时间:2018-12-07 作者:英语课 分类:2010年VOA慢速英语(九)月


英语课

STEVE EMBER: I’m Steve Ember.


BARBARA KLEIN: And I’m Barbara Klein with EXPLORATIONS in VOA Special English. A planetarium 1 is a theater with a rounded ceiling onto which images of the stars and planets are projected. Planetariums 2 give educational shows about astronomy and what you can see in the night sky. Today, we tell about the past, present, and future of planetariums. And, we visit the Albert Einstein Planetarium at the Smithsonian National Air and Space Museum in Washington, D.C.


(MUSIC)


STEVE EMBER: Since ancient times, humans have worked on ways to understand and represent the movement of the stars and planets. Experts credit the Greek astronomer 3 Archimedes with developing the earliest known device to show the daily movement of the planets. He lived more than two thousand years ago. These mechanical devices that show the relative placement and movement of the planets and moons are sometimes called orreries. Over the centuries, scientific thinkers worked to develop these devices and improve their accuracy and complexity 4.


The words “orrery” and “planetarium” were once used interchangeably. Today, the world “planetarium” generally means a theater inside a dome 5.



The original Carl Zeiss projector 6 at the Smithsonian's Albert Einstein Planetarium projects an image from the show "Infinity 7 Express: A 20-Minute Tour of the Universe"


BARBARA KLEIN: The earliest planetarium that is still working today is in the Netherlands, although the device is actually an orrery. It was built by a man named Eise Eisinga starting in seventeen seventy-four. It took him seven years to build this moving device inside a room in his house. All the planets move at the same speed as the real planets in our solar system. So, it takes one year for Earth to move around the sun and about twenty-nine years for Saturn 8 to do so. Eisinga made his device out of wood, metal nails, a clock and nine weights.


Other versions of early planetariums were large globes. People could sit inside them. Holes were cut into the walls of these globes to represent stars.


STEVE EMBER: A group of German engineers and scientists helped develop the modern planetarium between nineteen ten and nineteen thirty. The creators of the Deutsches Museum of science and technology in Munich wanted to build a planetarium. So, they asked the Carl Zeiss company in Germany to help with this plan. This company was known for making scientific equipment such as microscopes.



The oldest working planetarium was built by Eise Eisinga in the Dutch town of Frankston


It took engineers at Zeiss several years to invent a new planetarium technology. The complex mechanical device they made projected light through “star plates” of film that contained images of thousands of stars. Public viewings of the first Zeiss planetarium projector began in nineteen twenty-three.


BARBARA KLEIN: Soon, other cities in Europe and later in the United States began ordering planetarium devices from Zeiss. An American business leader named Max Adler learned about these planetariums and traveled to Germany to see one for himself.


He was so amazed with the Zeiss device that he donated the money for a planetarium to be built in his native Chicago, Illinois.


The Adler Planetarium was the first modern planetarium in the United States. It opened its doors to the public in nineteen thirty. Planetariums soon opened in Philadelphia, Pennsylvania; Los Angeles, California and New York City.


STEVE EMBER: Planetarium technology continues to evolve and improve to this day. But what if you live far away from a city with a planetarium?


Dan Neafus helps supervise the Gates Planetarium at the Denver Museum of Nature and Science in Colorado. He says new technologies are helping 9 to connect planetariums with viewers in other areas. There are relatively 10 few digital planetariums around the world. But this technology could bring space education and the experience of a planetarium show to more people through the use of a computer and Internet connection.


(MUSIC)



Planetarium in Chicago was the first modern planetarium in the United States


BARBARA KLEIN: The Loch Ness Production company in Colorado makes shows, images and music for the planetarium community. The company also gathers facts about planetariums around the world. It says there are over one thousand five hundred planetariums in the United States. Many kinds of organizations have planetariums. They include museums, science centers, universities, schools and even astronomy clubs. Some planetariums have domes 11 that measure over twenty meters, while others are much smaller.


