时间:2019-01-02 作者:英语课 分类:英语音频杂志


英语课

   Cryptology


  
  By Paul Millard
  Dbo zpv sfbe uijt? Ju’t b tfdsfu dpef! If you don’t understand that, it is because I wrote it in a secret code. It isn’t a very complicated code. I just changed every letter for the one following it in the alphabet. So, ‘b’ is ‘c’, ‘c’ is ‘d’ and so on. Fbtz
  Secret codes are not a new idea. They are almost as old as writing itself. We know that the Ancient Egyptians and Greeks used them, as did the Arabs of a thousand years ago. They were especially important in war. Commanders didn’t want the enemy to capture their messages and understand their plans, so they wrote them in code. Of course, the enemy did want to understand the messages, so they would try to find the code, or ‘break’ it.
  
  The Enigma 1 code
  As a result, codes became more and more complicated. One of the most famous is the Enigma code, invented by the Germans and used in the Second World War. People believed that it was impossible to break, because it was so clever. The amazing thing about Enigma was that it was always changing. In one message, the letter ‘e’ could be ‘f’, but in another message it could be ‘z’. So, there were millions of possibilities in every coded message.
  The first people to attempt to break the code were the Polish, who were concerned about Hitler’s rise to power. A group of mathematicians 3 worked on the Enigma problem. They found out a lot about how it worked, but they couldn’t understand it. When Hitler attacked in 1939, the Poles told the British everything that they knew about the code.
  
  Atlantic danger
  Most of the British code-breakers thought that Enigma was unbreakable. They were especially concerned about the Enigma variations used by the German navy. The submarines sent by Hitler to attack ships in the Atlantic were probably the greatest danger faced by the British and American allies in the war. Britain needed food and other essentials from outside, and the Americans needed to send soldiers and supplies safely across the ocean. Without breaking the code, there was little chance of defeating the submarines. Without control of the Atlantic, there was little chance of victory.
  
  Alan Turing, code-breaker
  Almost alone, one man began to work on the problem. He was a brilliant young mathematician 2 called Alan Turing. He believed that he could break the code with advanced logic 4 and statistics. However, he needed to make a machine that could do a very large number of calculations very quickly. By improving on the machines that the Poles had made, he built a machine called the ‘Bombe’.
  It worked. He broke the Enigma code. The British and Americans could read the messages that were sent to and from Hitler’s submarines. Slowly, the allies won the Battle of the Atlantic. They had freedom to move at sea and could send their armies to liberate 5 Western Europe from Hitler and the Nazis 6. In 1943, they went to Italy and in 1944 they successfully landed in France. This was the landing shown in the film, ‘Saving Private Ryan’. Without Turing and his code-breaking, the history of Europe and the world could have been very different.
  
  From code-breaking to computer-building
  Turing continued working with machines and electronics and in 1944 he talked about ‘building a brain’. Turing had an idea for an electronic ‘universal machine’ that could do any logical task. Soon after the war, he went to work at Manchester University and in 1948 the ‘Manchester Baby’ was born. It was Turing’s second great invention and the world’s first digital computer. When he sent a message from his computer to a telex 8 machine, Alan Turing wrote the first e-mail in history.
  So, what happened next in the life of this highly talented man? His great achievements in code-breaking and computing 9 happened in his twenties and thirties. He was still a young man - in the same year that his computer worked for the first time, he nearly ran in the Olympic Games for Britain. We know that he had many ideas to develop in digital computing, quantum physics, biology and philosophy. Sadly, he wasn’t able to work fully 7 on these ideas. Turing’s personal life became more and more problematic.
  
  A genius under attack
  Alan Turing was a homosexual. Nowadays, this is legal and widely accepted in Britain and most other Western countries. Fifty years ago, it was a very different story, and people were sent to prison for homosexual acts. Turing had to stop doing code-breaking work for the British government because his homosexuality was a ‘security risk’. This hurt and angered him, especially as it hadn’t been a problem in the war years. Increasingly, Turing refused to hide his homosexuality, believing that there was nothing wrong with him. Perhaps he felt that he deserved individual freedom, having done so much for freedom in the world.
  Finally, he was arrested by the police and in March 1952 he was found guilty at a criminal trial. He wasn’t sent to prison – instead he was injected with the female hormone 10, oestrogen, in an attempt to stop his homosexual behaviour.
  
