FISH ROBOTS TO DETECT WATER POLLUTION

British scientists are slated to release into Spanish seas five carp-shaped fish robots which are capable of detecting water pollution.

Built by Essex University researchers, the 1.5-meter-long robots have an eight-hour battery and move like real fish.

They are equipped with chemical sensors which enable them to detect harmful contaminants such as leaks from vessels or underwater pipelines.

Costing $29,000 each, the robots swim at a maximum speed of about one meter per second, do not need remote controlling and transmit information using Wi-Fi technology.

The fish robots will navigate the Bay of Biscay at Gijon in northern Spain as part of a three-year joint project between the engineering consultancy BMT Group and Essex University.

"The hope is that this will prevent potentially hazardous discharges at sea as the leak would undoubtedly get worse over time if not located," AFP quoted Professor Huosheng Hu of Essex University as saying.

If the project is successful, the fish could also be used in rivers, lakes and seas across the world to prevent the spread of pollution.

fish robot

Sunday, March 22, 2009

What is a black hole?


Loosely speaking, a black hole is a region of space that has so much mass concentrated in it that there is no way for a nearby object to escape its gravitational pull. Since our best theory of gravity at the moment is Einstein's general theory of relativity, we have to delve into some results of this theory to understand black holes in detail, but let's start of slow, by thinking about gravity under fairly simple circumstances.

Suppose that you are standing on the surface of a planet. You throw a rock straight up into the air. Assuming you don't throw it too hard, it will rise for a while, but eventually the acceleration due to the planet's gravity will make it start to fall down again. If you threw the rock hard enough, though, you could make it escape the planet's gravity entirely. It would keep on rising forever. The speed with which you need to throw the rock in order that it just barely escapes the planet's gravity is called the "escape velocity." As you would expect, the escape velocity depends on the mass of the planet: if the planet is extremely massive, then its gravity is very strong, and the escape velocity is high. A lighter planet would have a smaller escape velocity. The escape velocity also depends on how far you are from the planet's center: the closer you are, the higher the escape velocity. The Earth's escape velocity is 11.2 kilometers per second (about 25,000 m.p.h.), while the Moon's is only 2.4 kilometers per second (about 5300 m.p.h.).

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