时间:2018-12-19 作者:英语课 分类:环球英语 Spotlight


英语课

   Voice 1


 
  Welcome to Spotlight 1. I’m Anne Muir.
 
  Voice 2
 
  And I’m Colin Lowther. Spotlight uses a special English method of broadcasting. It is easier for people to understand - no matter where in the world they live.
 
  Voice 1
 
  The sound of thunder. Lightning is bright in the sky. The storm is coming closer. Some people hide in fear. They put their hands over their ears. And they wait for the storm to finish.
 
  Voice 2
 
  In the past, many people believed that thunder and lightning were punishments from God. Lightning came from the sky, so they believed that it came from God. It was powerful. It could cause great damage. But no one knew what lightning really was. That changed in 1752. Today’s Spotlight is on the experiment that showed the true nature of lightning.
 
  Voice 1
 
  Benjamin Franklin was a scientist and statesman 2. He lived almost three hundred years ago, in the United States. Franklin is mainly known today as a political person. His writings greatly influenced the United States, and many other countries too. But he is also known as a scientist and inventor. His most important discoveries were about electricity.
 
  Voice 2
 
  At that time, electricity was a new discovery. Franklin did many experiments with electricity in his home. He began to think that lightning acted like electricity in many situations. Franklin suspected that lightning was an electrical current. But he wanted to test his theory. He developed an experiment. The experiment would discover if lightning would pass through metal. He decided 3 to use a metal key. But first, he had to find a way of linking the key to the lightning - high up in the sky.
 
  Voice 1
 
  Franklin’s experiment is quite famous. However, Franklin did not record this experiment until much later. So some experts believe that it did not happen the way stories describe it. Scientists debate the details of the experiment. They say that it could not have happened exactly as most people imagine. It is unclear how Franklin actually did the experiment. But Franklin’s results are clear. Later experiments proved that he was correct. Most modern versions 4 agree that it happened something like this.
 
  Voice 2
 
  The story says that Franklin decided to use a kite. We usually only see children playing with kites. They like to make them using brightly coloured paper, sticks, and very thin string. They stretch the paper over the sticks and attach the string to the sticks. And then they hold onto the long string and run. The wind carries the kite through the sky.
 
  Voice 1
 
  Franklin made his kite from light cloth. He tied a metal key to the bottom. He expected the lightning to strike the kite. He believed that the lightning would flow down the kite string to the key at the end.
 
  Voice 2
 
  The experiment took place in Philadelphia, Pennsylvania. It was June, 1752. Franklin and his son waited for a thunderstorm. When the storm began, they carried the kite outside. They flew it high. It entered a rain cloud. Franklin put his hand on the key. And then, bang 5! Electricity flowed through. The experiment had worked! The lightning behaved like electricity. It flowed through wet kite-string and the metal key!
 
  Voice 1
 
  Some modern scientists say that the lightning would have killed Franklin. But they do suggest other possible ways that the kite experiment could have happened. For example, they suggest that lightning did not strike Franklin’s kite. They say that the string got electricity from the air in the storm.
 
  Voice 2
 
  No matter who is right about the details of the experiment, Franklin’s theory still caused many people to investigate lightning. Now, scientists agree that lightning is electricity. And scientists know much more about lightning. They tell us that:
 
  Voice 1
 
  On average, there are one hundred lightning strikes every second around the world.
 
  Voice 2
 
  Lightning can send out a million volts 6 of electricity! The temperature in a lightning bolt 7 is about thirty thousand degrees Celsius 8.
 
  Voice 1
 
  Lightning can strike in half a second. In that time, the lightning heats the surrounding air. It heats it to an extremely high temperature - five times hotter than that on the sun’s surface! The heat causes the air to expand. This makes a sound. We hear this sound as thunder. Although this happens at the same time, we hear the thunder after the lightning. The reason for this is simply because sound travels more slowly than light.
 
  Voice 2
 
  Lightning disappears quickly in the air. But it does sometimes leave something behind: fulgurites. The word comes from the Latin 9 word for lightning, ‘fulgur’. The best-known fulgurites are sand fulgurites. These are found under the surface of sand.
 
