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Rogue Stars Ejected from the Galaxy Are Found in Intergalactic Space ScienceDaily (Apr. 30, 2012) — It’s very difficult to kick a star out of the galaxy. In fact, the primary mechanism that astronomers have come up with that can give a star the two-million-plus mile-per-hour kick it takes requires a close encounter with the supermassive black hole at the galaxy’s core. So far astronomers have found 16 of these “hypervelocity” stars. Although they are traveling fast enough to eventually escape the galaxy’s gravitational grasp, they have been discovered while they are still inside the galaxy. Now, Vanderbilt astronomers report in the May issue of the Astronomical Journal that they have identified a group of more than 675 stars on the outskirts of the Milky Way that they argue are hypervelocity stars that have been ejected from the galactic core. They selected these stars based on their location in intergalactic space between the Milky Way and the nearby Andromeda galaxy and by their peculiar red coloration. “These stars really stand out. They are red giant stars with high metallicity which gives them an unusual color,” says Assistant Professor Kelly Holley-Bockelmann, who conducted the study with graduate student Lauren Palladino. In astronomy and cosmology, “metallicity” is a measure of the proportion of chemical elements other than hydrogen and helium that a star contains. In this case, high metallicity is a signature that indicates an inner galactic origin: Older stars and stars from the galactic fringes tend to have lower metallicities. The researchers identified these candidates by analyzing the millions of stars catalogued in the Sloan Digital Sky Survey. “We figured that these rogue stars must be there, outside the galaxy, but no one had ever looked for them. So we decided to give it a try,” said Holley-Bockelmann, who is studying the behavior of the black hole at the center of the Milky Way galaxy. Astronomers have now found evidence for giant black holes at the centers of many galaxies. They estimate that the Milky Way’s central black hole has a mass of four million solar masses. They calculate that the gravitational field surrounding such a supermassive black hole is strong enough to accelerate stars to hypervelocities. The typical scenario involves a binary pair of stars that get caught in the black hole’s grip. As one of the stars spirals in towards the black hole, its companion is flung outward at a tremendous velocity. A second scenario takes place during periods when the central black hole is in the process of ingesting a smaller black hole. Any star that ventures too close to the circling pair can also get a hypervelocity kick. Red giant stars are the end stage in the evolution of small, yellow stars like the Sun. So, the stars in Holley-Bockelmann’s rogues’ gallery should have been small stars like the Sun when they tangled with the central black hole. As they traveled outward, they continued to age until they reached the red giant stage. Even traveling at hypervelocities, it would take a star about 10 million years to travel from the central hub to the spiral’s edge, 50,000 light years away. “Studying these rogue stars can provide us with new insights into the history and evolution of our home galaxy,” said Holley-Bockelmann. The researchers’ next step is determine if any of their candidates are unusually red brown dwarfs instead of red giants. Because brown dwarfs produce a lot less light than red giants, they would have to be much closer to appear equally bright.
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Rogue Stars Ejected from the Galaxy Are Found in Intergalactic Space

ScienceDaily (Apr. 30, 2012) — It’s very difficult to kick a star out of the galaxy. In fact, the primary mechanism that astronomers have come up with that can give a star the two-million-plus mile-per-hour kick it takes requires a close encounter with the supermassive black hole at the galaxy’s core.

So far astronomers have found 16 of these “hypervelocity” stars. Although they are traveling fast enough to eventually escape the galaxy’s gravitational grasp, they have been discovered while they are still inside the galaxy.

Now, Vanderbilt astronomers report in the May issue of the Astronomical Journal that they have identified a group of more than 675 stars on the outskirts of the Milky Way that they argue are hypervelocity stars that have been ejected from the galactic core. They selected these stars based on their location in intergalactic space between the Milky Way and the nearby Andromeda galaxy and by their peculiar red coloration.

“These stars really stand out. They are red giant stars with high metallicity which gives them an unusual color,” says Assistant Professor Kelly Holley-Bockelmann, who conducted the study with graduate student Lauren Palladino.

In astronomy and cosmology, “metallicity” is a measure of the proportion of chemical elements other than hydrogen and helium that a star contains. In this case, high metallicity is a signature that indicates an inner galactic origin: Older stars and stars from the galactic fringes tend to have lower metallicities.

The researchers identified these candidates by analyzing the millions of stars catalogued in the Sloan Digital Sky Survey.

“We figured that these rogue stars must be there, outside the galaxy, but no one had ever looked for them. So we decided to give it a try,” said Holley-Bockelmann, who is studying the behavior of the black hole at the center of the Milky Way galaxy.

Astronomers have now found evidence for giant black holes at the centers of many galaxies. They estimate that the Milky Way’s central black hole has a mass of four million solar masses. They calculate that the gravitational field surrounding such a supermassive black hole is strong enough to accelerate stars to hypervelocities.

