Bad Astronomy
The entire universe in blog form

Feb. 6 2016 9:15 AM

Edgar Mitchell, 1930 – 2016

I'm very saddened to write that we’ve lost another Moon walker: His family just announced that Edgar Mitchell, Apollo 14 astronaut, died on Thursday (Feb. 4, 2016).

By coincidence, he died on the 45th anniversary of his mission, just one day short of the anniversary of the date he landed on the Moon.

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All twelve men who walked on the Moon are heroes. They risked their lives to go where no human had gone before, and our planet — our species — is the better for it. What Mitchell and his fellow astronauts did will forever be a part of history. Each mission was an amazing story, and I urge you to read about Apollo 14 (and also read Andy Chaikin’s fantastic A Man on the Moon, too, for insight into the Apollo program and the people involved).

To be fair, too, Mitchell will also be known for some of his more unconventional beliefs. For example, he was a vocal advocate in the UFO community. He believed aliens were visiting Earth, and that there’s a government conspiracy to cover it up. As you can imagine, he and I didn’t see eye-to-eye on that.

However, that doesn’t mean he believed in all conspiracies. I met Mitchell a few years ago at a gathering of space enthusiasts, and chatted with him briefly about people who believe the Apollo Moon landings were faked (I haven’t talked about it in a while, but a little while ago I wrote extensively on the subject). I asked him if he had ever run into Bart Sibrel, one of the biggest mouthpieces for that silly idea (yes, the guy Buzz Aldrin punched).

Mitchell laughed, and said that Sibrel came to his house on false pretenses (a Sibrel forte) and once inside started making accusations of fakery, demanding Mitchell swear on a Bible that he did in fact walk on the Moon. Mitchell told me he did swear on the Bible, and then said he immediately — and literally — kicked Sibrel out of his house.

That still makes me smile.

And a lot of people give Mitchell grief for conducting ESP experiments while on Apollo 14. That sort of thing was pretty popular in the late 60s and early 70s, and a lot of the experiments going on weren’t well conducted. Mind you, I don’t think such extrasensory powers exist; the evidence is at best very shaky and the cases that get popular tend to be fraudulent. However, I also have no problems in general testing such claims, and having three men out in space, tens or hundreds of thousands of kilometers from Earth does make for a decent control setting. I don’t really blame him for trying, even if he may have been biased toward believing in it.

My point? People are complicated. If there’s a bigger testament to the reality of the fields of science, mathematics, and engineering than walking on the Moon, then I’m unaware of it. But that didn’t prevent him from still having beliefs that were at odds with some the principles of those same fields. But in that sense he was no different than the rest of us. We all have them, to one degree or another.

I think it’s OK to remember that, especially when talking about the life and career of someone like Mitchell. It highlights the complex nature of how we think, of what makes us who we are. Of how it makes us human. Reflecting on ourselves is a natural response to hearing of someone’s death, and if his legacy is in part to remind us of what it means to be human, then that’s not such a bad one.

Ed Mitchell on the Moon
Ed Mitchell, on the Moon.

NASA

And one final note. Mitchell was the sixth human to step foot on the Moon. With his death, there are now only seven people alive who have left bootprints there. I hope that we see humans walking on the Moon once again, and soon; soon enough that the Apollo astronauts themselves can witness it. We owe them that much.

Feb. 5 2016 9:30 AM

Gigantic Space Telescope’s Main Mirror Now Complete

OK, first, JWST is the successor* to Hubble, an observatory optimized for viewing the Universe in infrared wavelengths, outside what our human eyes can see. This will make JWST very sensitive to distant galaxies, low-mass stars, planets orbiting other stars, and about a zillion other very interesting astronomical objects.

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And second, JWST’s mirror isn’t like other telescope’s, where you have a giant solid piece of glass. Instead, JWST’s mirror—which is 6.5 meters across!—is made up of an array of 18 hexagonal segments, each about 1.3 meters wide.

Hubble vs JWST
Hubble's solid circular mirror (left) versus JWST's honeycomb.

NASA

There are lots of advantages to this design; each mirror can be made much lighter weight than 1/18th of a big mirror, and mass matters when you’re launching a ‘scope into space. The mirrors are made of beryllium, which is very lightweight, so each segment has a mass of only 20 kilograms (45 pounds)!

Also, the entire assembly folds up like origami, allowing the completed mirror to fit inside the payload space of an Ariane 5 rocket. Finally, each mirror has its own independent actuators on the backside, allowing each segment to be individually adjusted to ensure perfect focus for the ‘scope.