STEVE EMBER: Some planetariums use film projections 12. More technologically 13 advanced planetariums use digital systems controlled by computers. Digital technologies offer planetariums many choices. These theaters can show movies about space. Or, these planetariums can serve as classrooms where live interactive 14 presentations take place. For example, astronomers 15 can guide viewers on a trip around the universe using image databases with real information about the placement of stars and planets.


BARBARA KLEIN: The Smithsonian National Air and Space Museum in Washington, D.C. has both a digital system and a projector system made by the Carl Zeiss company.


This Zeiss Model VI was a gift to the museum from West Germany in honor of the United States’ two hundred year anniversary. Last week, we attended a live show called “The Stars Tonight.” Astronomer Bill Dedmond showed visitors the night sky as the season changes from summer to fall.


BILL DEDMOND: “See, that’s how night sky is supposed to look. You can see thousands of stars when you are away from the city light pollution. You can even see this bright band of light here all the way across the sky. What is that bright band of light?”


KIDS: “The Milky 16 Way!”


BILL DEDMOND: “OK, Excellent!”


STEVE EMBER: Bill Dedmond talked about the groups of stars or constellations 18 in the night sky. He pointed 19 out an important constellation 17, the Big Dipper. If you can find this group of stars, you can easily find the North Star, or Polaris. Mr. Dedmond also gave viewers a tour of the planets.


BILL DEDMOND: “Our galaxy 20 contains a couple hundred billion stars and we know there are about one hundred twenty-five billion other galaxies 21. Just incredible how many stars there are.”


BARBARA KLEIN: Speaking of stars, one of the Air and Space Museum’s planetarium shows is called “Journey to the Stars.” The movie is presented by actress Whoopi Goldberg. It tells about the life of a star using our sun as an example.


WHOOPI GOLDBERG: “The first stars changed everything, combining hydrogen and helium into new elements such as oxygen and carbon. Then supernovas blasted these elements into space, supplying ingredients for stars and planets to come. And though it may sound incredible, your body actually contains about a teaspoon’s worth of this stuff formed thirteen billion years ago by the very first stars.”


STEVE EMBER: The movie describes the many stages in the life of a star. Some stars known as super giants are about a thousand times bigger than our sun.


The movie “Journey to the Stars” is very helpful not only because it tells interesting facts about stars and space. The movie helps viewers get a better idea of the extraordinary size and volume of space and the huge number of stars within it. This sense of size is hard to understand by just reading a book. The planetarium makes it feel as if you are observing, moving through and exploring space.



A scene from the Smithsonian's planetarium show "Black Holes: The Other Side of Infinity"


BARBARA KLEIN: Another show at the Smithsonian’s planetarium is called “Black Holes: The Other Side of Infinity.” Black Holes are not actually holes. They are extremely massive concentrations of matter. The actor Liam Neeson narrates 22 the movie.


LIAM NEESON: “How do you find something that hides in the dark? You have to look for its tell-tale signs. Swift’s instruments are designed to record bursts of high energy radiation. Gamma rays don’t penetrate 23 Earth’s atmosphere, but out here in space, Swift’s view of them is front row center. They erupt when a black hole is born. That happens when a large star dies in a blaze of glory called a super nova.”


STEVE EMBER: It takes a lot of work to produce a good planetarium movie. Experts at the Denver Museum of Nature and Science made the “Black Holes” movie. They worked with movie producers, computer experts, astronomers, astrophysicists and other professionals. Their film is scientifically correct and also a lot of fun to watch. Many images in the movie are based on complex mathematical calculations about space gathered by scientists.


(MUSIC)


BARBARA KLEIN: Next week, the ‘Imiloa Astronomy Center in Hawaii will host a six-day ‘Imiloa Fulldome Film Festival. Museum and planetarium professionals from around the world will be able to watch some of the latest movies available for digital planetarium theaters.


