时间:2019-01-30 作者:英语课 分类:People in America


英语课

PEOPLE IN AMERICA - Philo Farnsworth
By Paul Thompson


Broadcast: Sunday, June 06, 2004


(MUSIC)


VOICE ONE:


I'm Phoebe Zimmermann.


VOICE TWO:


And I'm Steve Ember with People in America in VOA Special English. Today we tell about a man who made possible one of the most important communications devices 2 ever created -- television. His name was Philo Farnsworth.


(MUSIC)


VOICE ONE:


In nineteen-sixty-nine, American astronaut Neil Armstrong climbed down the side of the space vehicle that had taken him to the moon.


As his foot touched the surface of the moon, pictures of the event were sent back to televisions on Earth. The pictures were not very good. It was hard to see astronaut Armstrong clearly. The surface of the moon was extremely bright. And the moon lander vehicle created a very dark, black shadow. But the quality of the television pictures was not important.


Every man, woman and child who saw the television pictures understood they were watching an important event. They were watching history take place as it was happening many hundreds of thousands of kilometers away.


VOICE TWO:


For a few minutes, the poor quality television pictures captured 4 the imagination of millions of people throughout the world. Experts believe about six-hundred-million people around the world watched as Neil Armstrong stepped from the space vehicle to the surface of the moon.


In the years since then, people around the world have shared in many events. Television has made it possible for people in distant places to share a single experience.


VOICE ONE:


A television system changes light and sound waves from a moving picture into electronic signals that travel through the air. The signals are changed back into sound and pictures in a television receiver.


Scientists in Britain, Germany, France, Japan, the former Soviet 5 Union and the United States all made important discoveries that led to the development of modern television. Yet it was a young boy living on an American farm who was the first person to invent and design what became television. He first thought of the idea of an electronic television when he was only fourteen years old. His name was Philo Taylor Farnsworth.


(MUSIC)


VOICE TWO:


Philo Farnsworth was born on August Nineteenth, Nineteen Oh-Six, near Indian Creek 6 in the western state of Utah. The house he lived in for the first few years of his life had no electric power. But Philo read about electricity. He was very excited when his family moved to a new house in Idaho that had electric power. He quickly began to experiment with electricity. He built an electric motor when he was twelve. Then he built the first electric washing machine for clothes that his family had ever owned.


Philo Farnsworth attended a very small school near his family's farm. He did very well in school. He asked his teacher for special help in science. The teacher began helping 7 Philo learn a great deal more than most young students could understand.


VOICE ONE:


One night, Philo read a magazine story about the idea of sending pictures and sound through the air. Anyone with a device 1 that could receive this electronic information could watch the pictures. The magazine story said some of the world's best scientists were working on the idea. It said these scientists were using special machines to try to make a kind of device to send pictures. The story made Philo think.


Fourteen-year-old Philo decided 8 these famous scientists were wrong. He decided that mechanical 9 devices would never work. They could never be made to move fast enough to clearly capture 3 and reproduce 10 an electronic picture sent through the air.


Philo decided that such a device would have to be electronic, not mechanical. Philo knew electrons 11 could be made to move extremely fast. All he would have to do was find a way to make electrons do the work.


Very quickly Philo had an idea for such a receiver. It would trap light in a container and send the light on a line of electrons. Philo called it "light in a bottle."


VOICE TWO:


Several days later, Philo told his teacher about a device that could capture pictures. He drew a plan for it that he gave his teacher. Philo's drawing seems very simple. But it still clearly shows the information needed to build a television. In fact, all television equipment today still uses Philo's early idea. Philo's teacher was Justin Tolman. Many years later Philo would say Mister 12 Tolman guided his imagination and opened the doors of science for him.


(MUSIC)


VOICE ONE:


Philo Farnsworth had to solve several problems before he could produce a working television system. One was that he was only fourteen years old. He knew no one would listen to a child. In fact, experts say that probably only ten scientists in the world at that time could have understood his idea.


Philo also had no money to develop his ideas. His idea for a working television would have to wait. After only two years of high school, Philo entered Brigham Young University in Utah. But he did not finish his education. He was forced to leave school when his father died.


Philo did not give up his idea for creating a television. He began serious work on it when he moved to San Francisco, California a few years later. He was twenty-one years old.


