时间:2019-03-12 作者:英语课 分类:2019年VOA慢速英语(二)月


英语课

Magnetic North Pole Moving Faster Than Scientists Expected


Earth’s north magnetic pole is moving, researchers say.


It has moved so much, so quickly that a group of scientists hurried to change a model that helps guide shipping 1, airplanes and submarines in the Arctic Ocean.


Last week, the scientists released new information on the north magnetic pole sooner than they had planned.


Compass needles point toward the pole. As a child, you might have received a simple compass as a gift. It has a magnetized pointer which shows the direction of magnetic north.


Liquid metal at the center of our planet produces the magnetic field. Unpredictable movements in the liquid mean the field and the location of magnetic north are always changing.


The World Magnetic Model records those changes. The model is a joint 2 product of the British Geological Survey and the United States National Oceanic and Atmospheric 3 Administration.


The two agencies were planning to report changes in the magnetic north pole, as they do every five years, at the end of 2019. But the pole has moved so quickly they had to release the information much sooner.


Scientists have found that the magnetic north pole is moving at a speed of about 55 kilometers every year. One hundred years ago, the pole was located near the coast of northern Canada. It crossed the International Date Line, the imaginary line running through the Pacific Ocean from the North Pole to the South Pole, in 2017.


Now, the magnetic north pole is in the middle of the Arctic Ocean and moving towards Russia.


Arnaud Chulliat is a scientist at the University of Colorado in Boulder 4, Colorado. He is also the lead researcher for the newly updated World Magnetic Model. Chulliat told the Associated Press the continuous movement of magnetic north is a problem for compasses in smartphones and other electronic devices.


Importance to navigation systems


Airplanes and boats mainly use Global Positioning System (GPS) instruments for navigation. GPS is not affected 5 by the movements of the pole because it is satellite-based. But airplanes and boats do depend on magnetic north in emergencies, Chulliat noted 6.


The U.S. military needs to know the location of magnetic north for navigation and parachute drops. The American space agency NASA, the Federal Aviation Administration and U.S. Forest Service also use it.


Names for some airport landing areas are based on their direction toward magnetic north, and the names change when the pole moves. For example, an airport in Fairbanks, Alaska, renamed landing area 1L-19R to 2L-20R in 2009.


“The fact that the pole is going fast makes this region more prone 7 to large errors,” Chulliat told Nature magazine.


Ciaran Beggan is with the British Geological Survey. He told the Reuters news agency the magnetic North Pole “didn’t move much between 1900 and 1980, but it’s really accelerated in the past 40 years.”


Since 1831, when the pole was first measured in the Canadian Arctic, it has moved about 2,300 kilometers toward Siberia. The speed of its movement has increased from about 15 kilometers a year to 55 kilometers per year since 2000.


The reason is movements in Earth’s liquid outer core, said University of Maryland geophysicist Daniel Lathrop. He was not part of the research team.


There is a hot liquid ocean of iron and nickel in the planet’s core, where the movement produces an electric field. Lathrop said the changes in movement of the liquid are similar to changes in the weather.


Possible reversal of Earth’s North and South Poles


Earth’s magnetic South Pole is moving far slower than the north.


In general, Earth’s magnetic field is getting weaker, leading scientists to say that it will eventually cause the north and south poles to change positions. Such a change has happened several times before, but not in the last 780,000 years.


“It’s not a question of if it’s going to reverse, the question is when it’s going to reverse,” Lathrop said.


The reversal will take 1,000 years or more to come into effect, experts said.


But Lathrop sees a reversal coming sooner, not later, because of the weakened magnetic field. An area over the South Atlantic has already reversed beneath Earth’s surface.


That could cause problems for birds that use magnetic fields to navigate 8. And a general weakening of the magnetic field is not good for people, especially astronauts. The magnetic field protects Earth from dangerous radiation, Lathrop noted.


Ciaran Beggan said the recent movements of the north magnetic pole would be unnoticed by most people outside the Arctic.


Navigation systems in cars or phones depend on radio waves from satellites high above the Earth to identify their position on the ground.


“It wouldn’t really affect anyone driving a car,” Beggan added.


