Greece has always been devoted to its children. When the future of those children is diminished, the future of the country will be diminished, too.

How dare the French and Greeks reject a failed strategy!

The Republican budget, with its secret plans to close mystery loopholes, may be the most fraudulent ever.

ikenbot:

Saturn’s Gravity Warps Icy Moon’s Erupting Jets

At least four distinct plumes of water ice spew out from the south polar region of Saturn’s moon Enceladus. The image was taken in visible light with the Cassini spacecraft narrow-angle camera on Dec. 25, 2009.

the-star-stuff:

10 Technology Innovations Needed for Deep Space Exploration

By Patrick J. Kiger

10: Spacecraft Equipped With Giant Solar Sails

Conventional rockets can put astronauts into orbit, but try using one to travel the enormous distances between planets and stars and you’re likely to run out of fuel. That’s why scientists have been working to develop alternative methods of propulsion and energy sources for rockets.

9: Super-high-speed Optical Communication

We all chuckled at the notion that E.T. was having trouble phoning home, but for interplanetary explorers, maintaining communication with Earth could be a major challenge. “If you can’t communicate with the ship, then you don’t know what the results are of your mission,” Andreas Tziolas, a former research fellow at NASA who now heads Project Icarus, a private-sector effort to develop interstellar technology, told the Atlantic.

8: Atomic-powered Clocks for Navigation in Deep Space

If you’re going to travel in deep space, the last thing you want is to get lost along the way, crash on some strange planet, and have your robotic assistant running around wearing out its voice synthesizer, continually shouting “Danger, Will Robinson!” To avoid such a scenario, you need a really good a navigation system with a super-precise clock; this clock will be used to calculate distances.

7: Robotic Advance Teams

Founding a colony on a distant planet might be a daunting task for astronauts. They’d have to land in unfamiliar, possibly rough terrain, and then immediately set about erecting dwellings and a landing/launching pad to facilitate follow-up missions — all while searching for water, air and building materials. That’s why NASA engineers, in league with Canadian and European colleagues, are at work developing robotic advance teams that would land in advance of human explorers to scope out the available resources and lay the groundwork for a settlement. On Mars or another planet, for example, rovers equipped with bulldozer blades or plows could go to work clearing and smoothing a landing spot, while others might amass rocks and other materials and process them to make a concrete runway. (Remember that the Space Shuttle’s landing facility required 250,000 cubic yards of concrete, far too much to ever be transported from Earth.) Other robots might roam the surface, drilling and testing soil samples to look for usable oxygen and/or water, according to NASA.

6: Substitutes for Gravity

Watching Apollo astronauts hit golf balls fantastic distances might make microgravity look like great fun, but the truth is that it’s extremely hard on your body. In fact, scientists say that some of the biggest potential problems facing astronauts in deep space are the physiological changes caused by weightlessness. Astronauts’ muscles have a tendency to atrophy from lack of resistance, and they lose bone as well; in addition, weightlessness causes a loss of blood volume, so they feel lightheaded when they stand up. Additionally, it alters the human sense of balance, so that when space travelers return, they’ll feel as if Earth is spinning out of control beneath their feet.

5: Suspended Animation for Long Trips

One of the major problems with traveling vast distances in space is that trips could take a long, long time. In a lot of science fiction movies, such as “Alien” and “Planet of the Apes,” scriptwriters get around this problem by depicting astronauts slumbering for long stretches in suspended animation, like hibernating animals. Unfortunately, slowing the human metabolism and keeping a person alive for lengthy periods in that state is easier imagined than done. Surface-induced deep hypothermia — in layman’s terms, freezing — probably isn’t a good option, for example, since ice crystals begin to form inside the cells, and then destroy them as they grow, according to Michio Kaku, author of “Physics of the Impossible.”

4: Force Fields to Block Hazardous Radiation

Force fields are a staple of science fiction, in which they’re usually used to protect a spaceship or space station from attackers. In “Star Wars,” for example, the Death Star on which Darth Vader did his heavy breathing was protected by such a shield. But in actual deep space travel, scientists are looking to force fields to solve another problem — how to protect astronauts’ bodily cells from the continual radiation bombardment in space that might cause them to develop cancers and other health problems.