  Voice 1
 
  Sand fulgurites form when lightning hits sand. They are thin glass tubes under the sand. The heat from the electrical current is very intense 10. It melts the sand into glass. Fulgurites usually take the shape of the roots of a tree. The outside of the thin tubes is silica glass. Scientists can easily make silica glass in laboratories 11. But it is very rare to find it in nature. Fulgurites are not usually longer than a few centimetres. This is because movement of the sand often breaks the fine tubes. They are after all, glass.
 
  Voice 2
 
  Rock fulgurites form in a similar way. They form when lightning strikes the surface of rock. The lightning melts the rock’s surface. It can also melt the inner 12 part of the rock. Rock fulgurites are even less common than sand fulgurites.
 
  Voice 1
 
  The formation 13 of fulgurites shows just how powerful lightning is. Lightning can cause great damage to buildings - especially tall buildings. Benjamin Franklin invented something simple to prevent this damage. His invention is called a lightning rod 14. Lightning rods 15 are tall thin pieces of metal. A rod may have a pointed 16 end, or a ball at the end. People place lightning rods at the top of a building. The rod is the tallest thing on the building. A wire goes from the rod to the ground. When lightning strikes, the electricity goes through the rod to the ground. The lightning does not affect the building. Lightning rods became very popular because of Franklin. They have saved many buildings!
 
  Voice 2
 
  From electricity to a lightning rod that saves buildings. Benjamin Franklin asked questions. He changed ideas. And he invented something that still helps people today! All discoveries start in the same place. What questions do you have? What can you create?
 
  Voice 1
 
  The writers of this program were Marina Santee and Christy VanArragon. The producer was Nick Mangeolles. The voices you heard were from the United Kingdom and the United States. All quotes were adapted for this program and voiced by Spotlight. You can listen to this program again, and read it, on the internet at http://www.radioenglish.net This .program is called, ‘Lightning and Electricity’.
 
  Voice 2
 
  You can also leave your comments on our website. Or you can email us at radio@radioenglish.net. You can also find us on Facebook - just search for spotlightradio. We hope you can join us again for the next Spotlight program. Goodbye.

