The backlit photos of Pluto just posted by NASA are breathtaking. Look at this:
Just 15 minutes after its closest approach to Pluto on July 14, 2015, NASA’s New Horizons spacecraft looked back toward the sun and captured this near-sunset view of the rugged, icy mountains and flat ice plains extending to Pluto’s horizon. The smooth expanse of the informally named Sputnik Planum (right) is flanked to the west (left) by rugged mountains up to 11,000 feet (3,500 meters) high, including the informally named Norgay Montes in the foreground and Hillary Montes on the skyline. The backlighting highlights more than a dozen layers of haze in Pluto’s tenuous but distended atmosphere. The image was taken from a distance of 11,000 miles (18,000 kilometers) to Pluto; the scene is 230 miles (380 kilometers) across.
As they say, best viewed large. Some of those features don’t look like mountains at all, but like reptile scales or huge shards of ice pushed up into the sky. Fantastic.
Bjorn Jonsson used the photos taken by NASA’s New Horizons spacecraft to make an animation of the probe’s flyby of Pluto.
The time covered is 09:35 to 13:35 (closest approach occurred near 11:50). Pluto’s atmosphere is included and should be fairly realistic from about 10 seconds into the animation and to the end. Earlier it is largely just guesswork that can be improved in the future once all data has been downlinked from the spacecraft. Light from Pluto’s satellite Charon illuminates Pluto’s night side but is exaggerated here, in reality it would be only barely visible or not visible at all.
Fantastic…and Pluto’s moons flying about in the background is the cherry on the top. (via @BadAstronomer)
This image was tweeted out by the NASA Europa Mission account the other day:
One of these images is of Europa, Jupiter’s icy moon, and the other eight are frying pans. Can you pick Europa out? Hint: frying pans tend not to have impact craters.
Update: The photos of the frying pans were taken by Christopher Jonassen, whose work I featured back in 2011 (which I had totally forgotten about). At the time, I even joked about the pans looking like a Jovian moon. kottke.org is a flat circle. (thx, tony)
Emily Lakdawalla provides an update on all of the exploration that’s going on in our solar system this month. Here’s a quick map view of the 20+ spacecraft exploring our solar system beyond Earth:
Mars remains the most active spot beyond Earth in the solar system. This week, Mars Reconnaissance Orbiter reaches its 10th anniversary of service in space, but it’s far from the oldest spacecraft in orbit at Mars; Mars Express and Mars Odyssey are still at work up there. Mars Orbiter Mission has ventured into an extended mission and is still returning photos, though apparently none of the full-disk images in a variety of phases that I had hoped for from its 4-Megapixel color camera. Even Mars’ newest resident, MAVEN, is three-quarters of the way through its one-year primary science mission, which began on November 16, 2014. MAVEN’s mission will undoubtedly be extended long beyond that, as it will be needed to support surface missions if and when Odyssey and Mars Reconnaissance Orbiter eventually fail.
Both Opportunity and Curiosity have been very active lately. Opportunity has finally reached Marathon Valley, a site identified from orbit to have signs of clay chemistry. The team is excited about the science prospects even though the rover’s memory problems persist.
The image shows the “dark side” of the Moon, which we can’t see from Earth because it’s always pointed away from us.
The lunar far side lacks the large, dark, basaltic plains, or maria, that are so prominent on the Earth-facing side. The largest far side features are Mare Moscoviense in the upper left and Tsiolkovskiy crater in the lower left. A thin sliver of shadowed area of moon is visible on its right side.
“It is surprising how much brighter Earth is than the moon,” said Adam Szabo, DSCOVR project scientist at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “Our planet is a truly brilliant object in dark space compared to the lunar surface.”
I don’t know why, but this image gives me chills up my spine! Is anyone else freaking out about this?