VOICE TWO:


On September Seventh, Nineteen-Twenty-Seven, Philo turned on a device that was the first working television receiver. In another room was the first television camera. Philo had invented the special camera tube earlier that year.


The image produced on the receiver was not very clear, but the device worked. Within a few months, Philo Farnsworth had found several people who wanted to invest 13 money in his invention.


In August, Nineteen-Thirty, the United States government gave Philo patent documents. These would protect his invention from being copied by others.


Very soon, however, several other inventors claimed they had invented a television device. One of these inventors, Vladimir Zworykin, worked for the powerful Radio Corporation 14 of America. The R-C-A company began legal action against Philo Farnsworth. It said Mister Zworykin had invented his device in the Nineteen-Twenties. The big and powerful R-C-A claimed that it, not the small Philo Farnsworth Television Company, had the right to produce, develop and market television.


VOICE ONE:


The legal action between R.C.A and the Farnsworth company continued for several years. R.C.A. proved that Mister Zworykin did make a mechanical television device. But it could not demonstrate 15 that the device worked.


At the same time, R.C.A. claimed that Mister Farnsworth had produced his television image tube after Mister Zworykin had developed his. When Mister Farnsworth said he had developed the idea much earlier, R.C.A. said it was impossible for a fourteen-year-old boy to produce the idea for a television device. Company representatives said Mister Farnsworth was not even a scientist. He had never finished college.


R.C.A. said Philo Farnsworth should be forced to prove he had invented the television image tube. Philo could not prove he invented it. But his high school teacher could. In court, Justin Tolman produced the drawing that Philo had made for him many years before as a student. At that moment, the legal experts for R.C.A. knew they had lost.


Philo Farnsworth won the legal action and the right to own the invention of television. However, he did not have the money or support to build a television industry. It was the Nineteen-Fifties before television became a major force in American life. Vladimir Zworykin and David Sarnoff, the head of R.C.A., became the names connected with the new industry.


(MUSIC)


VOICE TWO:


Philo Farnsworth continued to invent more than one-hundred devices that helped make modern television possible. He also developed early radar 16, invented the first electronic microscope, and worked on developing peaceful uses of atomic 17 energy. In his last years, Mister Farnsworth became a strong critic of television. He did not like most of the programs shown on television. Yet, as he watched Neil Armstrong's first step on the moon, Mister Farnsworth knew the event clearly showed the power of his invention.


Philo Farnsworth died in March, Nineteen-Seventy-One. Today, a statue of him stands in the United States Capitol. He is considered one of the most important inventors of the twentieth century.


(MUSIC)


VOICE ONE:


This program was written by Paul Thompson. It was produced by Lawan Davis. I'm Phoebe Zimmermann.


VOICE TWO:


And I'm Steve Ember. Listen again next week for People in America in VOA Special English.



