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Electronic timing is older than most people imagine and was used for the first time more than a hundred years ago at the 1912 Stockholm Olympics. Initially, the well-known company Ericsson was tasked with developing the technology, but it was the Swedish inventor Ragnar Carlstedt who eventually created the final product.
At the same time, Carlstedt introduced another invention: the finish line camera. The 1, 500-meter Olympic final was extremely close with Arnold Jackson from Great Britain winning by only 0.1 seconds. But it was impossible to decide on the silver medal since the two Americans Abel Kiviat and Norman Taber finished side by side. For the first time in history, the outcome of an Olympic event had to be settled based on a photo finish when Kiviat was judged to be “slightly ahead”.
The significance of these two inventions led a major newspaper to write: “Electronic timing at the Olympic Games. Simultaneous (同时发生的) timing and photography of contestants. A brilliant idea!”
The next step in timekeeping was the photo-finish camera with a time stamp imprinted on each picture, which was introduced at the 1932 Olympics in Los Angeles. The 1948 Olympics saw the introduction of another invention with the continuous slit camera (狭缝摄影机), where a film behind a narrow slit rolls (滚动) with the same speed as the runners. Four years later the clocks were connected to the slit camera giving a solution of 1/100 s. But it was not until 1972 that official times were recorded to the 100th of a second.
The next big step in the eighties was to make the camera digital to speed up the feedback (反馈). But the idea behind the slit camera was kept and is still the basis of all timing systems for athletics used today. The only difference is that now there is a very narrow sensor array ( 阵列传感器) instead of the moving film.
After a century technology has reached the point where the whole timing system can be stored in a smartphone. So in a way, the circle was closed when SprintTimer, a sports timer and photo finish app, was developed in the same place and precisely a hundred years after Ragnar Carlstedt.
1.What do we know about electronic timing?| A.It was created in recent years. |
| B.It was first introduced at the Olympics. |
| C.It was developed by the well-known company Ericsson. |
| D.It was perfected by the Swedish inventor Ragnar Carlstedt. |
| A.The increasing need for a finish line camera. |
| B.The excellent performance of Arnold Jackson. |
| C.The significant role of Carlstedt's another invention. |
| D.The intense competition of the 1,500-meter Olympic final. |
| A.It avoided the use of a moving film. |
| B.It rolled with the same speed as the runners. |
| C.It made a 100th-of-a-second record possible. |
| D.It adopted a new idea for all timing systems used today. |
| A.Further improvement was discontinued. |
| B.The problem was back to the origin. |
| C.A new invention was created. |
| D.The issue was resolved. |
同类型试题
y = sin x, x∈R, y∈[–1,1],周期为2π,函数图像以 x = (π/2) + kπ 为对称轴
y = arcsin x, x∈[–1,1], y∈[–π/2,π/2]
sin x = 0 ←→ arcsin x = 0
sin x = 1/2 ←→ arcsin x = π/6
sin x = √2/2 ←→ arcsin x = π/4
sin x = 1 ←→ arcsin x = π/2
y = sin x, x∈R, y∈[–1,1],周期为2π,函数图像以 x = (π/2) + kπ 为对称轴
y = arcsin x, x∈[–1,1], y∈[–π/2,π/2]
sin x = 0 ←→ arcsin x = 0
sin x = 1/2 ←→ arcsin x = π/6
sin x = √2/2 ←→ arcsin x = π/4
sin x = 1 ←→ arcsin x = π/2
