, it is hard to stop. This segment ends in Kuwait, where society has leapt from ancient Egypt to the technology of today in 30 years.
Death in the Morning
How did a test of gold’s purity revolutionize the world 2500 years ago and lead to the atomic bomb? Standardizing precious metal in coins stimulated trade from Greece to Persia, causing the construction of a huge commercial center and library at Alexandria. This wealth of nautical knowledge aided navigators 14 centuries later. Mariners discovered that the compass’s magnetized needle did not point directly north. Investigations into the nature of magnetism led to the discovery of electricity, radar and to the atomic bomb.
Distant Voices
Telecommunications exist because the Normans wore stirrups at the Battle of Hastings- a simple advance that caused a revolution in the increasingly expensive science of warfare. Europe turned its attention to making money to wage wars. As mine shafts were dug deeper, they became flooded, stimulating scientists like Galileo to investigate vacuums, air pressure and other natural laws to mine deeper silver. This led to the discovery of electricity and magnetism’s relationship and to the development of radio, and deep space telecommunications that may enable contact with galactic civilizations.
Faith in Numbers
Each development in the organization of systems (political, economic, mechanical, electronic)influences the next, by logic, by genius, by chance, or by utterly unforeseen events. The transition from the Middle ages to the Renaissance was influenced by the rise of commercialism, a sudden change in climate, famine and the Black Death, which set the stage for the invention of the printing press.
The Wheel of Fortune
The power to see into the future with computers originally rested with priest- astronomers who knew the proper times to plant and harvest. The constellations influenced life spectacularly, particularly when the ailing Caliph of Baghad was cured by an astrologer using Greek lore. His ancient medical secrets were translated and spread throughout Europe, ushering in an era of scientific inquiry. The need for more precise measuring devices in navigation gave rise to the pendulum clock, the telescope, forged steel and interchangeable machine parts-the basis of modern industrial system.
Thunder in the Skies
A dramatically colder climate gripped Europe during the 13th century profoundly affecting the course of history for the next seven centuries. The changes in energy usage transformed architecture and forced the creation of new power sources. The coming of the Industrial Revolution, spurred on by advances in the steam engine, scarred England indelibly: but a moment in history later, gasoline-powered engines opened the way to the heavens.
The Long Chain
Often, materials discovered by accident alter the course of the world. In the 1600s Dutch commercial freighters controlled Atlantic trade routes. Competing British lines induced America to produce pitch to protect hulls of their royal vessels. This arrangement lasted until 1776, after which a Scottish inventor tried to produce pitch from coal tar. By the time he succeeded the navy was using copper instead. Subsequent experiments with coal tar yielded gaslight lamps, waterproofed garments, a brilliant mauve dye that established the German chemical industry and nylon, the first of the miracle plastics.
Eat, Drink and Be Merry
When Napoleon marched huge forces across Europe, he needed an efficient way to store provisions. A Frenchman preserved sterilized food in empty champagne bottles, an idea modified by the British, who tried tin cans. Still, canned foods sometimes spoiled, which led to experiments with refrigeration. Later, it was discovered that gases may be stored at very low temperatures in a thermos flask, a device handy for picnics, for polar explorers and for, storing large quantities of liquid oxygen and hydrogen. When lit by a spark these gases can send rockets into space.
Countdown
What happens when you combine a carbon arc light, a billiard ball coating, a spoked wheel and consecutive images? Motion pictures! Complex and sometimes incredible events led to Thomas Edison’s remarkable invention; the beginnings of limelight on a Irish mountain; George Eastman’s production of celluloid from the slightly explosive gun cotton; the “magic lantern” of an Austrian ballistics teacher. Then Eadweard Muybridge settled a bet in 1872 by photographs; does a horse raise all four feet when galloping? (Yes.) Today moving pictures, together with television, are enormously powerful mass media. Have we become trapped by our own technology?
Yesterday, Tomorrow and You
“Why did we do it this way?” Essential moments from the previous programs are reviewed to illustrate the common factors that make for change. Will they go on operating to affect our futures? And if so, can we recognize them? The second half looks at the extent to which we have become increasingly incapable of understanding how change occurs in our complex world and at why we are in such a predicament. Finally, there is a look ahead to the need for radical change in the availability and use of information in the future, if we are to remain in control of our destinies.
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人物 James Burke
| 内容 自然科学类 | 数学 | 物理学 | 化学 |
|---|---|---|---|
| 应用科学类 | 电机工程 | 电信领域 | 电力工程 |
| — | — | — | — |
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Category:片名 Category:BBC Category:James Burke Category:1978 Category:3. 自然科学类 Category:3.1 数学 Category:3.2 天文学 Category:3.3 物理学 Category:3.4 化学 Category:4. 应用科学类 Category:4.2 电机工程 Category:4.21 电信领域 Category:4.22 电力工程 Category:4.23 计算器领域 Category:4.3 机械工程 Category:4.34 航空器 Category:4.35 精密机械 Category:4.36 机械设备 Category:4.52 自然资源 Category:4.522 矿物 Category:4.5221 金属矿物 Category:4.62 食品 Category:4.64 家庭设备 Category:4.71 材料 Category:4.74 化工 Category:缺翻译