Phoenix Star Factory | The Perfect Sun.

These findings provide new insight into how the most massive galaxies in the Universe may have acquired their stars,’ said Michael McDonald, a scientist with the Massachusetts Institute of Technology (MIT), who led the study…’Our current understanding is that these massive galaxies assemble via mergers with smaller galaxies, but in this one cluster it looks like cooling-induced starbursts may be an equally important process.’

Take that, Ed McMahon and Simon Cowell: Astronomers identify a galaxy cluster that is spewing out 3820 new stars a year, the fastest rate in the known universe. “Comparatively, the Milky Way forms stars at an average rate of just one solar mass (one star equal in mass to Earth’s Sun) per year. Other galaxies form an average of one star every 20 years.

The results were a big surprise. ‘We were shocked,’ says Kuhn. The sun doesn’t bulge much at all. It is 1.4m kilometres across, but the difference between its diameter at the equator and between the poles is only 10 kilometres.” Meanwhile closer to home, after fifty years of effort, astronomers conclude that our sun is the “most perfectly round natural object known in the universe.…Scaled to the size of a beachball, that difference is less than the width of a human hair.

Distant Mirrors, and a Devouring Hunger.


“‘This is a major milestone on the road to finding Earth’s twin,’ said Douglas Hudgins, a scientist with the Kepler program…Kepler-22b, located about 600 light years away, has a radius 2.4 times bigger than the Earth, making it the smallest planet ever found in the middle of the habitable zone around a star.” Among the several fascinating announcements in astronomy in recent weeks (including Hubble passing the 10,000th mission mark), scientists announce the discovery of a faraway habitable planet, Kepler-22b. “Scientists don’t yet know whether it is a rocky, gaseous or liquid-covered planet.” But, don’t worry — the Air Force has top men looking into the situation. Top…men.

Moreover, just today scientists announced the discovery of two Earth-sized planets — Kepler 20e and Kepler 20f. “‘For the first time, we’ve crossed the threshold of finding Earth-size worlds,’ Torres says. ‘The next step is having an Earth-size planet in the habitable zone.’” And apparently Kepler 20f may have once had water, not unlike a planet closer to home…

This is the single most bullet-proof observation that I can think of that we’ve made this entire mission regarding the liquid water.” Something to consider if we don’t manage to tackle global warming by 2006 — the prior existence of water on Mars is further confirmed through a trail of gypsum left within an ancient rock. “Both the chemistry and the structure ‘just scream water,’ Squyres added.

And, on a grander scale, astronomers have begun to uncover supermassive black holes (no, not those ones) at the centers of galaxies. These are “the biggest, baddest black holes yet found in the universe, abyssal yawns 10 times the size of our solar system into which billions of Suns have vanished like a guilty thought.” In other words, plenty of room for Maximillian Schell to get lost in there…Tread carefully.

That’s No Moon.


[T]he detail is stunning in his original high-res version. You can see craters on Tethys, and the thick atmosphere enshrouding Titan (including the north polar haze cap). The image is very close to natural color, so this is approximately what you would see if you were there (shortly before freezing and asphyxiating, but what a way to go).

Propaganda or no, a fully-armed and operational battle station would seem to be approaching Saturn’s moon of Titan in this breathtaking image by Gordan Ugarkovic, taken from data by the Cassini spacecraft. “Spacecraft and observatories store their images on hard drives, and anyone with access and the knowledge of how to process that data — no simple task, I assure you! — can use it to do their own work.

Mercury Rising.


‘This is the last of the classical planets, the planets known to the astronomers of Egypt and Greece and Rome and the Far East,’ said Sean C. Solomon of the Carnegie Institution of Washington, the mission’s principal investigator. ‘It’s an object that has captivated the imagination and the attention of astronomers for millennia.’ But never before has science had such a good front-row seat. ‘We’re there now,’ Dr. Solomon said.NASA’s Messenger sends back some photos of its fly by Mercury, a planet we haven’t visited since Mariner 10 in 1975.

A Hand-Up for the Earthless.