The assembly of the main mirror is a big milestone for the observatory. It’s fantastically complex, and nothing quite like this has ever been flown into space before.

Oh, another thing about the mirrors: They’re coated with gold. Gold reflects infrared light very well (most glasses don’t), so it makes a great coating. Each mirror has a layer just a tenth of a micron thick; that’s 0.001 times as thick as a human hair! Even though it’s covering about 25 square meters in total, the layering is so thin that the total mass of gold used isn’t much, about 50 grams. The gold used is ultra pure and not cheap, but the kind of pure gold you can get on the market runs about $40/gram right now, so at that price JWST has only about two grand worth on it. That’s probably the least expensive part of the entire mission.

A lot of the work done on the mirror segments was performed at Ball Aerospace, just down the road from me in Boulder, Colorado. When the assembly was finished in 2012, they had a small press event, and I was able to attend. The highlight of that day was seeing one of the flight mirrors (that is, one of the actual segments that will fly into space as part of JWST’s main mirror) from just a couple of meters away! It was in a clean room, and I got a shot of it through a door:

JWST mirror segment
One hexagonal segment of the JWST mirror; note the reflection of the door and window through which I shot this photo. CLick to enaurumenate.

Phil Plait

Yes, that’s me reflected in the hexagonal mirror. That was a pretty cool day.

The final assembly of the mirror segments on to the "back plane" was accomplished this week at NASA's Goddard Space Flight Center in Maryland. The entire process took several weeks.

I’ve had varying opinions on JWST over the years; it will be a magnificent and ambitious space telescope, and will revolutionize infrared astronomy in much the same way Hubble did for visible (and ultraviolet) light. But it’s also had massive cost overruns and is far, far behind its original schedule, and that’s bruised NASA’s overall budget (and politics) for other astronomical missions over the years.

But while that still aches a bit for me, that doesn’t affect what this mission will hopefully accomplish: Give us the clearest, deepest, and best view of the Universe we’ve ever had at these wavelengths.

Congratulations to everyone involved in getting this important step done! And keep up the good work; there’s still a ways to go before the scheduled October 2018 launch.

*Over the years I’ve seen a lot of people refer to JWST as the “replacement” for Hubble. That’s just not correct; for one thing they look at different parts of the electromagnetic spectrum, so JWST can’t replace Hubble in that regard. Plus, if all goes well, Hubble will still be in use when JWST gets to work, so we’ll have both telescopes to peer into the Universe. One of the things I’m most excited about is having both of them look at some of the same objects at the same time; many phenomena are far easier to understand once you get different eyes looking at them.

Feb. 4 2016 9:15 AM

Is This the Biggest Spiral Galaxy in the Universe?

Nature does love spirals.

From the cream floating in your coffee cup to hurricanes to galaxies themselves, spirals form on a vast range of scales. They may be for different reasons (coffee and hurricanes have faster rotation in the center, winding up the arms, whereas galaxies form spirals from a more subtle and complex effect that acts like an interstellar traffic jam), but when you have stuff that spins, spirals can arise naturally.

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But how big a spiral can you get? Our Milky Way galaxy is pretty beefy, one of the bigger spiral galaxies in the Universe. It’s roughly 100,000 light-years across, or a quintillion kilometers. That’s a lot of kilometers.

Don’t go bragging to your friends just yet though. It turns out spirals can get bigger. Way, way bigger.

The galaxy pictured at the top of this post is called Malin 1. It’s faint; so dim it was only discovered in 1986, and was the first discovered in a class of galaxies called low-surface brightness spiral galaxies. Most spirals are pretty bright and easy to see, but LSBs are much fainter. Despite that, they can grow to huge sizes.

I’ve known about Malin 1 for a while, but it hadn’t really registered with me one way or another. That changed instantly when I saw a new paper about it, which was featured on the American Astronomical Society’s Nova site, where notable discoveries are highlighted.

I saw the photo of it and nodded in admiration; it’s a very pretty and interesting spiral. But then I saw the distance, and my brain did a double take. Malin 1 is 1.2 billion light-years away.

“Wait,” my brain said, shaking itself. “What? That can’t be right!”

But it is: 1.2 billion light-years is a tremendous distance. If it’s that far, and that big in the image, it must be huge. Freaking huge.

Yeah. My brain was right. Malin 1 is more than a half-million light-years across.

Holy Haleakala. That’s ridiculous. It’s hard to explain how big that is. The Milky Way is titanic, and Malin 1 dwarfs it.

Malin 1 and Milky Way
That's a big galaxy.

