Timelapse videos of auroras from the space station
October 20, 2011
This post needs very few words. Just sit back and enjoy these gorgeous timelapse videos shot from the International Space Station. They’re of the Aurora Borealis and/or Aurora Australis. Be sure to click on the resolution and choose the HD version, and make that shit fullscreen! (All via Universe Today)
Artist's concept of NASA's new SLS
Today NASA Administrator Charles Bolden and members of Congress announced an agreement to build the most powerful rocket in US history. The launch system (or SLS for space launch system) is intended to take astronauts beyond low-Earth orbit, including asteroids and Mars. The SLS is a derivative of the space shuttle in that it uses 5 space shuttle engines and a fuel tank based on the design of the shuttle’s external fuel tank. There will also be two solid rocket boosters on either side of the main stack. The key difference is that the multi-purpose crew vehicle (MPCV), which is already under construction, will sit atop the entire stack, and will have an escape rocket system that will enable the crew to safely escape almost any type of failure or explosion at any stage during ascent. In many ways this new system is a hybrid of the Apollo-era Saturn V system and the space shuttle. For more info check out the official story on NASA’s website.
This is an exciting announcement, and it’s good to know that many aspects of this new SLS are based on or directly utilize existing technology. This means that the overall cost should be significantly lower than if we’d tried to build something entirely new. I’m glad there was bipartisan agreement that led to this decision being made relatively quickly. The target date for the initial launch of this new SLS is 2017. That seems realistic and I certainly hope it is. Humanity is long overdue to reach beyond low-Earth orbit and explore deep space.
New somewhat Earth-like exoplanet/Symphony of Science
September 5, 2011
It’s been waaaay too long since I had a good space/science post. So here are a couple of interesting things that have already been floating around the science blogs for a few days, but you may not have heard about unless you’re as big of a nerd as I am. 🙂
- We have another interesting exoplanet discovery worth talking about. It’s another super-Earth that sits within the habitable zone of its parent star- that is- liquid water could exist on its surface. At least, provided there is sufficient cloud cover. This planet, which has the fascinating title of HD 85512 b, is near the warmer edge of the habitable zone, which means there would have to be sufficient cloud cover to reflect some of the incoming radiation from its star, lest it have a runaway greenhouse effect that would make it very Venus-like (scorching hot and covered in dense, toxic clouds). This world is about 3.6 times the mass of Earth, but it was detected using the radial velocity method rather than the transit method, so we only know its mass, not its size. But if it’s a rocky world and its mass is 3.6 times that of Earth, it’s bound be a good bit bigger than Earth. Granted, we don’t know anything for sure about the atmospheric makeup of this exoplanet because we don’t have any instruments capable of detecting that yet. The radial velocity method detects planets orbiting a star by seeing the tiny gravitational wobble the planet exerts on its parent star. If we eventually aim a telescope such as Kepler at this star, and the planet transits the star, we’ll then know its approximate size and may even be able to make a better judgment on its atmospheric makeup. Until then, though, we have to rely on computer models to speculate what the air might be like. For more info see: Universe Today or National Geographic.
- You may recall Symphony of Science from back when Jack White’s Third Man Records released a 7″ vinyl single of the track “A Glorious Dawn ft. Stephen Hawking.” Phil Plait of Bad Astronomy mentioned in a post yesterday that John Boswell, creator of Symphony of Science, has put 11 tracks in a compilation on bandcamp for free (or name your own price). So go snag it now and throw the guy a few bones while you’re at it. It’s a pretty awesome idea, and I’m obviously a fan of anything that puts music and science in the same sentence.