The typical scenario involves a binary pair of stars that get caught in the black hole’s grip. As one of the stars spirals in towards the black hole, its companion is flung outward at a tremendous velocity.

A second scenario takes place during periods when the central black hole is in the process of ingesting a smaller black hole. Any star that ventures too close to the circling pair can also get a hypervelocity kick.

Red giant stars are the end stage in the evolution of small, yellow stars like the Sun. So, the stars in Holley-Bockelmann’s rogues’ gallery should have been small stars like the Sun when they tangled with the central black hole. As they traveled outward, they continued to age until they reached the red giant stage. Even traveling at hypervelocities, it would take a star about 10 million years to travel from the central hub to the spiral’s edge, 50,000 light years away.

“Studying these rogue stars can provide us with new insights into the history and evolution of our home galaxy,” said Holley-Bockelmann. The researchers’ next step is determine if any of their candidates are unusually red brown dwarfs instead of red giants. Because brown dwarfs produce a lot less light than red giants, they would have to be much closer to appear equally bright.

arielnietzsche: Study: Analytical Thought Decreases Belief in Religion A few things about this study.  It doesn’t mean that religious people are uneducated or unintelligent.  It doesn’t mean that atheists are right and believers are wrong.  I think it’s important to note that the main author of this study Will Gervais is in fact himself an atheist…which also doesn’t mean that his findings are incorrect, but it is I think it’s also a relevant note. This study essentially breaks down how people think into two types of cognitive systems – analytical and intuitive.   The findings show the more analytical a person is…the less they believe in religious belief whereas religious belief tends to form essentially from our “gut”.  I do find it interesting that the researcher refers to intuitive thinking as “mental shortcuts”. Science Daily has the details: The findings, Gervais says, are based on a longstanding human psychology model of two distinct, but related cognitive systems to process information: an “intuitive” system that relies on mental shortcuts to yield fast and efficient responses, and a more “analytic” system that yields more deliberate, reasoned responses. “Our study builds on previous research that links religious beliefs to ‘intuitive’ thinking,” says study co-author and Associate Prof. Ara Norenzayan, UBC Dept. of Psychology. “Our findings suggest that activating the ‘analytic’ cognitive system in the brain can undermine the ‘intuitive’ support for religious belief, at least temporarily.” The study involved more than 650 participants in the U.S. and Canada. Gervais says future studies will explore whether the increase in religious disbelief is temporary or long-lasting, and how the findings apply to non-Western cultures.
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arielnietzsche:

Study: Analytical Thought Decreases Belief in Religion

A few things about this study.  It doesn’t mean that religious people are uneducated or unintelligent.  It doesn’t mean that atheists are right and believers are wrong.  I think it’s important to note that the main author of this study Will Gervais is in fact himself an atheist…which also doesn’t mean that his findings are incorrect, but it is I think it’s also a relevant note.

This study essentially breaks down how people think into two types of cognitive systems – analytical and intuitive.   The findings show the more analytical a person is…the less they believe in religious belief whereas religious belief tends to form essentially from our “gut”.  I do find it interesting that the researcher refers to intuitive thinking as “mental shortcuts”.

Science Daily has the details:

The findings, Gervais says, are based on a longstanding human psychology model of two distinct, but related cognitive systems to process information: an “intuitive” system that relies on mental shortcuts to yield fast and efficient responses, and a more “analytic” system that yields more deliberate, reasoned responses.

“Our study builds on previous research that links religious beliefs to ‘intuitive’ thinking,” says study co-author and Associate Prof. Ara Norenzayan, UBC Dept. of Psychology. “Our findings suggest that activating the ‘analytic’ cognitive system in the brain can undermine the ‘intuitive’ support for religious belief, at least temporarily.”

The study involved more than 650 participants in the U.S. and Canada. Gervais says future studies will explore whether the increase in religious disbelief is temporary or long-lasting, and how the findings apply to non-Western cultures.

Wearable electronics: Transparent, Lightweight, Flexible Conductor Could Revolutionize Electronics Industry

ScienceDaily (Apr. 27, 2012) — The most transparent, lightweight and flexible material ever for conducting electricity has been invented by a team from the University of Exeter. Called GraphExeter, the material could revolutionize the creation of wearable electronic devices, such as clothing containing computers, phones and MP3 players.

GraphExeter could also be used for the creation of ‘smart’ mirrors or windows, with computerised interactive features. Since this material is also transparent over a wide light spectrum, it could enhance by more than 30% the efficiency of solar panels.

Adapted from graphene, GraphExeter is much more flexible than indium tin oxide (ITO), the main conductive material currently used in electronics. ITO is becoming increasingly expensive and is a finite resource, expected to run out in 2017.

These research findings are published in Advanced Materials.