I’m Pete Musto.


And I’m Anna Matteo.


Words in This Story


pole – n. either end of the imaginary line around which something, such as the earth, turns


compass – n. a device that is used to find direction by means of a needle that always points north


location – n. a place or position


navigation – n. the act, activity, or process of finding the way to get to a place when you are traveling in a ship, airplane or car


region – n. a part of a country or of the world that is different or separate from other parts in some way


prone – adj. likely to do, have, or suffer from something


accelerate(d) – v. to gain speed


core – n. the central part of something


reverse – v. to change something to an opposite state or condition



n.船运(发货,运输,乘船)
  • We struck a bargain with an American shipping firm.我们和一家美国船运公司谈成了一笔生意。
  • There's a shipping charge of £5 added to the price.价格之外另加五英镑运输费。
adj.联合的,共同的;n.关节,接合处;v.连接,贴合
  • I had a bad fall,which put my shoulder out of joint.我重重地摔了一跤,肩膀脫臼了。
  • We wrote a letter in joint names.我们联名写了封信。
adj.大气的,空气的;大气层的;大气所引起的
  • Sea surface temperatures and atmospheric circulation are strongly coupled.海洋表面温度与大气环流是密切相关的。
  • Clouds return radiant energy to the surface primarily via the atmospheric window.云主要通过大气窗区向地表辐射能量。
n.巨砾;卵石,圆石
  • We all heaved together and removed the boulder.大家一齐用劲,把大石头搬开了。
  • He stepped clear of the boulder.他从大石头后面走了出来。
adj.不自然的,假装的
  • She showed an affected interest in our subject.她假装对我们的课题感到兴趣。
  • His manners are affected.他的态度不自然。
adj.著名的,知名的
  • The local hotel is noted for its good table.当地的那家酒店以餐食精美而著称。
  • Jim is noted for arriving late for work.吉姆上班迟到出了名。
adj.(to)易于…的,很可能…的;俯卧的
  • Some people are prone to jump to hasty conclusions.有些人往往作出轻率的结论。
  • He is prone to lose his temper when people disagree with him.人家一不同意他的意见,他就发脾气。
v.航行,飞行;导航,领航
  • He was the first man to navigate the Atlantic by air.他是第一个飞越大西洋的人。
  • Such boats can navigate on the Nile.这种船可以在尼罗河上航行。
学英语单词
-just
17-hydroxycorticosteroid
40
absorbent papers
Actinidia polygama
alphanumeric characters
another story
aquileges
Armenophobes
bassen'd
basting brush
berberidaceaes
biennia
Brinell microscope
bung down
chewing insect
co2 incubation
computer simulation for dyeing process
Coogoon R.
Cuttack
definite proportion
dicranella rufescence (dicks.) schimp.
esse
evomitation
EWNP
exhalants
extruded aluminum
final-salary
friction gearing
general bill of lading
germon
grouping of population
hairspring type
helianthus laetifloruss
heterodimerises
high level efficiency
Home Bias
in a ratio of
jumping wheel jumper
keep one's eye upon
kind of work
kiss of life
labeled common block name
liquid penetration inspection
Lučani
m.c.
Machiavel
Malyy Yenisey
mammy wagon
matrix in block form
metaremarks
misrouteing
Mitomi
modal notation
modulo reduction
monniker
multicuspid teeth
national enquiry
olibene
optimal control equation
orbital branch
outsiderhood
overhead counter shaft
overmodulated
pantograph frame
penirolol
plant lectin
plate and tube condenser
plea to indictment
Porm
potassium octaborate
preachership
purpura of the newborn
resmelting
rockallia jongkuei
rustle ... up
sacred kingfisher
sand preparation plant
Sao Jorge do Limpopo
screamadelicas
secting
seppanen
series-parallel starter
shift register generator
shoal detector
social indicators movement
Spurway syndrome
stair turret
steady-state approximation
surface shape
tall gallberry hollies
temporal and spatial variation
tetraphenylborates
throat-paint
to snake
triethylammonium
Tussabid
usles
veggiedog
vestibular branches
yellow trefoil