Recent technological advances in manned and unmanned vehicles, along with breakthroughs in satellite technology and computer equipment, have overcome some of the limitations of divers and diving equipment for scientists doing research on the great oceans of the world. Without a vehicle, divers often became sluggish, and their mental concentration was severely limited. Because undersea pressure affects their speech organs, communication among divers has always been difficult or impossible. But today, most oceanographers avoid the use of vulnerable human divers, preferring to reduce the risk to human life and make direct observations by means of instruments that are lowered into the ocean, from samples take from the water, or from photographs made by orbiting satellites. Direct observations of the ocean floor can be made not only by divers but also by deep-diving submarines in the water and even by the technology of sophisticated aerial photography from vantage points above the surface of more than seven miles and cruise at depths of fifteen thousand feet. In addition, radio-equipped buoys can be operated by remote control in order to transmit information back to land-based laboratories via satellite. Particularly important for ocean study are data about water temperature, currents, and weather. Satellite photographs can show the distribution of sea ice, oil slicks, and cloud formations over the ocean. Maps created from satellite pictures can represent the temperature and the color of the ocean's surface, enabling researchers to study the ocean currents from laboratories on dry land. Furthermore, computers help oceanographers to collect, organize, and analyze data from submarines and satellites. By creating a model of the ocean's movement and characteristics, scientists can predict the patterns and possible effects of the ocean on the environment.
Recently, many oceanographers have been relying more on satellites and computers than on research ships or even submarine vehicles because they can supply a greater range of information more quickly and more effectively. Some of humankind's most serious problems, especially those concerning energy and food, may be solved with the help of observations made possible by this new technology.
How is a radio-quipped buoy operated?
A. By operators inside the vehicle in the part underwater
B. By operators outside the vehicle on ship
C. By operators outside the vehicle on a driving platform
D. By operators outside the vehicle in a laboratory on shore
Đáp án D.
Key word: radio-equiped buoy.
Clue: “radio-equipped buoys can be operated by remote control in order to transmit information back to land-based laboratories via satellite”: Phao được trang bị radio có thể hoạt động bởi điều khiển từ xa để truyền thông tin trở lại phòng thí nghiệm trên đất liền qua vệ sinh.
Phân tích đáp án:
A. By operators inside the vehicle in the part underwater: bởi tổng đài bên trong phương tiện di chuyển ở dưới biển.
B. By operators outside the vehicle on a ship: bởi tổng đài bên ngoài phương tiện trên một con tàu.
C. By operators outside the vehicle on a diving platform: bởi tổng đài bên ngoài phương tiện trên một bãi đỗ tàu ngầm.
D. By operators outside the vehicle in a laboratory on shore: bởi tổng đài bên ngoài phương tiện trong một phòng thí nghiệm trên bở.
Dựa vào clue và giải nghĩa các đáp án ta thấy đáp án chính xác là D.