When they were launched in 1977, the two Voyager spacecraft each carried with them a 12-inch gold-plated copper record containing images and sounds of Earth for the viewing pleasure of whichever aliens happened across them. NASA has put the sounds of the Golden Record up on Soundcloud. Here are the greetings in 55 different languages (from English1 to Hittite to Polish to Thai):
What’s missing from the two playlists is UN Secretary General Kurt Waldheim’s greeting:
…as well as several other UN greetings overlaid with whale sounds:
Due to copyright issues, also missing are the 90 minutes of music included on the record. Among the songs are Johnny B. Goode by Chuck Berry, The Rite of Spring by Stravinsky, and Dark Was the Night, Cold Was the Ground by Blind Willie Johnson. Here Comes the Sun by The Beatles was originally supposed to be included, but their record company wouldn’t allow it, which is pretty much the most small-minded thing I have ever heard.
The English greeting was spoken by Nick Sagan when he was six years old. Nick is the son of Carl Sagan, who chaired the committee that selected the contents of the record.↩
This morning, the New Horizons probe zinged safely1 past Pluto. Before it did, it transmitted the best photo we’ve seen of Pluto so far…the last one we’ll get before we get the really good stuff. Look at this:
The probe’s “I’m OK!” message will reach Earth around 9pm ET tonight and we’ll start seeing photos from the flyby Wednesday afternoon…there’s a NASA press conference scheduled for 3pm ET on July 15. So exciting!
Update: The photo above is also the best full-disk image of Pluto that we will get…the rest will be close-ups and such. So that’s the official Pluto portrait from now on, folks.
Well, hopefully. The probe is due to transmit a “I’m OK!” message back to Earth later today (at around 9pm ET). *fingers crossed*↩
As the New Horizons probe nears Pluto, I’ve been reading a bit more about how it’s going to work and what sort of photos we’re going to get. Emily Lakdawalla has a comprehensive post about what to expect when you’re expecting a flyby of Pluto. The post contains an image of approximations of the photos New Horizon will take, using Voyager images of Jovian and Saturnian moons as stand-ins. The highest resolution photo of Pluto will be 0.4 km/pixel…it’ll have this approximate level of detail:
Which is pretty amazing and exciting considering that before the mission started this was our best view of Pluto:
NASA’s Eyes app lets you see a simulation of the probe as it approaches Pluto, but if you don’t want to download anything, you can watch this video of the flyby instead:
I had no idea the probe spun around so much as it grabs photos & scans and then beams them back to Earth. And the flyby is so fast! New Horizons is currently moving at 32,500 mph relative to the Sun…it’s travelling just over 9 miles every second. (via @Tim_Meyer_ & @badastronomer)
New Horizons will reach its closest approach to Pluto in just under 6 days, on July 14. The probe will pass within 7,800 miles of the surface…I can’t wait to find out what that day’s photos look like.
Update: You don’t even need to wait until tomorrow for that better image…here’s one that NASA released just a short while ago. Tune in tomorrow for an even better view.
New Horizons’ imaging capability of Pluto surpassed Hubble’s on May 15, 2015. So every picture since then has been better than what we’ve had previously.↩
Unlike the Earth, Mars and the Moon don’t have strong directional magnetic fields, which means traditional compasses don’t work. So how did the Apollo rovers and current Mars rovers navigate their way around? By using manually set directional gyroscope and wheel odometers.
While current un-crewed rovers don’t have to return to the comfort of a lunar module, some aspects of the Apollo systems live on in their design. Four U.S. Martian rovers have used wheel odometers that account for slippage to calculate distance traveled. They’ve also employed gyroscopes (in the form of an inertial measurement units) to determine heading and pitch/roll information.
One of the fun things about reading The Martian is you get to learn a little bit about this sort of thing. Here’s a passage about navigation on Mars where astronaut Mark Watney is trying to get to a landmark several days’ drive away.
Navigation is tricky.
The Hab’s nav beacon only reaches 40 kilometers, so it’s useless to me out here. I knew that’d be an issue when I was planning this little road trip, so I came up with a brilliant plan that didn’t work.