Credit: NASA (Click for full size)
NASA just released some pretty interesting news this afternoon. The Mars Reconnaissance Orbiter (MRO) has been taking photos of the surface of Mars for many years, and scientists have seen what looked like gullies on the surface. But, they had no way to confirm whether those gullies were caused by water or just sand sliding down a slope, or by frozen CO2. There is still no way to confirm for certain that what we’re seeing was caused by flowing water on the surface, but evidence is starting to lean in that direction. These dark finger-like features have been seen changing shape before- but on the colder side of the slope that faces away from the sun most of the day. That would point toward the gullies being caused by frozen CO2. These new images are of features on the warmer sun-facing side of the slopes, meaning the likelihood of them being caused by flowing liquid water is far greater. The most important thing here is to remember that this is NOT confirmation of liquid water on the surface of Mars. It is, however, highly suggestive of liquid water on the surface of Mars. This is exciting news because if it is indeed liquid water, there’s a much better chance that microbial life might still exist. Another important thing to remember is that we already know water exists on Mars- we’ve seen it as ice, both directly (Phoenix lander) and indirectly (radar soundings from MRO indicating water ice below the surface). The key to life though, is liquid water.
As usual, Dr. Phil Plait has a very good explanation of all this on Bad Astronomy, so I recommend checking that out. The NASA article can be found here.
The end of the Space Shuttle era
July 7, 2011
If all goes as planned, tomorrow’s scheduled launch of Space Shuttle Atlantis will be the beginning of the end for the shuttle program. And when it touches down, the shuttle era will officially be over. With the program literally being almost exactly as old as I am (the first shuttle flight was on April 12, 1981, and I was born on Nov. 20th, 1981), it just seems surreal to know that the shuttles will no longer be operating. They were the face of NASA as I was growing up- they were “it.” But it is time for NASA to move on, let the private spaceflight industry take over the now routine task of ferrying astronauts to the ISS, and focus on exploring beyond low earth orbit.
The last I read, weather is going to be a big concern for the launch tomorrow, so there’s a decent chance it’ll get pushed back days or even weeks. But when it does happen, you should watch it. Especially if you’ve never seen one before. It’ll be all over the media so it’ll be hard to miss.
I decided to gather a few of the more interesting shuttle-related links I’ve come across over the past few days in my various science and space-related RSS feeds:
- Photo gallery of Atlantis on the launchpad, via Universe Today.
- Photo gallery that spans the entire shuttle program’s history, via Discovery News.
- Discovery’s first pilot remembers its troubled first mission, via Discovery News.
- Countdown: 10 amazing space shuttle photos, via Space.com.
- A glimpse into the complex rescue scenario in the event that Atlantis is irreparably damaged and incapable of re-entry, via Space.com.
I’ve been waiting since the end of May for this:
(Click to enlarge) Credit: NASA/Paolo Nespoli
THAT is something that has never been captured on film before. It may not seem like a big deal, but the opportunity to to photograph a space shuttle docked to the ISS from space has never happened before, and never will again. The schedules happened to line up so that a Russian Soyuz capsule undocked from the ISS carrying three astronauts home while Endeavour was still docked. This gave astronaut Paolo Nespoli the opportunity to take photos of the shuttle/ISS combo from the window of the Soyuz capsule as they floated away. They paused the Soyuz some distance away and the space station actually performed a “flip” maneuver to allow for more angles. Please click through to the NASA image gallery and see the rest of these amazing images.
Think the idea of humans boarding a massive spaceship headed into the cosmos for 100’s or even 1,000’s of years (a.k.a. real-life Star Trek) is completely in the realm of science fiction? Think again. Last fall DARPA (Defense Advanced Research Projects Agency), the highly secretive experimental arm of the Department of Defense who happened to invent the internet, released an official Request for Information regarding a “100-year starship plan.” Basically, they want people to come up with a fully thought-out plan for forming a team of researchers/engineers/scientists to investigate the technology necessary to build such a spaceship. Needless to say, this is one tiny baby step in a project that could cost many billions of dollars and require decades of advances in propulsion technology, but it’s still rather amazing that there is real, serious effort being put into something that has always seemed so far out of reach for humankind. As pointed out in their RFI, there will no doubt be unanticipated discoveries and technological advances as a “side-effect” of this research. So the actual spaceship itself is not the only purpose of this initiative. It really makes me happy to see something like this happening because I think manned space exploration has been quite stagnant for the last couple of decades. We need this kind of spark to really push forward the technology needed to extend our presence beyond low-Earth orbit. (Via Universe Today)
Ok, that’s really it for this week. Probably. I can’t fathom any more posts because tomorrow morning I will be heading to Manchester with the rest of the Scene/Cream team to photograph Bonnaroo. Keep your eyes on the Nashville Cream for updates on our shenanigans, and to see some of my photos.