Galaz et al., 2016/NASA/JPL-Caltech

Here, this’ll help. I added a drawing of the Milky Way into the Malin 1 image, roughly to scale. Malin 1 is easily five times wider than the Milky Way.

That’s very interesting indeed. How do you get galaxies that big? We know most (if not all) galaxies grow by eating smaller galaxies (literally the smaller galaxy gets ripped apart by the bigger galaxy’s gravity, its gas and stars ingested by the bigger beast), or merging with galaxies of comparable size. We can see the leftover remnants of smaller galaxies the Milky Way has eaten, and in a few billion years we’ll double in mass when the Andromeda galaxy collides with us.

But it’s not clear how Malin 1 (or other low surface-brightness galaxies like it but somewhat smaller) grew to such enormous proportions. And why isn’t it brighter, like other, smaller spirals? Digging through some papers on Malin 1 I found that it’s not forming stars as rapidly as the Milky Way; stars are born in the Milky Way at twice or more the rate they are in Malin 1. That may be why it’s dimmer (fewer massive stars born means less light coming from the galaxy). But I don’t think anyone really knows.

I’m usually not all that impressed by cosmic records; finding the most distant this or the biggest that. I’m more excited when that record tells us something. The most distant galaxy tells us how young the Universe was when the first galaxies formed, for example.

In the case of Malin 1, it’s telling us how physics operates on the biggest scales. Spirals can form in galaxies five times bigger than ours … and somehow that may also be correlated with the galaxy being dim.

There are also some peculiar features in Malin 1; you can see a long straight feature pointing away from it at about the 11 o'clock position (another one, on the opposite side of the galaxy center, is likely a background galaxy coincidentally superposed). This feature may be a long stream of gas and stars pulled out from Malin 1 by a close encounter with another galaxy off the edge of the picture. These long features were invisible in previous images but can be seen here thanks to the power of the giant Magellan 6.5 meter telescope, which took the image (and some sophisticated techniques used to enhance the image as well). A Hubble image taken a few years earlier only hinted at the far-flung spiral arms, showing you just how important the telescope size can be (Hubble’s mirror is 2.4 meters across).

It’s not surprising to me that our census of the Universe is still incomplete; there are lots of things so far away—or close by and so dim—they’re invisible to our prying eyes. But it’s still something of a shock when we find objects this flippin’ huge that have managed to evade us for so long.

It’s a sobering lesson. The Universe is almost incomprehensibly vast, and still holds many of its secrets dear. What else have we missed?

Feb. 3 2016 12:13 PM

Science Ranch 2016

If you love science (and yes, you do), meeting other people who also love science, and being outdoors in a spectacular setting, then do I have something for you.

My wife and I run a company called Science Getaways, where we take fun vacations and make them better by adding SCIENCE. Today we’re announcing our next getaway: Sylvan Dale Guest Ranch in Loveland, Colorado.

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Science Ranch 2016, as we’re calling it, will be from Sunday, July 31, to Saturday, Aug. 6. The Sylvan Dale Guest Ranch is located at the foothills of the Rocky Mountains, in a really lovely valley where the Big Thompson River comes out of the mountains. Some of the rocks in the cliff walls visible from the ranch are well over a billion years old! The geography and wildlife of the area are just breathtaking.

bighorn sheep
Bighorn sheep are a common sight in the hills next to the ranch.

Sylvan Dale Guest Ranch

Speaking of which, we’ll have three guest scientists joining us: Dr. Dave Armstrong, an ecologist who co-owns the ranch and knows the area extremely well; Dr. Holly Brunkal, a Colorado geologist and a perennial Getaways favorite (this will be the fourth time she’s joined us); and my old friend Dr. Dan Durda, an expert on asteroids and suborbital spaceflight. All three will give talks, and Dave and Holly will lead us on hikes to see the biology and the geology of the region up close.

And, as usual, I’ll be giving a talk, and I’ll have my solar telescope for viewing activity on the Sun as well as my trusty 20 cm Celestron telescope to take advantage of the dark skies there.

You’ll also have the option to take a day trip up to Rocky Mountain National Park (included in the vacation*), one of my favorite places in the world. The views from up there are truly magnificent.

horseback riding
The ranch sits on a huge chunk of land that goes into the hills, and you can ride horses up there.

