First results on impact of large celestial body on Jupiter

May 21, 2010 By Leave a Comment

Washington, May 20 (ANI): Scientists have published the first results dealing with the impact of a celestial body on the planet Jupiter last July.

The results of the research, conducted by Planetary Sciences Group at the UPV/EHU-University of the Basque Country with its headquarters at the Faculty of Engineering in Bilbao and led by Professor Agustín Sánchez Lavega, have appeared in Astrophysical Journal Letters.

An amateur Australian astronomer came across the presence of a large, black spot close to the polar region of the planet Jupiter, the biggest in the Solar System, on July 19, 2009.

The impact had taken place at a very high latitude close to the planet”s South Pole barely 3 or 4 hours before the spot was seen on Jupiter”s dark side (at night), and this prevented it from being observed directly.

The trajectory was in the opposite direction of the fragments of the Shoemaker-Levy 9 comet that crashed into Jupiter exactly 15 years previously, in July 1994.

After the world”s large observatories had been alerted, the confirmation came through in a matter of hours that the spot consisted of the remains of ash left behind following the impact of a comet or asteroid.

The world”s main observatories, including the Hubble space telescope among others, immediately set about analysing the phenomenon.

After several months” work the first two papers dealing with the conclusions about the nature of the impact and its effect on the planet”s atmosphere have been published.

The University of the Basque Country”s Planetary Sciences Group has shared this science scoop with researchers from the United States.

According to the studies, the main spot, a very black cloud comprising the waste materials produced by the impact, reached a size of about 5,000 km in the atmosphere of Jupiter, even though it was surrounded by a halo caused by the falling of the material expelled from the atmosphere of up to 8,000 km, slightly smaller than the size of the Earth.

It is not known whether the thick cloud consisting of very fine particles (barely a thousandth of a millimetre) and very black, is a product of the waste materials of the object or whether these particles were produced by the extremely high temperatures generated by the impact in Jupiter”s atmosphere.

Over the days that followed the ash was blown by Jupiter”s winds -which are gentle at these latitudes- in a way similar to the ash being blown from the Icelandic volcano currently erupting.

There are doubts as to whether the celestial body that crashed onto the surface of Jupiter was a comet or an asteroid. Assuming that it was of a comet type, -in other words, mainly made up of ice substances-, the size of the meteorite would have been in the region of 500 metres.

This second clearly detected impact on Jupiter seems to suggest that objects ranging between 0.5 and 1 km in size fall onto the planet more frequently than originally thought: until now an impact was reckoned to take place on average once every 50 to 250 years, but with the new findings events like this one could well be occurring every 10 to 15 years.

The study of the impacts on planets helps us to get a better understanding of those that could happen on Earth. (ANI)

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Jupiter made comet its temporary moon for 12 years in mid-20th century

September 14, 2009 By Leave a Comment

Washington, September 14 (ANI): An international team of astronomers has discovered that Jupiter had captured the comet 147P/Kushida-Muramatsu as its temporary moon in the mid-20th century, in an irregular orbit for about twelve years.

There are only a handful of known comets where this phenomenon of temporary satellite capture has occurred and the capture duration in the case of Kushida-Muramatsu, which orbited Jupiter between 1949 and 1961, is the third longest.

The phenomenon was detected by an international team led by Dr. Katsuhito Ohtsuka that modeled the trajectories of 18 “quasi-Hilda comets”, objects with the potential to go through a temporary satellite capture by Jupiter that results in them either leaving or joining the “Hilda” group of objects in the asteroid belt.

Most of the cases of temporary capture were flybys, where the comets did not complete a full orbit.

However, Dr. Ohtsuka’s team used recent observations tracking Kushida-Muramatsu over nine years to calculate hundreds of possible orbital paths for the comet over the previous century.

In all scenarios, Kushida-Muramatsu completed two full revolutions of Jupiter, making it only the fifth captured orbiter to be identified.

According to Dr. David Asher, “Our results demonstrate some of the routes taken by cometary bodies through interplanetary space that can allow them either to enter or to escape situations where they are in orbit around the planet Jupiter.”

Asteroids and comets can sometimes be distorted or fragmented by tidal effects induced by the gravitational field of a capturing planet, or may even impact with the planet.

The most famous victim of both these effects was comet D/1993 F2 (Shoemaker-Levy 9), which was torn apart on passing close to Jupiter and whose fragments then collided with that planet in 1994.

Previous computational studies have shown that Shoemaker-Levy 9 may well have been a quasi-Hilda comet before its capture by Jupiter.

“Fortunately for us Jupiter, as the most massive planet with the greatest gravity, sucks objects towards it more readily than other planets and we expect to observe large impacts there more often than on Earth,” said Dr. Asher.

“Comet Kushida-Muramatsu has escaped from the giant planet and will avoid the fate of Shoemaker-Levy 9 for the foreseeable future”, he added. (ANI)

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Galileoscope to make wonders of the night sky more accessible to everyone

March 5, 2009 By Leave a Comment

Berlin, March 5 (ANI): A team of leading astronomers, optical engineers and science educators has designed the Galileoscope – a high quality, easy-to-assemble and easy-to-use telescope, which would make the wonders of the night sky more accessible to everyone.

The Galileoscope was developed as a Cornerstone project of the International Year of Astronomy 2009 (IYA2009).

By encouraging the experience of personally seeing celestial objects, the Galileoscope project aims to facilitate a main goal of IYA2009: promoting widespread access to new knowledge and observing opportunities.

Observing through a telescope for the first time is an experience that shapes our view of the sky and the Universe.

It prompts people to think about the importance of astronomy, and for many, it’s a life-changing experience.

Galileoscopes will open up a whole new world for their users and are an excellent means of pursuing an interest in astronomy during IYA2009 and beyond.

The Galileoscope is named after the Italian astronomer Galileo Galilei, who first observed the heavens through a telescope 400 years ago.

The Galileoscope is optimized to provide views of the very same objects that inspired Galileo all those years ago – including craters and mountains on the Moon, the rings of Saturn, the phases of Venus, a variety of star clusters, and moons orbiting the planet Jupiter.

Galileoscopes are also educational tools, tying in with topics such as mathematics, physics, history and philosophy.

As practical instruments they can be used to demonstrate basic optical theory in a real-world scenario, a technique often praised by educators and pupils themselves.

“Users will learn many aspects of optics and even have a chance to construct two types of telescopes – a modern one and a more primitive one similar to Galileo’s,” said Stephen Pompea, US IYA2009 Project Director and member of the IYA2009 Cornerstone project.

“Building and using a Galileoscope gives kids the feeling that science is fun,” he added.

Galileoscopes are available at a low price of 15 dollars (US) per kit.

Discounts are available for group purchases of 100 or more, bringing the price down even lower, to 12.50 dollars each, reducing costs for schools, colleges, astronomical societies, or even parties of interested individuals.

To further this aim, the Galileoscope Cornerstone project has also initiated the “Give a Galileoscope” program.

Donated Galileoscopes will go to less advantaged schools and other organizations worldwide, especially in developing countries.

This will help bring a modern education to students in poor schools and empower them to pursue science and technology knowledge. (ANI)

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