Read and translate the dialogue.
A: The time is 1.05 and here is the business news with Alan Wilson.
B: Good afternoon. Share prices on the London stock market have fallen sharply today, following sharp losses on Wall Street. Shares of leading computer companies have been the worst hit. Lucy Lambert, Chief Analyst with Hancock and Benson, believes we are seeing the start of a sell-off in high technology shares.
C: Technology stocks have made enormous increases for some time. Now they are coming down to their correct level. That is just a short term correction. It’s not a repeat of the stock market crash of 1987.
B: The FT-SE 100 index closed 50.2 points down. British gas has reported a 4% drop in profits for the first half of the year. The company blames warm winters, a fall in gas prices and rising competition from rival suppliers. The Safeway supermarket chain has removed fifty-five thousand bottles of tonic water from their shelves after poison was discovered in four bottles. The police haven’t yet discovered where the poison was put there deliberately.
And finally, the human brain may be connected to computers within 50 years. Professor Peter Cochrane, the head of British Telcom’s Martlesham heath laboratories, has predicted connections between silicon chips and the human brain. By the year 2020 it may be possible for someone to carry a complete encyclopedia around in their head.
And that’s all from the business news studio today. We’ll be back tomorrow at five past one.
EXERCISE 10
Read the dialogue again to pick out specific information. Complete the sentences.
Item 1
(a)_________________________________ have fallen in London.
They also fell on (b)___________________________________.
The worst hit companies are (c)___________________________.
It’s not a repeat of the stock market crash of (d)____________________.
The FT-SE index closed (e)______________________points down.
Item 2
The company:
(f)__________________________________________________ .
The percentage fall in profits:
(g)______________________________________ .
Reasons for the fall:
(h) _____________________________________________ .
Item 3
The company: (i)_________________________________________________
Its problem:
(j) __________________________________________________ .
How it happened:
(k) ______________________________________________
Item 4
Who is professor Peter Cochrane? (l)__________________________________
What has he predicted?
(m) _________________________________________
When will it happen?
(n)____________________________________________.
Text II
Navigation
EXERCISE 1
Read text with the dictionary. Ask and answer questions about the text with your partner.
All satellite navigation systems use satellites with precision clocks. The satellite transmits its position, and the time of the transmission. The receiver listens to four satellites, and can figure its position as being on a line that is tangent to a spherical shell around each satellite, determined by the *time-of-flight of the radio signals from the satellite. A computer in the receiver does the math.
Radio direction-finding is the oldest form of radio navigation. Before 1960 navigators used movable loop antennas to locate commercial AM stations near cities. In some cases they used marine radiolocation beacons, which share a range of frequencies just above AM radio with amateur radio operators. Loran systems also used **time-of-flight radio signals, but from radio stations on the ground. VOR (Very High Frequency Omnidirectional Range), systems (used by aircraft), have an antenna array that transmits two signals simultaneously. A directional signal rotates like a lighthouse at a fixed rate. When the directional signal is facing north, an omnidirectional signal pulses. By measuring the difference in phase of these two signals, an aircraft can determine its bearing or ***radial from the station, thus establishing a line of position. An aircraft can get readings from two VOR and locate its position at the intersection of the two radials, known as a "fix." When the VOR station is collocated with DME (Distance Measuring Equipment), the aircraft can determine its bearing and range from the station, thus providing a fix from only one ground station. Such stations are called VOR/DMEs. The military operates a similar system of navaids, called TACANs, which are often built into VOR stations. Such stations are called VORTACs. Because TACANs include distance measuring equipment, VOR/DME and VORTAC stations are identical in navigation potential to civil aircraft.
*time-of-flight – пролет времени
**radial - 1) радиальный; лучевой; лучеобразный
radial road — радиальная дорога,
radial axle — радиальная ось
***navaid - 1) аэронавигационное вспомогательное оборудование, 2) средства обеспечения судовождения;
2) лучевой
EXERCISE 2
Speak about amplifiers, their role in communication and branches of use
Text III