1 spotlight
n.公众注意的中心,聚光灯,探照灯,视听,注意,醒目
  • This week the spotlight is on the world of fashion.本周引人瞩目的是时装界。
  • The spotlight followed her round the stage.聚光灯的光圈随着她在舞台上转。
2 statesman
n.国务活动家,政治家
  • Friends gathered at a memorial for the late statesman.这位已故政治家的生前好友为他举行了纪念仪式。
  • The statesman is much occupied with affairs of state.那个政治家忙于国事。
3 decided
adj.决定了的,坚决的;明显的,明确的
  • This gave them a decided advantage over their opponents.这使他们比对手具有明显的优势。
  • There is a decided difference between British and Chinese way of greeting.英国人和中国人打招呼的方式有很明显的区别。
4 versions
n.译本( version的名词复数 );版本;(个人对事件的)描述;(原物的)变体
  • There are two versions of the game, a long one and a short one. 这游戏有两个版本,一长一短。
  • When both versions of the story were collated,major discrepancies were found. 在将这个故事的两个版本对照后,找出了主要的不符之处。 来自《简明英汉词典》
5 bang
n.巨响,猛击;vi.砰砰作响;vt.砰地敲,猛击
  • Pack it up, you kids;or I'll bang your heads together!住手,你们这些小孩,再弄就揍你们!
  • She fell and got a nasty bang on the knee.她摔倒了,膝盖猛撞在地上。
6 volts
n.(电压单位)伏特( volt的名词复数 )
  • The floating potential, Vf is usually only a few volts below ground. 浮置电势Vf通常只低于接地电位几伏。 来自辞典例句
  • If gamma particles are present, potential differences of several thousand volts can be generated. 如果存在γ粒子,可能产生几千伏的电位差。 来自辞典例句
7 bolt
n.螺栓;插销;vt.闩,栓住;vi.冲出去,逃跑
  • It is a bad habit to bolt your food.狼吞虎咽地吃东西是个不良习惯。
  • That door refuses to bolt.那扇门关不牢。
8 Celsius
adj.摄氏温度计的,摄氏的
  • The temperature tonight will fall to seven degrees Celsius.今晚气温将下降到七摄氏度。
  • The maximum temperature in July may be 36 degrees Celsius.七月份最高温度可能达到36摄氏度。
9 Latin
adj.拉丁的,拉丁语的,拉丁人的;n.拉丁语
  • She learned Latin without a master.她无师自通学会了拉丁语。
  • Please use only Latin characters.请仅使用拉丁文字符。
10 intense
adj.认真的,专注的;强烈的;紧张的;热情的
  • Susan was an intense young lady.苏珊是一个热情的年轻姑娘。
  • The quarrel caused her intense unhappiness.争吵令她极其不快。
11 laboratories
n.实验室( laboratory的名词复数 )
  • For, eight years, Marie Curie worked in cold laboratories with poor equipment. 整整八年,居里夫人在设备简陋、冰冷的实验室里做着实验。 来自英汉非文学 - 科学史
  • Some commercial laboratories use periodic nitrate tests as guides. 许多商业性的试验室已应用定期的硝态氮分析作为指导。 来自辞典例句
12 inner
adj.内部的,里面的;内在的,内心的;精神的
  • The label is on the inner side of the box.标签贴在盒子内侧。
  • Other people seek the mountains for renewal of their inner lives.另一些人到深山中去,寻求新的精神生活。
13 formation
n.形成,组成;形成物,结构;队形,排列
  • This is the formation of a new government.这是新政府的构成。
  • The aircraft are flying in formation.飞机编队飞行。
14 rod
n.钓竿,杆,棒
  • Pass me a bamboo rod.递给我一根竹竿。
  • He heated the iron rod and bent it into a right angle.他将铁棒烧热,将其弯成直角。
15 rods
竿( rod的名词复数 ); 杆; (责打人用的)棍棒; 手枪
  • The wheels of the toy car were fixed on metal rods. 玩具车的轮子固定在金属棒上。
  • A typewriter in which the characters are situated on type rods. 一种打字机,其字符安装在字模棒上。
16 pointed
adj.尖的,直截了当的
  • He gave me a very sharp pointed pencil.他给我一支削得非常尖的铅笔。
  • She wished to show Mrs.John Dashwood by this pointed invitation to her brother.她想通过对达茨伍德夫人提出直截了当的邀请向她的哥哥表示出来。
学英语单词
acid-treated oil
Adonics
al-arab
animal welfarist
avermectins
avian enterovirus
B.T.S.
balse (philippines)
be shot of
brake beam hanger
Cintra
coaxial-waveguide output device
colour coordination
common schedule
commotio retinae
demonstration school
diploid nucleus
directional comparison system
Doctor and Nurse
dramatic art
dryopteris pseudolunanensis
duty paying value
earth fault current
edt.
elegiacs
embouchure
employee involvement
erithacuss
externally programmed computer
familial incidence
figeaters
Fitzjohn
fizz up
geomyids
gigaleurodes minahassai
Glucopostin
gonioctena (asiphytodecta) tredecimmaculata
great-great-
heptadecenoic
industrial air-conditioning
ironic phosphate
ISC (instruction length code)
jofa
justiceships
Kamenistaya, Bukhta
keep a good table
kephrinei
lairiest
laryngorrhea
left hand propeller
let me think
LF-RF
Li, Mae
magnetic cross valve
microtransaction
Midlobular
multi-perspective
Möng Hsat
Newtonianism
non-authoritarian
notice of enquiry
nylon base insulator
one-night-stand
optants
pedal pianoforte
pentamethylmelamine
pole-change motor starter
post a letter
proportional weir
puncture of dielectric
quadrant elevation fine synchrodata
quarantine peried
ramaker
relaxed synthesis
Resource Description Framework
retainer screw
Rhododendron fulgens
roly-poly filly
sanability
sat inwood
Sauropus tsiangii
self-evaluative
sensory nerve ending
share system
signaling effect of foreign exchange intervention
sour stomach
stepless
Stereocyst
synchronizing drum
tabellions
temperature-compensation
Thrixspermum amplexicaule
throw sth out
tightly coupled
tons displacement
Tysbær
unbribable
underprints
unsensing
vargo
wall post
zenith sun