Technology News

Chemical reaction in landslide rocks may start wildfires
A new research has suggested that a chemical reaction in rocks in landslides may be responsible for starting wildfires. ANI

Now, a project to encourage visually-impaired pupils to take up computer science
The U.S. National Science Fioundation (NSF) is funding an initiative at the Rochester Institute of Technology (RIT) that has been designed to help prepare visually impaired middle school and high school students participate in computer science programs at the collegiate level. ANI

New invention to neutralize hurricanes with help from supersonic jet
Scientists have put forward a patent application about developing a supersonic hurricane neutralizer, which can put a spanner in the atmospheric works by flying supersonic jet aircraft in concentric circles around a hurricanes eye, the calm area around which the storm rotates. ANI

Study shows how slight wind shift can create monstrous ship-sinking waves

Researchers at the University of California, Los Angeles (UCLA) have found that a slight change in the wind may be enough to cause a wave to become a ten-storey deadly leviathan.

London, December 29 : Researchers at the University of California, Los Angeles (UCLA) have found that a slight change in the wind may be enough to cause a wave to become a ten-storey deadly leviathan.

This is the first time that a study has given insight as to how waves big enough to sink the biggest ships develop.

It comes three years after satellite images pin-pointed by the European Space Agency provided solid evidence of the existence of rogue waves.

Lead researcher Daniel Solli says that such freak waves can occur not only in water, but also in light, which is ruled by similar mathematical laws.

He says that a small change in conditions can tickle waves in their most sensitive spots, creating a monster out of all proportion to the original disturbance.

During the study, the researchers used pulses of noise to subject lightwaves to disturbances, which triggered the creation of rogue waves.

They admitted that such disturbances generally had little effect, but insisted that they might lead waves to grow 30-40 times bigger than average at times.

"The optical freak waves we have observed are seeded by noise. In this case, noise can be described as a small disturbance in the starting lightwaves, or in other words, a few extra photons out of place here and there, so to speak. As it turns out, the starting waves, which are smooth, are very sensitive to this noise. If the noise happens to contain a particular frequency component at the right instant in time, then an intense, steep wave develops," Times Online quoted Solli as telling Nature magazine.

"Essentially noise with the right characteristics tickles the initial wave in its most sensitive spot, and this leads to the development of an optical rogue wave. Since the mathematics that describe ocean waves in the deep sea are very similar, we believe these findings may also offer clues to the monstrous oceanic freak waves that have terrified seafarers for centuries," he added.

ANI