3: Warp Drives

In “Star Trek,” the Starship Enterprise travels enormous distances in weeks and months, even visiting other galaxies — a feat that would be impossible at the speeds that spacecraft currently travel. The Enterprise does this by using warp drive, in which the spacecraft basically takes shortcuts through holes caused by distortions of space-time. (This is a tricky concept to grasp; imagine space and time as a giant tablecloth, one that you can stretch, twist and poke pathways through.)

2: Growing Food on Spaceships

Like everybody else, astronauts in deep space would need to eat, and finding room inside a spacecraft to bring along the vast quantities of supplies needed to sustain them on trips lasting multiple years would be a major headache. That’s why NASA scientists are looking for ways for astronauts to grow their own food while en route to other planets, without using soil or large amounts of water.

1: Recycling Air and Water in Deep Space

Another thing that astronauts will need in space is supplies of both breathable air and drinkable water, and obviously they can’t haul Earth behind them to provide a continuously refreshed supply. That’s why NASA scientists are working to develop air recovery systems that will filter, extract and restore to a ship’s internal atmosphere as much oxygen as possible. By 2014, researchers expect to have the ability to recover as much as 75 percent of the oxygen from the carbon dioxide that astronauts breathe out, and by 2019, they hope to achieve 100 percent recovery, according to Space.com.

An executive resigns from his position over an integrity problem too big to ignore.

This is science at its best. ;-D

emergentfutures:

Angry Birds teams up with Nasa for latest game, Space

Finnish entertainment company Rovio has teamed up with Nasa to launch its latest Angry Birds title, Space.

The new game will be released on 22 March and will be available on iOS, Android, PC and Mac.

“This began with a Twitter exchange about birds and pigs in space, and has grown into a tremendous outreach and education opportunity,” said Nasa spokesman David Weaver.

Full Story: BBC

alchymista:

thedailywhat:

Interspecies Intermingling of the Day: Samantha, a 47-year-old western lowland gorilla at the Erie Zoo, has been all alone since her companion Rudy passed away in 2005. Zookeepers decided to try and alleviate her loneliness by giving her a pet: Panda the Dutch rabbit.

Initially cautious, the keepers introduced them in increments before leaving Panda alone with Samantha (keeping an escape hatch open just in case). But their concern quickly abated as the two took to each other right away.

Samantha’s handlers say they aren’t worried as she’s never expressed anything but fondness toward Panda. Still, they say the bunny is more than capable of holding his own.

“He’s fearless,” says the zoo’s chief executive, Scott Mitchell. “He’s not threatened by her. More often they’re closer together than they are farther apart.”

[goerie / arbroath.]

Gorillas are the only primates, other than humans, that do not terrify me, and this is why. 

ucsdhealthsciences:

Might the “Twinkie defense” have a scientific foundation after all? Researchers at the University of California, San Diego School of Medicine have shown – by each of a range of measures, in men and women of all ages, in Caucasians and minorities – that consumption of dietary trans fatty acids (dTFAs) is associated with irritability and aggression.

The study of nearly 1,000 men and women provides the first evidence linking dTFAs with adverse behaviors that impacted others, ranging from impatience to overt aggression. The research, led by Beatrice Golomb, MD, PhD, associate professor in the UC San Diego Department of Medicine, has been published online by PLoS ONE.

Dietary trans fatty acids are primarily products of hydrogenation, which makes unsaturated oils solid at room temperature. They are present at high levels in margarines, shortenings and prepared foods.  Adverse health effects of dTFAs have been identified in lipid levels, metabolic function, insulin resistance, oxidation, inflammation, and cardiac health.

The UC San Diego team used baseline dietary information and behavioral assessments of 945 adult men and women to analyze the relationship between dTFAs and aggression or irritability.  The survey measured such factors as a life history of aggression, conflict tactics and self-rated impatience and irritability, as well as an “overt aggression” scale that tallies recent aggressive behaviors. Analyses were adjusted for sex, age, education, and use of alcohol or tobacco products.

“We found that greater trans fatty acids were significantly associated with greater aggression, and were more consistently predictive of aggression and irritability, across the measures tested, than the other known aggression predictors that were assessed,” said Golomb. “If the association between trans fats and aggressive behavior proves to be causal, this adds further rationale to recommendations to avoid eating trans fats, or including them in foods provided at institutions like schools and prisons, since the detrimental effects of trans fats may extend beyond the person who consumes them to affect others.”