More Images of Mercury are Pouring In

True color image of Mercury (MESSENGER)

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Even though the Mercury flyby happened earlier this week, you can look forward to days and days of images. I’m nowhere near finished being amazed and entertained by the deluge of images captured by MESSENGER.

This latest image was captured when MESSENGER was about 20 minutes from its closest approach – at a range of 5,000 km (3,100 miles) of the tiny planet. The image is so crisp and clear that features as small as 400 metres (0.25 miles) across can be distinguished.

The large crater is located near Mercury’s equator on the side of the planet newly imaged by MESSENGER. I’m guessing it has no name, since it’s never been seen before! Around the crater are hundreds of smaller, secondary impactors. Some of these create long linear chains that look like machine gun fire. These occur when an asteroid or comet is torn apart by gravity, and then rain down on the planet in a straight line.

By counting craters that sit on top of the large crater’s ejecta blanket, and then comparing this count to the ones inside the crater, scientists will be able to calculate how old the crater is, and when it was formed.

Mission controllers also announced that they’ve received all 500 megabytes of data captured by MESSENGER as part of the flyby. The spacecraft has sent back a total of 1,213 images from its Mercury Dual Imaging System cameras.

They also revealed details about the flyby. According to their calculations, the spacecraft missed the targeted aim point by about 8.25 km (5.12 miles). This still give MESSENGER the gravity assisted speed boost it needs to meet up with the planet again and eventually go into orbit.

Original Source: MESSENGER News Release

NASA’s Planning its Own Version of World of Warcraft

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Level 23 shuttle pilot LFG pst. If you play an online role-playing game, you understood that. If you don’t, but you really like space exploration, you might soon enough. In a recent request for information, NASA announced that it’s looking for help in the development of a NASA-inspired massively multiplayer role playing game.

The request for information from NASA’s Goddard Space Flight Center was published to NASA’s Acquisition Internet Service on January 16th, 2007.

Here’s their goal:

A NASA-based MMO built on a game engine that includes powerful physics capabilities could support accurate in-game experimentation and research. It should simulate real NASA engineering and science missions in a medium that is comfortable and familiar to the majority of students in the United States today. A NASA-based MMO could provide opportunities for students to investigate STEM (note: STEM means science, technology, engineering and mathematics) career paths while participating in engaging game-play. Through a NASA-based MMO, students will gain insight into a wide range of exciting career opportunities and be encouraged to make educational choices that lead them into STEM fields of study and eventually the STEM careers needed to fulfill NASA’s Vision for Space Exploration. Learning Technologies is seeking input on how to accomplish those goals.

In this request for information, NASA is hoping that various game companies can provide information on how they think a NASA-based educational game could be designed, how it would support education efforts, connect to missions, and help publicize space exploration careers.

Oh, and how it might actually be fun. It’s that last part that’s going to be the challenge.

If you’ve ever played a massively multiplayer online game, there’s an awful lot of… killing. There’s also a certain degree of independence that might be hard to place over top of NASA’s governmental structure. And I’d be interested to see how they deal with the scientific reality of spaceflight. You can’t just hop the next rocket to the Moon whenever you like; there are mission plans, years of training, government intervention, greedy contractors and all that paperwork.

If some team can come up with an idea that will make for a compelling game. To be both challenging and entertaining, and yet respect the engineering and scientific reality that currently exists in human spaceflight, I’ll be impressed.

Better yet, I’ll play. I’ll put that level 67 orc warrior on hold, and switch to an astronaut – maybe a Canadian mission specialist.

The closing date is February 15, 2008.

Thanks to NASA Watch for catching this.

Original Source: NASA MMO Site

Astrosphere for January 18, 2007

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Your space photo of the day is the recent Earth-grazing asteroid 2008 AF3, captured by RickJ. It looks like a bunch of star streaks, but if you look carefully, there’s a dot right in the middle. That’s the asteroid that missed us by 370,000 km (230,000 miles).

Are you planning to sign up for Virgin Galactic and take their stomach-churning suborbital trip? Here’s an interview on Luxury Magazine with the Head of Astronaut Sales. Tip of the helmet to Space Pragmatism for the link.

Remember yesterday’s Bad Astronomy post about not finding ET? Here’s some more non-news.

This has nothing to do with astronomy. But a rat as big as a bull? That’s just cool.

Google CEO Eric Schmidt recently gave a speech at NASA, encouraging the agency to be more open and collaborative with the public. Advice I’ve been trying to give them for years.

A charity auction is removing a trip to space as a price – too dangerous.