Credit: NASA
NASA has officially given up efforts to contact the presumably dead Mars rover Spirit. Things started going downhill for the rover back in the Spring of 2010 after attempts to free it from a mound of sand were unsuccessful. The rover was in a bad position for its solar panels to absorb power from the sun, and with the impending martian winter, engineers put Spirit into a sort of “hibernation” mode. They feared that the rover didn’t have enough power to run its heaters which protect the circuitry from the -125 °F temperatures that can occur during winter. Those fears appear to be correct, because now that we’re well into the Martian spring (for Spirit’s location), the solar panels should have collected plenty of power to run the communications equipment. But the rover has been silent for several months now, and the engineers believe the rover is truly dead.
The good news is that Spirit’s twin, Opportunity, is still going strong on the other side of the Mars, with no problems whatsoever. And furthermore, the death of Spirit comes after over 6 YEARS of operation. Loads and loads of valuable data have been gained from the rover, and it has lasted 25 TIMES its expected lifespan of a few months. I’ve said it before and I’ll say it again, these twin rovers are arguably NASA’s second greatest achievement, behind putting a man on the moon. For more, read Phil Plait’s post on this, or go straight to the source, NASA.
Endeavour launched through a low deck of clouds Monday morning. Credit: NASA
As I’m sure you know, Space Shuttle Endeavour launched Monday morning, and is now docked with the International Space Station. I want to point out one very special part of this mission that could change mankind’s understanding of the universe forever- the Alpha Magnetic Spectrometer. This device is the brainchild of Nobel Prize winner Professor Samuel Ting. It cost about $2 billion to build, but the knowledge gained from it will be well worth the money. The device will be mounted on the exterior of the ISS and will run its experiments for the rest of the duration of the ISS (currently the ISS is to be funded and run through 2025). Basically, this amazing piece of equipment has a ring of immensely powerful magnets that will bend the path of any nearby cosmic rays so that they pass through a very sensitive detector. The velocity of these cosmic rays out in space is many orders of magnitude greater than anything we can create in a collider here on Earth (the Large Hadron Collider, for example). These rays do hit the Earth’s atmosphere, but most of them are scattered, deflected, or broken up by the ozone layer. That’s why this space-based experiment is so important. The main things Ting will be looking for are evidence of antimatter, dark matter/dark energy, strangelets, and other aspects of cosmic radiation that could affect future missions involving manned spaceflight. For a good breakdown of each of these scientific objectives, visit the AMS’s official website. The wikipedia page and this space.com article are also pretty good.
It’s been a while since I’ve talked much about exoplanets- one of my favorite areas of science and astronomy. I’m happy to report that our old friend Gliese 581 has yet another surprise: one of its well-confirmed planets may actually have liquid water on its surface, which means the temperature range would generally be suitable for human life. For a few years now we’ve known about several planets orbiting this red dwarf star that sits about 20 light-years away from us. The latest exoplanet discovery associated with this system (Gliese 581g) is being hotly contested, so it may not even exist at all, but the one we’re now talking about is certain to exist. It could be a while before we can definitively say whether or not this exoplanet (Gliese 581d) actually has liquid water on its surface, but a new set of computer models/simulations has shown that if the atmosphere of this rocky super-earth is dense enough, it would be stable and keep the temperature range suitable for liquid water, and possibly even life. This all hinges on an assumption that this world has a thick atmosphere full of CO2, so scientists aren’t really certain about the climate. But, based on what is known about planet formation and the makeup of Gliese 581d, a thick CO2 atmosphere is very likely to exist. This is certainly not the “holy grail of planet-hunting” a.k.a. an earth-twin because the planet is about twice the size of Earth/has about 7 times the mass, is tidally locked (meaning the same side always faces its star), and has an atmosphere of mostly CO2. Indeed, if life exists at all on this world, it would be vastly different from what’s found on Earth, but this news is very exciting nonetheless.