The ‘Imiloa Astronomy Center is part of the University of Hawaii at Hilo. The center’s planetarium has the world’s first three-dimensional planetarium system. Viewers wear special glasses to experience this effect. The Astronomy Center is an example of how technologies will continue to change and improve experiencing the night sky in planetariums of the future.


STEVE EMBER: This program was written and produced by Dana Demange. I’m Steve Ember.


BARBARA KLEIN: And I’m Barbara Klein. You can comment on this program at voaspecialenglish.com. Join us again next week for EXPLORATIONS in VOA Special English.


 



1 planetarium
n.天文馆;天象仪
  • The planetarium staff also prepared talks for radio broadcast.天文馆的工作人员还要准备讲稿给电台广播。
  • It landed in a shallow basin fifty yards from the planetarium.它降落在离天文馆五十码处的一个浅盆地中。
2 planetariums
n.天文馆( planetarium的名词复数 );天象仪
3 astronomer
n.天文学家
  • A new star attracted the notice of the astronomer.新发现的一颗星引起了那位天文学家的注意。
  • He is reputed to have been a good astronomer.他以一个优秀的天文学者闻名于世。
4 complexity
n.复杂(性),复杂的事物
  • Only now did he understand the full complexity of the problem.直到现在他才明白这一问题的全部复杂性。
  • The complexity of the road map puzzled me.错综复杂的公路图把我搞糊涂了。
5 dome
n.圆屋顶,拱顶
  • The dome was supported by white marble columns.圆顶由白色大理石柱支撑着。
  • They formed the dome with the tree's branches.他们用树枝搭成圆屋顶。
6 projector
n.投影机,放映机,幻灯机
  • There is a new projector in my office.我的办公室里有一架新的幻灯机。
  • How long will it take to set up the projector?把这个放映机安放好需要多长时间?
7 infinity
n.无限,无穷,大量
  • It is impossible to count up to infinity.不可能数到无穷大。
  • Theoretically,a line can extend into infinity.从理论上来说直线可以无限地延伸。
8 Saturn
n.农神,土星
  • Astronomers used to ask why only Saturn has rings.天文学家们过去一直感到奇怪,为什么只有土星有光环。
  • These comparisons suggested that Saturn is made of lighter materials.这些比较告诉我们,土星由较轻的物质构成。
9 helping
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。
10 relatively
adv.比较...地,相对地
  • The rabbit is a relatively recent introduction in Australia.兔子是相对较新引入澳大利亚的物种。
  • The operation was relatively painless.手术相对来说不痛。
11 domes
n.圆屋顶( dome的名词复数 );像圆屋顶一样的东西;圆顶体育场
  • The domes are circular or ovoid in cross-section. 穹丘的横断面为圆形或卵圆形。 来自辞典例句
  • Parks. The facilities highlighted in text include sport complexes and fabric domes. 本书重点讲的设施包括运动场所和顶棚式结构。 来自互联网
12 projections
预测( projection的名词复数 ); 投影; 投掷; 突起物
  • Their sales projections are a total thumbsuck. 他们的销售量预测纯属估计。
  • The council has revised its projections of funding requirements upwards. 地方议会调高了对资金需求的预测。
13 technologically
ad.技术上地
  • Shanghai is a technologically advanced city. 上海是中国的一个技术先进的城市。
  • Many senior managers are technologically illiterate. 许多高级经理都对技术知之甚少。
14 interactive
adj.相互作用的,互相影响的,(电脑)交互的
  • The psychotherapy is carried out in small interactive groups.这种心理治疗是在互动的小组之间进行的。
  • This will make videogames more interactive than ever.这将使电子游戏的互动性更胜以往。
15 astronomers
n.天文学者,天文学家( astronomer的名词复数 )
  • Astronomers can accurately foretell the date,time,and length of future eclipses. 天文学家能精确地预告未来日食月食的日期、时刻和时长。 来自《简明英汉词典》
  • Astronomers used to ask why only Saturn has rings. 天文学家们过去一直感到奇怪,为什么只有土星有光环。 来自《简明英汉词典》
16 milky
adj.牛奶的,多奶的;乳白色的