  A tragic 11 end
  Two years later, Alan Turing was dead. He killed himself by eating an apple containing the poison, cyanide. The apple - the symbol of the physics of Newton, of forbidden love, of knowledge itself - became the symbol of tragic death.
  For many years, Turing was a forgotten hero. Now, more than fifty years after his death, more and more people are learning of his work in war and in peace. The BBC made a television programme about him. Some years ago, a statue designed by Glyn Hughes was put up in a small park in Manchester. It is of Turing, sitting on a park bench, with an apple in his hand. The money for the statue mostly came from individual people who wanted to remember him. No money came from the British government or any major computer company, despite the great work that Turing had done for them.
  It is a wonderful memorial, but perhaps a greater memorial is that you are reading this now because of Turing’s computing work, and that I could write it in a democratic country in Western Europe.

n.谜,谜一样的人或事
  • I've known him for many years,but he remains something of an enigma to me.我与他相识多年,他仍然难以捉摸。
  • Even after all the testimonies,the murder remained a enigma.即使听完了所有的证词,这件谋杀案仍然是一个谜。
n.数学家
  • The man with his back to the camera is a mathematician.背对着照相机的人是位数学家。
  • The mathematician analyzed his figures again.这位数学家再次分析研究了他的这些数字。
数学家( mathematician的名词复数 )
  • Do you suppose our mathematicians are unequal to that? 你以为我们的数学家做不到这一点吗? 来自英汉文学
  • Mathematicians can solve problems with two variables. 数学家们可以用两个变数来解决问题。 来自哲学部分
n.逻辑(学);逻辑性
  • What sort of logic is that?这是什么逻辑?
  • I don't follow the logic of your argument.我不明白你的论点逻辑性何在。
v.解放,使获得自由,释出,放出;vt.解放,使获自由
  • They did their best to liberate slaves.他们尽最大能力去解放奴隶。
  • This will liberate him from economic worry.这将消除他经济上的忧虑。
n.(德国的)纳粹党员( Nazi的名词复数 );纳粹主义
  • The Nazis worked them over with gun butts. 纳粹分子用枪托毒打他们。 来自《简明英汉词典》
  • The Nazis were responsible for the mass murder of Jews during World War Ⅱ. 纳粹必须为第二次世界大战中对犹太人的大屠杀负责。 来自《简明英汉词典》
adv.完全地,全部地,彻底地;充分地
  • The doctor asked me to breathe in,then to breathe out fully.医生让我先吸气,然后全部呼出。
  • They soon became fully integrated into the local community.他们很快就完全融入了当地人的圈子。
n.用户电报,直通专用电传
  • I shall send you the information by telex.我将用电传把这一信息给你传来。
  • He rushed in with an urgent telex from Hong Kong.他手里拿着一份香港发来的紧急电传冲了进来。
n.计算
  • to work in computing 从事信息处理
  • Back in the dark ages of computing, in about 1980, they started a software company. 早在计算机尚未普及的时代(约1980年),他们就创办了软件公司。
n.荷尔蒙,激素,内分泌
  • Hormone implants are used as growth boosters.激素植入物被用作生长辅助剂。
  • This hormone interacts closely with other hormones in the body.这种荷尔蒙与体內其他荷尔蒙紧密地相互作用。
adj.悲剧的,悲剧性的,悲惨的
  • The effect of the pollution on the beaches is absolutely tragic.污染海滩后果可悲。
  • Charles was a man doomed to tragic issues.查理是个注定不得善终的人。
标签: 音频杂志
学英语单词
actutaing signal
aftereffect of permeability
agricultural mechanization
aliphatic sesquiterpene
apar-
Aquaform
aster falcatuss
auto decrement flag
Balige
basin landscape
belly-dancer
blennorrhea alveolaris
breaking changes
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compiled machine language instruction
cone and disc viscometer
controlled Markov process
corrective active board
dashed down
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dry cargo freight market
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eye for an eye and a tooth for a tooth
fancy handkerchief
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Has anyone been?
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Tedder, Arthur William, 1st Baron
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throw it
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treat (transient reactor test equipment)
trunk root union
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ureteris
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vena metacarpuss
Verkhoramen'ye
well-motived
What's bred in the bone will come out in the flesh.
Yua austro-orientalis