n.器械,装置;计划,策略,诡计
  • The device will be in production by the end of the year.该装置将于年底投入生产。
  • The device will save much time and effort for us.这种装置会使我们节省大量时间和气力。
n.设备;装置( device的名词复数 );花招;(为实现某种目的的)计划;手段
  • electrical labour-saving devices around the home 节省劳力的各种家用电器
  • modern labour-saving devices such as washing machines and dishwashers 诸如洗衣机和洗碗机之类的现代化省力设备
vt.捕获,俘获;占领,夺得;n.抓住,捕获
  • The company is out to capture the European market.这家公司希望占据欧洲市场。
  • With the capture of the escaped tiger,everyone felt relieved.逃出来的老虎被捕获后,大家都松了一口气。
俘获( capture的过去式和过去分词 ); 夺取; 夺得; 引起(注意、想像、兴趣)
  • Allied troops captured over 300 enemy soldiers. 盟军俘虏了300多名敌方士兵。
  • Most of the rebels were captured and disarmed. 大部分叛乱分子被俘获并解除了武装。
adj.苏联的,苏维埃的;n.苏维埃
  • Zhukov was a marshal of the former Soviet Union.朱可夫是前苏联的一位元帅。
  • Germany began to attack the Soviet Union in 1941.德国在1941年开始进攻苏联。
n.小溪,小河,小湾
  • He sprang through the creek.他跳过小河。
  • People sunbathe in the nude on the rocks above the creek.人们在露出小溪的岩石上裸体晒日光浴。
n.食物的一份&adj.帮助人的,辅助的
  • The poor children regularly pony up for a second helping of my hamburger. 那些可怜的孩子们总是要求我把我的汉堡包再给他们一份。
  • By doing this, they may at times be helping to restore competition. 这样一来, 他在某些时候,有助于竞争的加强。
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。
adj.机械(学)的;力学的;机械似的;手工操作的
  • He borrowed a mechanical book from me.他从我这儿借了一本力学方面的书。
  • He looks very mechanical.他看上去非常呆板。
v.生育,繁殖,复制,重做
  • The machine can reproduce a key in two minutes.这机器能在两分钟内复制一把钥匙。
  • The picture will reproduce well.这照片会印得很清楚。
n.电子( electron的名词复数 )
  • Electrons are negatively charged with electricity,protons are positively charged. 电子是带负电荷的,质子是带正电荷的。 来自《简明英汉词典》
  • Electrons are negatively charged with electricity. 电子带负电荷。 来自《现代英汉综合大词典》
n.(略作Mr.全称很少用于书面)先生
  • Mister Smith is my good friend.史密斯先生是我的好朋友。
  • He styled himself " Mister Clean ".他自称是“清廉先生”。
v.投资;投入(时间等);授予,赋予
  • I have decided to invest in a new car.我已经决定买一辆新汽车。
  • The best time to invest is now.现在是投资的最佳时机。
n.公司,企业&n.社团,团体
  • The company has gone into partnership with Swiss Bank Corporation. 这家公司已经和瑞士银行公司建立合作关系。
  • The inflation did the corporation up. 通货膨胀使这个公司破产了。
vt.论证,证明;示范;显示;vi.示威游行
  • Let me demonstrate to you how this machine works.我给你演示一下这台机器的运转情况。
  • How can I demonstrate to you that my story is true?我怎样才能向你证明我的话是真实的呢?
n.雷达,无线电探测器
  • They are following the flight of an aircraft by radar.他们正在用雷达追踪一架飞机的飞行。
  • Enemy ships were detected on the radar.敌舰的影像已显现在雷达上。
adj.(关于)原子的;原子能(武器)的
  • The atomic theory is important.原子理论很重要。
  • We should take part in the peaceful uses of atomic energy.我们应该参与原子能的和平应用。
学英语单词
admittance comparator
alkali spot
Amishness
annoints
basic lead carbonate
bee-flower
Binghamton
Bittorf phenomenon
bone lever
bus coupling
calophya mangiferae
Campo Formoso
cerc-
cetyltriethylammonium bromide
congestive headache
constrictors constrictors
cottone
crackhouse
cracking unit evaporator
cymetery
damage caused by waves
deferred payment letter of credit
demand the assignment of a right
diagonallage
disaffectedly
e waves
ethyldiphenylphosphine
eurohubs
exchange of pow
eyelid forceps
fibrosing adenomatosis
flexible payment
flush type
footcontroller
golden hordes
hand-writings
helminth prevalence
homologous to
hyaloplasm(pfeffer 1877)
hypoblasts
il-
immersion method
in-betweens
insectariums
instructology
iodine disulfide
joint school
Karlee
Kirkstead
knaggie
kneeholes
Kondinin
middle stump
mineral law
moisture as charged
montejo
multibarreled
neps
nonaual
O. Ni
occelli
ochlerotatus (finlaya) watteni
oil damping
on ground of
ortho amide
ossa tigris
parakrithella oblongata
partial processes
pelokonite
perpusillous
pertemps
phenoplast
prairie white-fringed orchids
prospecting hammer
really and truly
red deer(cervus elaphus)
reentry mechanics
remote procedure calls
resource allocation algorithm
rock shachiang
ronaldsway
s.k
salaried staff
saturable choke
seeds visibly weathered or poor in quality
shunt DC machine
sit-in
Slade
subcommissural organ
supersensibly
taret organ
terzas
test of predictive power of a model
test of unusual use
thiocyanoacetates
top aileron
total water solubles
transistor-transistor logic (ttl)
two way lock
ungravelly
Venae anteriores cerebri