Has a Signal from ET Really Been Detected?

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Have you heard the news? A television station in Oakland California was reporting that researchers working with SETI@home discovered a signal believed to be from extraterrestrials. Is it true? Has the most important discovery is the history of humanity been made? Do we have definitive proof that there are aliens out there with interesting things to say to us?

No.

Actually, I was going to give this the big write up, but Phil beat me to the punch. So, I’ll just point you over at his coverage.

Carnival of Space #37

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Another week, another Carnival of Space. This time, the lucky host is Colony Worlds.

Marvel at the latest images of Mercury. Learn about the rogue black holes that could be cruising through the galaxy. Wonder at what it might take to launch a true interstellar probe.

Click here to visit the Carnival of Space #37.

And if you’re interested in looking back, here’s an archive to all the past carnivals of space. If you’ve got a space-related blog, you should really join the carnival. Just email an entry to [email protected], and the next host will link to it. It will help get awareness out there about your writing, help you meet others in the space community – and community is what blogging is all about. And if you really want to help out, let me know if you can be a host, and I’ll schedule you into the calendar.

Finally, if you run a space-related blog, please post a link to the carnival of space. Help us get the word out.

Astrosphere for January 16, 2008

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I know it’s been a bit of a delay, but I do really enjoy crawling through the interwebs, finding spacey stories. Your photo for the day is M42, captured by tegwilym.

What did I find today?

I reported on MESSENGER’s Mercury flyby, but the Planetary Society’s Emily Lakdawalla always has the best coverage of these planetary visitations.

While I was writing like a maniac at the American Astronomical Society meeting, rarely leaving the press room to feel the warm Austin air, Pamela was out and about, meeting, greeting and recording audio chats. Here’s one with the folks from the Galaxy Zoo.

Pharyngula won best science blog for 2007. And that means Phil didn’t. Uh, oh, nobody tell him.

Phil won’t notice, he’s too busy watching old YouTube video of Shatner singing Rocket Man. Yikes!

Larry Sessions at Earth & Sky Blogs shows you how to measure the Sun.

And finally, Wired Science is reporting that space is a top question posed to presidential candidates. How do you feel about space exploration?

Nobody Has Ever Seen This Side of Mercury

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Even though spacecraft have visited Mercury in the past, the same hemisphere was always in sunlight for every encounter. One side was photographed, and the other side was a complete and total mystery. There could be a big smiley face there, and we’d never know it. Well, the mystery’s over. MESSENGER flew past Mercury on January 14th, 2008, and revealed the planet’s hidden side… mostly.

Mariner 10 was the first spacecraft to zip past the planet Mercury, making three flybys in 1974 and 1975. Because the same hemisphere was in sunlight, the spacecraft was only able to image half the planet.

On January 14th, 2008, NASA’s MESSENGER spacecraft captured this image of Mercury when it was about 27,000 km (17,000 miles) away from the planet. During this flyby, it filled in about half of the hemisphere missed by Mariner 10. So that means that there are still some parts hidden – waiting to be revealed in future flybys.

And so, did it see a smiley face? Nope. The hidden hemisphere was pretty much like the rest of Mercury revealed so far: craters, ridges, bright and dark regions. At the upper right is the giant Caloris basin; its western regions haven’t been seen by spacecraft before.

If you’re hoping for more photos, don’t worry. This is just a quick black-and-white image captured by MESSENGER. NASA is planning to release more detailed images, including colour photographs over the next few days, so stay tuned.

We’ll keep posting them as they’re released.

Original Source: MESSENGER News Release

Using Gravity to Find Planets in the Habitable Zone

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Astronomers have several techniques to discover planets. But one of the least used so far, gravitational microlensing, might be just the right technique to find planets in the habitable zone of nearby dwarf stars.

The first way astronomers find planets is with the radial velocity technique. This is where the gravity of a heavy planet yanks its parent star around so that the wobbling motion too and fro can be measured.

The second technique is through transits. This is where a planet dims the light coming from its parent star as it passes in front. By subtracting the light from when the planet isn’t in front of the star, astronomers can even measure its atmosphere.

The third way is through gravitational microlensing. When two stars are perfectly lined up, the closer star acts as a natural lens, brightening the light from the more distant star. Here on Earth, we see a star brighten in a very characteristic way, and then dim down again. A blip in the change of brightness can be attributed to a planet.

Geometry of a lensing event.
Unlike the other two methods, microlensing allows you to reach out and see planets at tremendous distances – even clear across the galaxy. The problem with microlensing is that it’s a one-time opportunity. You’re never going to see those stars line up in just the same way again.