At just one-atom-thick, graphene is the thinnest substance capable of conducting electricity. It is very flexible and is one of the strongest known materials. The race has been on for scientists and engineers to adapt graphene for flexible electronics. This has been a challenge because of its sheet resistance, which limits its conductivity. Until now, no-one has been able to produce a viable alternative to ITO.

To create GraphExeter, the Exeter team sandwiched molecules of ferric chloride between two layers of graphene. Ferric chloride enhances the electrical conductivity of graphene, without affecting the material’s transparency.

The material was produced by a team from the University of Exeter’s Centre for Graphene Science. The research team is now developing a spray-on version of GraphExeter, which could be applied straight onto fabrics, mirrors and windows.

Lead researcher, University of Exeter engineer Dr Monica Craciun said: “GraphExeter could revolutionize the electronics industry. It outperforms any other carbon-based transparent conductor used in electronics and could be used for a range of applications, from solar panels to ‘smart’ teeshirts. We are very excited about the potential of this material and look forward to seeing where it can take the electronics industry in the future.”

The Centre for Graphene Science brings together the Universities of Exeter and Bath in internationally-leading research in graphene. The Centre is bridging the gap between the scientific development and industrial application of this revolutionary new technology.

This research was funded by the EPSRC and Royal Society.

unknownskywalker: Shuttle Enterprise Flight To New York Space shuttle Enterprise, mounted atop a NASA 747 Shuttle Carrier Aircraft (SCA), is seen as it flies near the Statue of Liberty, Friday, April 27, 2012, in New York. Enterprise was the first shuttle orbiter built for NASA performing test flights in the atmosphere and was incapable of spaceflight. Originally housed at the Smithsonian’s Steven F. Udvar-Hazy Center, Enterprise will be demated from the SCA and placed on a barge that will eventually be moved by tugboat up the Hudson River to the Intrepid Sea, Air & Space Museum in June. Photo Credit: NASA/Bill Ingalls
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unknownskywalker:

Shuttle Enterprise Flight To New York

Space shuttle Enterprise, mounted atop a NASA 747 Shuttle Carrier Aircraft (SCA), is seen as it flies near the Statue of Liberty, Friday, April 27, 2012, in New York. Enterprise was the first shuttle orbiter built for NASA performing test flights in the atmosphere and was incapable of spaceflight.

Originally housed at the Smithsonian’s Steven F. Udvar-Hazy Center, Enterprise will be demated from the SCA and placed on a barge that will eventually be moved by tugboat up the Hudson River to the Intrepid Sea, Air & Space Museum in June.

Photo Credit: NASA/Bill Ingalls

A better plot for the forth Indiana Jones movie would have been him exploring the buried pyramids of Egypt. This post is another news flashback, but it’s a story that is still unfolding and certainly worth watching. Satellite imagery is revealing undiscovered pyramids buried beneath the sands of Egypt. 17 pyramids are confirmed, but it’s speculated that there are many, many, many more beyond the range of current technology. It’s mind boggling to think how the ancient Egyptians (and we are talking super ancient here, not Cleopatra or ‘The Mummy’ ancient) managed such a feat, considering what an incredible effort it would be today. Some archeologists are speculating there could be thousands of pyramids waiting to be found.

Google Mars?!? Apparently I’ve been living under a rock for the past several years. I had no idea this was a thing and was stunned when I accidentally stumbled across it. Remember when Google Earth came out and it seemed like science fiction (and spy movies from the 90s) had come true? Well, now we can browse Mars. If anyone else has been under a rock, I suggest checking it out. There are fewer things to see than with Google Earth, but there are also significantly fewer shots of people throwing up outside of bars. http://www.google.com/mars/ (although it’s better to dl Google Earth) Also, now that I’m hip to Google Mars, the ‘Bio Station Alpha’ stuff is pretty exciting. Check it out - there is certainly something at 71 49’19.73”N 29 33’06.53” although it is pretty fuzzy (and probably easily explained by something other than aliens…but still…it could be the Protheans). They should get the rower over there ASAP. 
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Google Mars?!? Apparently I’ve been living under a rock for the past several years. I had no idea this was a thing and was stunned when I accidentally stumbled across it. Remember when Google Earth came out and it seemed like science fiction (and spy movies from the 90s) had come true? Well, now we can browse Mars. If anyone else has been under a rock, I suggest checking it out. There are fewer things to see than with Google Earth, but there are also significantly fewer shots of people throwing up outside of bars.

http://www.google.com/mars/ (although it’s better to dl Google Earth)

Also, now that I’m hip to Google Mars, the ‘Bio Station Alpha’ stuff is pretty exciting. Check it out - there is certainly something at 71 49’19.73”N 29 33’06.53” although it is pretty fuzzy (and probably easily explained by something other than aliens…but still…it could be the Protheans). They should get the rower over there ASAP. 

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