The computer has detailed maps, so I figured I could navigate by landmarks. I was wrong. Turns out you can’t navigate by landmarks if you can’t find any god damned landmarks.
Our landing site is at the delta of a long-gone river . NASA chose it because if there are any microscopic fossils to be had, it’s a good place to look. Also, the water would have dragged rock and soil samples from thousands of kilometers away. With some digging, we could get a broad geological history.
That’s great for science, but it means the Hab’s in a featureless wasteland.
I considered making a compass. The rover has plenty of electricity, and the med kit has a needle. Only one problem: Mars doesn’t have a magnetic field.
So I navigate by Phobos. It whips around Mars so fast it actually rises and sets twice a day, running west to east. It isn’t the most accurate system, but it works.
Could you imagine floating out in the vastness of space, even the relatively tiny vastness of space in low Earth orbit, in a tiny space capsule waiting to hook up to a slightly larger space station and if something goes wrong, you might die? But on the other hand, look at that incredible view! This HD video of a Soyuz capsule docking with the International Space Station gives you a small sense of how that might feel.
The docking itself takes place starting at around 17:00. The whole thing takes a bit longer than I remember from that Gravity movie. (via @badastronomer)
On March 27, the veteran of three previous space flights will take off for the International Space Station (ISS) and, along with cosmonaut Misha Kornienko, remain aloft for a full year. Meantime, Scott’s twin brother Mark, a veteran of four space flights, will remain on the ground. The two men with their matching backgrounds, similar health and identical genomes, will serve as the perfect controlled experiment to learn more about how the human body handles weightlessness-and what can be done to minimize the damage during long-term trips to Mars and elsewhere.
The trailer is available here. Kelly and Kornienko will be the fifth and sixth people to spend at least a year in space…cosmonaut Valeri Polyakov spent 437 straight days in space in 1994-5.
A group of astronomy enthusiasts rented a plane and flew through the shadow cast by the recent eclipse of the Sun. One passenger took the following video. Look at that shadow creeping across the cloud cover! So cool.
Ok, Pluto fans. They evicted Pluto from our solar system’s planetary pantheon, but a NASA mission launched in 2006 is nearing the dwarf planet with its cameras. We’ll soon have photos of Pluto that are much more high resolution than we currently have, which means scientists will need names for all the new geographic features. The Our Pluto site has been set up to help suggest and vote on names for these features. Naming themes include historic explorers, travelers to the underworld, and scientists and engineers. Go vote! (via slate)
From the Russian Space Agency, a video of what the sky would look like if the Sun were replaced by some other stars. It starts off with the binary star system of Alpha Centuri, but watch until the end for Polaris, which has a radius 46 times that of the Sun.
The Hubble Space Telescope was launched 25 years ago, and to start the celebration, NASA has released a pair of images that actually did make this space nerd’s jaw drop. The first is an update of a classic: a much sharper photo of the so-called Pillars of Creation:
Although NASA’s Hubble Space Telescope has taken many breathtaking images of the universe, one snapshot stands out from the rest: the iconic view of the so-called “Pillars of Creation.” The jaw-dropping photo, taken in 1995, revealed never-before-seen details of three giant columns of cold gas bathed in the scorching ultraviolet light from a cluster of young, massive stars in a small region of the Eagle Nebula, or M16.
The second image isn’t so immediately amazing but is my favorite of the two. It’s a photo of half of the Andromeda galaxy, the big galaxy closest to our own in distance but also in rough size and shape. Here’s a very very scaled-down version of it:
The largest NASA Hubble Space Telescope image ever assembled, this sweeping view of a portion of the Andromeda galaxy (M31) is the sharpest large composite image ever taken of our galactic neighbor. Though the galaxy is over 2 million light-years away, the Hubble telescope is powerful enough to resolve individual stars in a 61,000-light-year-long section of the galaxy’s pancake-shaped disk. It’s like photographing a beach and resolving individual grains of sand. And, there are lots of stars in this sweeping view — over 100 million, with some of them in thousands of star clusters seen embedded in the disk.