But Rosanne Di Stefano and Christopher Night from the Harvard-Smithsonian Center for Astrophysics in Cambridge, MA think there’s another way microlensing could be used. In their research paper entitled, Discovery and Study ofNearby Habitable Planets with Mesolensing, the researchers propose that many stars have a high probability of becoming a lens.

Instead of watching the sky, hoping to see a lensing event, you watch specific stars and wait for them to pass in front of a more distant star.

These high-probablility lenses are known as mesolenses. By studying a large number of dwarf stars, they expect that many of them should pass in front of a more distant star as often as once a year. And if pick your targets carefully, like dwarf stars moving in front of the Magellanic Clouds, you might get even more opportunities.

Unlike other methods of planet detection, gravitational lensing relies on light from a more distant star. It is therefore important to ask what fraction of nearby dwarfs will pass in front of bright sources and so can be studied with lensing. Within 50 pc, there are approximately 2 dwarf stars, primarily M dwarfs, per square degree.

For less massive red dwarf stars, you should be able to see them at a distance of 30 light years, and for Sun-mass stars out to a distance of 3,000 light years. These stars are close enough that if a planet is detected in the habitable zone, followup techniques should be possible to confirm the discovery.

They calculated that there are approximately 200 dwarf stars passing in front of the Magellanic Clouds right now. And many of these will have lensing events with the stars in the dwarf galaxies.

Large Magellanic Cloud. Image credit: NASA
Instead of monitoring specific stars, previous surveys have just watched tens of millions of stars per night – hoping for any kind of lensing event. Even though 3,500 microlensing candidates have been discovered so far, they tend to be with stars at extreme ranges. Even if there were planets there, they wouldn’t show up in the observations.

But if you pick your stars carefully, and then watch them for lensing events, the researchers believe you should see that brightening on a regular basis. You could even see the same star brighten several times, and make follow-up observations on its planets.

And there’s another advantage. Both the radial velocity and transit methods rely on the planet and star being perfectly lined up from our vantage point. But a microlensing event still works, even if the planetary system is seen face on.

By using this technique, the researchers think that astronomers should turn up lensing events on a regular basis. Some of these stars will have planets, and some of these planets will be in their star’s habitable zone.

Original Source: Arxiv

Get Ready for the Great Moonbuggy Race

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You can tell that NASA is really serious about sending astronauts back to the Moon – they’re even working on the moonbuggies (I mean, rovers). In order to get the best designs possible, the agency is opening up the competition to student teams to design the best lunar rovers they can. The 15th annual race is going to be in Huntsville, Alabama on April 4-5, 2008. And who knows, maybe some of their good ideas might make it all the way to the Moon.

More than 40 student teams from the US and other countries have already registered for the 15th annual Great Moonbuggy Race. The students have to design, build and then race their own two-person lunar vehicles across a simulated surface of the Moon.

Here are the important rules:

  • each buggy must be the work of students from a high school or institute of higher learning
  • it must be human powered
  • the unassembled vehicle must fit within a 1.2-metre (4-foot) cube
  • the passengers must be able to carry it 6 metres (20 feet)
  • the assembled vehicle has to be thinner than 1.2 metres (4 feet)
  • it has to carry a bunch of simulated rover equipment, like a camera, antenna, and batteries

The total length of the course is about 1,100 metres (.7 miles), and strewn with rocks, craters and other lunar hazards. The team, consisting of a male and female, have to race their rover through the terrain as quickly as possible. Each team gets two runs, and the fastest times are the winners.

The three fastest-finishing buggies in both high school and college categories will win prizes from the race sponsors. There are also awards for the most unique moonbuggy design, best overall design, most improved team, best rookie team and most spirited team

There’s still time to register for the competition – registration ends on February 1st. If you’re interested in the rules and requirements, check out NASA’s website for the Great Moonbuggy Race.

Original Source: NASA News Release

Podcast: Gravitational Waves

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When he put together his theories of relativity, Einstein made a series of predictions. Some were confirmed just a few years later, but scientists are still working to confirm others. And one of the most fascinating is the concept of gravitational waves. As massive objects move in space, they send out ripples across the Universe that actually distort the shape of matter. Experiments are in place and in the works to detect these gravitational waves as they sweep past the Earth.

Click here to download the episode

Gravitational Waves – Show notes and transcript

Or subscribe to: astronomycast.com/podcast.xml with your podcatching software.