Today is Yuri’s Day/Night
April 12, 2011
50 years ago today, the USSR beat the US in the first milestone of the space race: they put the first human, Yuri Gagarin, into space. Gagarin’s accomplishment is celebrated each year in a series of “Yuri’s Night” parties. Obviously this year is a big deal, since it’s the 50th Anniversary, and not only does Discovery News have a gallery of photos from various Yuri’s Night parties around the globe, but this story also clued me into something I didn’t yet know about- a feature length film by director Chris Riley that attempts to re-create what Yuri would have seen from his capsule. Audio from the flight has been released, as have video clips of Gagarin’s face during the flight, but no video of the earth below was taken during the flight. So, Riley teamed up with Italian astronaut Paolo Nespoli to capture video footage from the International Space Station’s Cupola as the passed over the same areas Gagarin’s capsule did during that first flight. Check it out on YouTube here.
30 years ago today, the US reached another milestone, coinciding with the 20th anniversary of Gagarin’s flight- they launched the first space shuttle flight. It was shuttle Colombia, with astronauts John Young and Robert Crippen on board. Thus it’s only fitting that today, during a ceremony celebrating 30 years of shuttle flights, NASA will announce the final resting places of the 3 remaining shuttles after they’re decommissioned. Many museums and towns with history tied to the space program have made their cases for getting one of the shuttles, but it’s expected that one will go to the Smithsonian and another to the Kennedy Space Center visitor complex. Beyond that, it’s anyone’s guess, but I have a feeling the 3rd will go to Houston, as it’s home to NASA’s mission control. (Update: the announcement was just made, and Discovery goes to the Smithsonian, Atlantis goes to Kennedy Space Center, and Endeavour goes to the California Science Center in L.A.) This celebration at KSC is just getting underway as I type this at 11:50am CDT, and the announcement regarding the shuttles’ destinations is scheduled for 3pm EDT (2pm here in Nashville). Watch it all at NASA TV if you’re interested. I’ll update this post after the announcement is made.
NASA’s next Mars rover/why eyes are blue
April 6, 2011
This animation shows how NASA’s next Mars rover, called Curiosity, will get to its destination. The mission is schedule to launch late this year and if all goes as planned, 8.5 months later we’ll start learning more about Mars than ever before. This rover is the first we’ve sent to specifically look for evidence of life, both past and present. This video is the first I’ve seen that shows every aspect of how the rover will arrive on the surface. Getting a probe safely on the surface of Mars is much harder than you might think- it’s actually the hardest aspect of the whole mission. Mars has a very thin atmosphere, so not only does the initial entry NOT slow the probe down nearly as much as a thicker atmosphere like Earth’s would, but also the atmosphere renders parachutes almost pointless, because in order for a parachute to slow the probe to a safe touchdown speed they’d have to impractically massive in size. In both cases, the thin air makes the slowing mechanism much less effective. For Curiosity, NASA came up with this “sky-crane” landing process that is simply amazing. The engineering and technology required to pull this off simply can’t be overstated- it’s both magnificent and terrifying at the same time. I say terrifying because one tiny glitch or mechanical failure could cause the rover to crash into the surface, land sideways, or even miss Mars altogether. Every minute detail of the mission must be executed with absolute precision and perfection. In the current economic climate, failure of a mission this expensive would be a catastrophic blow to NASA’s unmanned mission programs, and we likely wouldn’t return to Mars’ surface again for many years. But with the huge successes of 2004’s twin rovers Spirit and Opportunity and 2008’s lander Phoenix, it’s safe to say NASA is getting pretty good at this. (Via Universe Today)
Another interesting tidbit I felt compelled to share: people with blue eyes (such as myself) don’t really have blue eyes. In fact, our eyes are actually pigment-less, and the same effect that makes the sky blue makes our eyes look blue. In a nutshell, irises have 3 layers and people with brown eyes have pigment in all 3. People with blue eyes have pigment only in the back layer, while the front layers have no color. However, those front layers also have tiny particles in suspension that scatter blue light (due to its shorter wavelength) more readily than other colors. This is the same thing that happens in the atmosphere and causes the sky to appear blue. As we age, those particles tend to get larger and scatter a larger portion of the light spectrum, thus our eyes look less blue and more grayish the older we get. (Via i09)
steve cross loves music and science 