The original image is 1500 megapixels (1.5 gigapixels!), which is so big that you’d need 600 HD televisions to display the whole thing. But if you take the biggest reasonable size available for download (100 megapixels) and zoom in on it, you get this:
That looks like JPEG compression noise, right? Nope, each one of those dots is a star…some of the 100 million individual stars that can be seen in the full image.
That’s right, Keanu. Whoa. For an even closer look, check out this annotated close-up released by NASA:
It is nearly inconceivable how small we are in comparison to the size of the universe, but this video may make it a little less inconceivable. Do you know that the Sun is tiny compared to some other stars?
By landing the Philae probe on a distant comet, the Rosetta team has begun a new chapter in our understanding of how the solar system formed and evolved — and ultimately how life was able to emerge on Earth. As well as looking forward to the fascinating science that will be forthcoming from Rosetta scientists, we also acknowledge the technological tour de force of chasing a comet for 10 years and then placing an advanced laboratory on its surface.
The other nine achievements, which you can click through to read about, are:
Whilst roving about Mars, Curiosity has slowly but surely racked up evidence for a past Mars that was warm, wet, and possibly habitable.
John P. Grotzinger of Caltech, the project scientist for the mission, reported at a news conference on Monday that the rover’s yearlong trek to Mount Sharp provided strong new evidence that Gale Crater had large lakes, rivers and deltas, on and off, for millions to tens of millions of years. The geology shows that even when the surface water dried up, plenty of water would have remained underground, he said.
Moreover, the team concluded, numerous deltalike and lakelike formations detected by orbiting satellites are almost certainly the dried remains of substantial ancient lakes and deltas. None of this proves that life existed on the planet, but the case for an early Mars that was ripe and ready for life has grown stronger.
“As a science team, Mars is looking very attractive to us as a habitable planet,” Dr. Grotzinger said in an interview. “Not just sections of Gale Crater and not just a handful of locations, but at different times around the globe.”
The presence of methane is significant because the gas cannot exist for long. Calculations indicate that sunlight and chemical reactions in the Martian atmosphere would break up the molecules within a few hundred years, so any methane there now must have been created recently.
It could have been created by a geological process known as serpentinization, which requires both heat and liquid water. Or it could be a product of life in the form of microbes known as methanogens, which release methane as a waste product.
Even if the explanation for the methane turns out to be geological, the hydrothermal systems would still be prime locations to search for signs of life.
There is no evidence to suggest that the fixed nitrogen molecules found by the team were created by life. The surface of Mars is inhospitable for known forms of life. Instead, the team thinks the nitrates are ancient, and likely came from non-biological processes like meteorite impacts and lightning in Mars’ distant past.
Features resembling dry riverbeds and the discovery of minerals that form only in the presence of liquid water suggest that Mars was more hospitable in the remote past. The Curiosity team has found evidence that other ingredients needed for life, such as liquid water and organic matter, were present on Mars at the Curiosity site in Gale Crater billions of years ago.
“Finding a biochemically accessible form of nitrogen is more support for the ancient Martian environment at Gale Crater being habitable,” said Jennifer Stern of NASA’s Goddard Space Flight Center in Greenbelt, Maryland.
Martian weather and soil conditions that NASA’s Curiosity rover has measured, together with a type of salt found in Martian soil, could put liquid brine in the soil at night.
Perchlorate identified in Martian soil by the Curiosity mission, and previously by NASA’s Phoenix Mars Lander mission, has properties of absorbing water vapor from the atmosphere and lowering the freezing temperature of water. This has been proposed for years as a mechanism for possible existence of transient liquid brines at higher latitudes on modern Mars, despite the Red Planet’s cold and dry conditions.