The time to put our most vulnerable and our most needy in space is now. We can’t keep running from this problem, hoping it will go away. They have as much of a right to live in dignity and urinate in a specially designed suit built to withstand incredible heat and cold while protecting the body from violent and sudden changes in air pressure as anyone else.

Their timing isn’t great, but The Onion strikes comedy gold again: The Money We Waste On NASA’s Space Program Would Be Better Spent On Space Programs For The Poor. “I’m not talking about a handout, I’m talking about a hand up — up 20,000 miles into space, where our nation’s most desperate and destitute can gaze down on this big blue marble ball of clouds and dreams and be inspired to lift themselves out of poverty.” (FWIW, my response to the space-is-wasted-money argument, when made seriously, is here.)

V’Ger Sails On.

“‘Needless to say, none of us expected it was going to be operating for so long,’ said Krimigis, now 72. ‘We were all praying to get to Neptune [in 1989]. But after that? Who thought we could be with this 33 years [after launch]?’

Though it’s past 11 billion miles, it’s feeling very still (after all, no more solar wind)…
By way of a friend, and as the spacecraft reaches the outer edge of the solar system, the Baltimore Sun checks in on Voyager 1 and its makers. “Voyager was the pinnacle of his career, said Ness, now 77. “There is never going to be a mission in anybody’s lifetime, now living, that is ever going to get these observations in hand. So it’s once in a lifetime.

Marshes of the Moon.

‘It’s really wet,’ said Anthony Colaprete, co-author of one of the Science papers and a space scientist at NASA Ames Research Center at Moffett Field, Calif. He and his colleagues estimate that 5.6% of the total mass of the targeted lunar crater’s soil consists of water ice. In other words, 2,200 pounds of moon dirt would yield a dozen gallons of water.

In keeping with recent studies, NASA is set to announce that there appears to be quite a lot of water on the moon, which would greatly facilitate setting up shop there. Alas, “the U.S. likely won’t be involved in manned voyages to the moon anytime soon…But other countries are gearing up. China has pledged to land astronauts on the moon by 2025, and India has plans to do the same by 2020. Japan wants to establish an unmanned moon base in a decade.” And, hey, why go to the moon when you can spend a decade in Afghanistan?

Titan A.E.?

“We suggested hydrogen consumption because it’s the obvious gas for life to consume on Titan, similar to the way we consume oxygen on Earth. If these signs do turn out to be a sign of life, it would be doubly exciting because it would represent a second form of life independent from water-based life on Earth.

In potentially very big doings, two astrobiology papers suggest that some form of life is currently consuming gas and fuel on Saturn’s moon of Titan (The gas being hydrogen and fuel being acetylane, which would make sense for a methane-based life form.) “We suggested hydrogen consumption because it’s the obvious gas for life to consume on Titan, similar to the way we consume oxygen on Earth. If these signs do turn out to be a sign of life, it would be doubly exciting because it would represent a second form of life independent from water-based life on Earth.’” Yes, that would be exciting.

Update: NASA’s Chris McKay advises scientific caution. “This is a still a long way from ‘evidence of life’. However, it is extremely interesting.

All these worlds are yours except Europa.

Studies showed the moon could have enough oxygen to support the kind of life we are most familiar with on Earth…[T]he new study suggests this oxygen-rich layer could be far thicker than before thought, potentially encompassing the entire crust.” A examination of crust-stirring on Europa increases the potential for some kind of oceanic life on Jupiter’s moon. “‘I was surprised at how much oxygen could get down there,’ Greenberg said.

The Moon Awash.

Within 40 small craters, one to nine miles wide, they estimated 600 million metric tons of water. Perhaps most notably, ‘It has to be relatively pure,’ said Paul Spudis, the principal investigator for the instrument that made the discovery.

By way of a friend, scientists find more evidence of lots of water on the moon. “That is significant, because the ice in these craters could be easily tapped by future lunar explorers — not just for drinking water, but also broken apart into oxygen for breathing and hydrogen for fuel.” Hmm. Maybe it’s time to start thinking of ways to get up there