Thursday, March 15, 2007

Il meurt lentement






















En
souvenir de mon fils Carlo qui est mort brutalement le 9 décembre 2005, quelques heures seulement après m'avoir souhaité un bon anniversaire ...


Il meurt lentement
celui qui ne voyage pas
celui qui ne lit pas
celui qui n'écoute pas de musique
celui qui ne sait pas trouver grâce à ses yeux

Il meurt lentement
celui qui détruit son amour propre
celui qui ne se laisse jamais aider

Il meurt lentement
celui qui devient esclave de l'habitude
refaisant tous les jours le mêmes chemins
celui qui ne change jamais de repère
ne se risque jamais à changer la couleur de ses vetements
ou qui ne parle jamais à un inconnu

Il meurt lentement
celui qui évite la passion
et son tourbillon d'émotions
celles qui redonnent la lumière dans les yeux
et reparent les coeurs blessés

Il meurt lentement
celui qui ne change pas de cap lorsqu'il est malheureux au travail ou en amour
celui qui ne prend pas de risques pour réaliser ses rêves
celui qui, pas une seule fois dans sa vie, n'a fui les conseils sensés

Vis maintenant !
Risque-toi aujourd'hui !
Agis tout de suite !
Ne te laisse pas mourir lentement !
Ne te prive pas d'être heureux !

Jacques Derrida

Monday, March 12, 2007

KulturSPIEGEL

James-Bond-Filme kombiniert mit dem Scheidungsdrama "Rosenkrieg" ergeben "Mr. and Mrs. Smith

Thursday, March 08, 2007

"We now know the Solar System doesn't just evolve due to gravitation."

Light puts asteroids into a spin
Jonathan Fildes
Science and technology reporter, BBC News

Asteroid Mathilde  Image: Nasa
The shower of solar particles can make asteroids spin faster
The constant bombardment of billions of tiny particles from the Sun is shaping the Solar System, studies have shown.

As the fine solar shower rains down on objects, such as asteroids, it can steadily alter their orbit and spin.

Although the mechanism that describes the effect has been known for many years, it has never been seen.

Now, separate studies published in the journals Nature and Science have observed and measured the tiny stellar shoves on two spinning asteroids.

They reveal that both are gradually starting to spin faster and faster, which could eventually create new Solar System landmarks.

"If we can spin up an asteroid so fast, there's a really good chance that these objects will fly apart," said Dr Stephen Lowry, a planetary astronomer at Queen's University Belfast and lead author of one of two Science papers.

In this case, the fragments could form a binary asteroid where two objects orbit each other, he said.

"This is a phenomenon that gradually affects the evolution of the Solar System," said Dr Mikko Kaasalainen of the University of Helsinki, who is an author of the Nature paper.

Random spin

The Yarkovsky-O'Keefe-Radzievskii-Paddack (Yorp) effect is named after the astronomers who made key observations that led to the theory.

It describes the torque, or rotational force, created when light particles hit the surface of an object, causing it to heat up.

As the asteroid rotates, its brightness increases and decreases, which is directly related to how fast it's spinning
Stephen Lowry
"As the heat is re-emitted it exerts a gentle recoil effect," said Dr Lowry.

"An analogy would be if there was a child and they threw a ball forward, there would be a slight recoil effect."

The theory was proposed in order to explain various Solar System phenomena which show peculiar regular behaviour.

For example, astronomers looking at a cluster of asteroids known as the Koronis family, which is located in the main belt between Mars and Jupiter, noticed that the larger fragments spun in two distinct alignments.

The cluster was thought to have been the result of a catastrophic collision more than two billion years ago which would have blown erratically spinning fragments throughout the surrounding area.

Without the Yorp effect realigning the objects, this random motion would still be seen today.

The existence of other phenomenon like binary asteroids can also be explained by YORP.

Tiny changes

But although astronomers had several clues to the effect's existence, no direct evidence had ever been seen.

Now, two teams have analysed separate distal spinning asteroids and have been able to quantify how much their spin is changing. They have also been able to predict the possible future fate of the rocky lumps.

3D model of Apollo 1862
The team from Finland created computer models of Apollo 1862

A team lead by Dr Lowry and Patrick Taylor of Cornell University used optical and radar telescopes to monitor an asteroid known as 2000 PH5, which makes regular near-Earth passes.