New calculations were based on more than a full Mars year of temperature and humidity measurements by Curiosity. They indicate that conditions at the rover’s near-equatorial location were favorable for small quantities of brine to form during some nights throughout the year, drying out again after sunrise. Conditions should be even more favorable at higher latitudes, where colder temperatures and more water vapor can result in higher relative humidity more often.
A tribute to outer space in movies, featuring clips from Gravity, The Fountain, Alien, Star Wars, Solaris, Sunshine, Guardians of the Galaxy, and more.
There is one diva in particular that I’m here to pay homage to: Black Beauty, a shiny, scaly-skinned, 4.4-billion-year-old rock from Mars. It began its journey to Earth more than 5 million years ago, about the time humans and chimpanzees were splitting from a common ancestor. That is when an asteroid struck Mars, catapulting the rock into space. Sometime in the last thousand years or so, orbital mechanics and gravity delivered the wandering rock to Earth. Surviving an incendiary plunge through the atmosphere, it landed in more than a dozen pieces in the western Sahara. There the fragments sat, untouched except by wind and sand. Finally, a nomad plucked a piece from the dunes. After passing through the hands of several Moroccan middlemen, the first piece wound up in Piatek’s hands in 2011. He would acquire nine more.
Black Beauty has since set the collecting world on fire, reaching values of more than $10,000 per gram. (Gold trades for $40 per gram.) The price is in no small part due to the parade of scientific discoveries emerging from the rock’s jumbled-up guts. It is the oldest rock from Mars and chock-full of the planet’s primordial water. Most intriguing of all, it appears to be the first martian meteorite made of sediment, deposited by wind or water. That makes Black Beauty not only a cosmic blessing-sedimentary rocks are fragile and thought unlikely to survive interplanetary launches-but also a boon for astrobiologists. “If you’re going to look for life, you want a sedimentary rock,” says Munir Humayun, a meteoriticist at Florida State University in Tallahassee who led a study that last year pinpointed the rock’s age.
Why do humans explore space? We “love to sail forbidden seas”. This is a beautiful short video narrated by Carl Sagan showing future human exploration of our solar system.
Without any apparent story, other than what you may fill in by yourself, the idea of the film is primarily to show a glimpse of the fantastic and beautiful nature that surrounds us on our neighboring worlds — and above all, how it might appear to us if we were there.
The shot starting at 2:25 of the exploration of one of Jupiter’s moons (Europa?) is fantastic. (via ★interesting)
RadioISS plays streams of the radio stations that the International Space Station passes over on its continual orbit of Earth. As I’m writing this, the ISS just floated over the southern tip of South American and RadioISS is playing Radio 3 Cadena Patagonia AM 789 from Patagonia, Argentina. Ah, it just switched to Alpha 101.7 FM out of Sao Paulo, Brazil. They’re playing One by U2.
Now this is an ambitious Kickstarter project: Lunar Mission One wants to send an unmanned probe to an unexplored area of the Moon, land on the surface, drill a hole at least 20 meters in depth to analyze geological composition of the Moon, and then drop a time capsule in the hole that will last 1 billion years. That’s. Insane.
We’re going to use pioneering technology to drill down to a depth of at least 20m — 10 times deeper than has ever been drilled before — and potentially as deep as 100m. By doing this, we will access lunar rock dating back up to 4.5 billion years to discover the geological composition of the Moon, the ancient relationship it shares with our planet and the effects of asteroid bombardment. Ultimately, the project will improve scientific understanding of the early solar system, the formation of our planet and the Moon, and the conditions that initiated life on Earth.
The Rosetta mission has opened the way for a new era of pioneering space exploration and demonstrates the public appetite to engage with the secrets of the solar system. We want this to be a truly international mission that everyone everywhere can get involved in, so we are using Kickstarter to finance the next phase of development. This is your chance to be part of Lunar Mission One and to reserve your place in space. Your pledge will reserve you a digital memory box that will be buried in the moon during the mission as part of a 21st Century time capsule.
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