  • Alexander always has milky coffee at lunchtime.亚历山大总是在午餐时喝掺奶的咖啡。
  • I like a hot milky drink at bedtime.我喜欢睡前喝杯热奶饮料。
17 constellation
n.星座n.灿烂的一群
  • A constellation is a pattern of stars as seen from the earth. 一个星座只是从地球上看到的某些恒星的一种样子。
  • The Big Dipper is not by itself a constellation. 北斗七星本身不是一个星座。
18 constellations
n.星座( constellation的名词复数 );一群杰出人物;一系列(相关的想法、事物);一群(相关的人)
  • The map of the heavens showed all the northern constellations. 这份天体图标明了北半部所有的星座。 来自《简明英汉词典》
  • His time was coming, he would move in the constellations of power. 他时来运转,要进入权力中心了。 来自教父部分
19 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。
20 galaxy
n.星系;银河系;一群(杰出或著名的人物)
  • The earth is one of the planets in the Galaxy.地球是银河系中的星球之一。
  • The company has a galaxy of talent.该公司拥有一批优秀的人才。
21 galaxies
星系( galaxy的名词复数 ); 银河系; 一群(杰出或著名的人物)
  • Quasars are the highly energetic cores of distant galaxies. 类星体是遥远星系的极为活跃的核心体。
  • We still don't know how many galaxies there are in the universe. 我们还不知道宇宙中有多少个星系。
22 narrates
v.故事( narrate的第三人称单数 )
  • It narrates the unconstitutional acts of James II. 它历数了詹姆斯二世的违法行为。 来自辞典例句
  • Chapter three narrates the economy activity which Jew return the Occident. 第三章讲述了犹太人重返西欧后的经济活动。 来自互联网
23 penetrate
v.透(渗)入;刺入,刺穿;洞察,了解
  • Western ideas penetrate slowly through the East.西方观念逐渐传入东方。
  • The sunshine could not penetrate where the trees were thickest.阳光不能透入树木最浓密的地方。
学英语单词
-istically
abandoned wife
adenylylsulfate kinase
advertising-driven
arifa
automotive design engineering
bank check deposit on major repair fund
becker's pigmented hairy nevus
carboxymethocel
Carex lithophila
CASPA
cell-phones
Chateauneuf-en-Thymerais
computer test equipment
condamine
congenital lymphedema
cube photometer
debind
diprobutine
elastic time effect
engine nameplate
eposculation
ethnogeny
faik
feet on the ground
fenestrated membranes
file translation language
first market
fleeman
fore-and-aft survey
fully dissociated signalling
gamma-hydroxybutyric acids
genus swainsonas
go to hospital
Gossypium herbaceum L.
high-pressure electrolysis
higueron
hymenial peridium
immediate transmission
in furs
incorrect grinding of tool
information anxiety
injection rinsing machine
inner race
intercerebral fissure
Keratea
kreamer
leiognathus berbis
Lobelia dortmanna
Mangolovolo
mathematical routine
media advisory
melanised
melanoleuca
mirabello
monoperacetic acid
morphine meconate
msg (monosodium glutamate)
needlelace
neelds
negative hull return dc single system
neutron deficiency
non-sequential stochastic programming
nontabulated
oary boat
one-people
over-over communication
oxydothis elaeidis
pestalotiopsis funerea
pledge taker
polansky
porous bearing metal
positioning of crosshead guide
postcribrum
preservation technology
principle of debit and credit
pseudeponymous
radio frequency cable
renogate
report of investigation
Salix occidentalisinensis
satellite computer terminal
self-loss
short-circuit current gain
squabblings
step expression
subbase course
swampy ground
synechistic
t'ui tsou t'u
texture grading
the why and wherefore s
thissun
tobacco trust
toroidal oscillation
trifluoromethanesulfonyl
true position axis
tuberculin skin test
type 1
Vladimir II Monomakh
weld porosity
worldrecord