At its closest, the 114m-diameter (374ft) lump comes within 1.8 million km (1.1 million miles) of Earth.

"As the asteroid rotates, its brightness increases and decreases, which is directly related to how fast it's spinning," said Dr Lowry.

By combining four years of optical information with radar to work out the size and shape of the object, the team was able to measure the increasing spin of the asteroid and therefore the size of the Yorp effect acting on PH5.

"It currently rotates every 12 minutes and we detected a change of one millisecond per year," said Dr Lowry. "It's a tiny, tiny effect but it's acting over millions of years."

The team predicts that over the next 15 million to 40 million years the asteroid will gradually speed up until it is turning over every 20 seconds.

At this point, the rocky mass may fly apart forming a cluster of smaller asteroids or a new binary system.

Large implications

A team from Finland has calculated the changes to another asteroid, 1862 Apollo, a 1.4km-wide (0.9 miles) near-Earth object that is approximately 340 million km (210 million miles) away.

I don't want to call it a dawn of a new age of astronomical sciences but it will certainly spark a whole range of new studies
Stephen Lowry

Instead of making new observations, the researchers looked at historical snapshots of the object dating back to 1982. From these they were able to extract light information that could be checked against a theoretical model to discount other effects.

The result was also suitably minute.

"The current rotation period is about three hours and the change is only four thousandth of a second per year," said Dr Kaasalainen.

Although both results were almost intangibly small, the implications are much larger, especially for models of the evolution of the Solar System, he said.

"We must include this radiation effect because it can transport asteroids between different orbital states and effect their rotation," he said.

"We now know the Solar System doesn't just evolve due to gravitation."

Dr Lowry also believes it is a key finding for looking back through history.

"Asteroids are the leftovers from the start of the Solar System, so by understanding these asteroids, we may get an idea of what the Solar System was like before the planets formed," he said.

"I don't want to call it a dawn of a new age of astronomical sciences but this detection will certainly spark a whole range of new studies."

USAToday.com Refashions Itself as a Social Network

USA Today is unveiling a massive overhaul of their web site that adds a number of great features. The notable additions include: reader comments on every story, the ability to create a profile page that can be shared with others, citizen journalist photos, story tagging and digg-like recommendation buttons.

This is exactly the direction USA Today needs to follow. However, it doesn't go quite far enough. In addition to building these features, the media need to bridge their communities to the ones where we already spend our time. RSS, widgets and embedded content would help here. For example, USA Today should let us add our blog, Twitter or Facebook feeds or even embedded YouTube vids to our profile pages.

Connecting communities is so easy today with web services and it would go a long way toward making the their site - or any site for that matter - stronger. Hopefully we'll see this happen soon.

Usatodaycommunity
Sony unveils its new 3D universe

Playstation 3 gamers will be able to meet, chat and share content with friends inside a 3D universe.

Still from Home

"It's about community, collaboration and customisation," said Sony's Phil Harrison at the Game Developers Conference, in San Francisco.

Gamers can buy furniture and clothes, while publishers and retailers are also expected to offer 3D spaces.

Image from Home

Mr Harrison said the games industry had to learn from the success of the web 2.0 movement.

"We want to start a movement called Game 3.0. It's about emerging entertainment, powered by the audience at the centre of the experience."

Gamers can create avatars - online versions of themselves - and buy new clothes and create their own homes as a 3D social networking service.

Dynamic advertising - including high definition video - can be pushed into the 3D universe.

"There will be individual locations dedicated to game publishers, game developers, and titles. Over time it will extend to non-game brands. The industry is on the threshold of a new era of creativity, collaboration, communication and commerce embedded into an experience to empower games,"

Mr Harrison said.

Darren Waters

Technology editor, BBC News website, San Francisco

Monday, March 05, 2007

KeNSEI, KaNSEI



A sword saint
A high degree of perfection
A moral dimension

The multiple realizability of mental states

Mental ink or mental paint ?
Psychological feeling or image of an object ?
How to
translate feelings about an object into perceptual design elements ?

Building shapes within a required variety produces new orders of emotional invariants.