Sylvan Dale Guest Ranch

There’s plenty to do at the ranch, too: horseback riding, trap shooting, cookouts, an overnight pack ride, bass fishing, campfires, a heated swimming pool … and an optional river raft ride down the Cache la Poudre River. Or you can simply sit by the Big Thompson River outside your cabin and read a book. We’re very low pressure about activities; do or do not, as you see fit. The lodging rate includes three home-cooked meals per day and all the ranch activities.

This Getaway is also perfect for families; there are activities just for kids, including riding and horse care, and their inquisitive minds will love the hikes and other science activities we’ll be doing.

Sylvan Dale is a second-generation family-owned guest ranch. If you’ve never been to a dude ranch, you’re going to fall in love with this type of vacation. The ranch is very comfortable and homey; it’s not at all like a hotel or resort. It’s a wonderful atmosphere, and we love it. But what makes Science Getaways really special, and what keeps people coming back so frequently, are the folks you’ll spend the week with. Science Ranchers (as we call those who come on our ranch vacations) are some of the friendliest, most fun and interesting people you’ll ever meet. A Science Getaway is not so much like taking a group vacation, it’s more like hanging out with 30 friends in a really cool place.

If this sounds like fun to you, then head over to the Science Getaways page and reserve a spot. We’re keeping attendance lower than usual for this one, and we expect it to sell out. I hope to see lots of BABloggees there!

*Note: Travel to and from the ranch is not included in the price; check the registration page to make sure what is and is not part of the price.

Feb. 3 2016 9:30 AM

Sometimes They Come Back: Giant Gas Cloud on Collision Course With the Milky Way

In 27 million years, you’d better fasten your seat belt: Sometime around then, a gas cloud with enough mass to make 2 million stars like the Sun will come crashing into the Milky Way.

Given the time frame, I’m not too concerned personally over this galactic train wreck. Also, stuff like this happens pretty often in our galaxy, and we’ve made it this far.

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Still, it’ll be quite an event, and there’s a funny twist to it: We don’t really know where this cloud came from.

It’s called the Smith Cloud (it was discovered by astronomer Gail Smith in 1963, who was mapping the location of hydrogen gas in the sky), and by all accounts it’s a bruiser: It’s more than 10,000 light-years across; so big that even at its distance of 40,000 light-years (almost halfway across the galaxy!) it appears 30 times wider than the full Moon on the sky.

It’s part of a class of objects called high-velocity clouds; generally pretty big clouds of gas whizzing around outside the body of the Milky Way. Quite a few have been seen, but at 2 million times the mass of the Sun, the Smith Cloud is one of if not the most massive (most are tens of thousands of solar masses). The Milky Way is, overall, a flattish disk, and Smith orbits at a slight (30°) angle to it. Right now it’s about 10,000 light-years below the disk and headed up into it.

trajectory of Smith
The path of the cloud over the past and future.

NASA/ESA

Where did this thing come from? There are lots of possibilities: It could be a “dark galaxy,” a clump of gas and dark matter that never formed stars. Or it could be a clot of gas left over from the formation of the Milky Way, orbiting far outside the galaxy, which got disturbed and plunged inward. Or it could be a cloud ejected from the Milky Way itself, blasted out into deep space and now finally heading back.

To find out, astronomers were clever. If the gas cloud were primordial—that is, very very old—it should consist of just hydrogen and helium, the lightest elements. Heavier elements have only been around in the Universe since stars created them, so by looking at the cloud’s ingredients we might be able to eliminate a couple of origin stories.

Using an ultraviolet camera on Hubble (called COS, the Cosmic Origins Spectrograph) they looked for the fingerprint of sulfur in the cloud. That element absorbs a very specific wavelength (color) of UV light (you can learn more about how this works in an episode of Crash Course Astronomy). Helpfully, the cloud’s size betrayed it: It’s so big it happens to cover up several very distant galaxies that emit a lot of UV light. Using those galaxies as light bulbs, the astronomers looked to see if there were any anomalous absorption of that wavelength of UV.

… And there was! Careful analysis indicated that the amount of sulfur in the cloud was pretty high. Kilo for kilo, it has about half the sulfur the Sun itself does (we use the Sun as the standard for such things, because in principle its elemental composition is easy to measure). There’s no way it could have that much sulfur and be left over from the early Universe. So boom, right away we know it isn’t some leftover gas cloud that’s been lurking in the Milky Way’s rural areas.

And we also know it’s not a dark galaxy, either: You need stars to make sulfur, and dark galaxies wouldn’t have any stars.

That means it must be local in origin, a cloud somehow ejected from the disk of the galaxy, where heavier elements are abundant.

galactic fountain
An infrared map of the galaxy reveals a blowout: A popped bubble of gas (lower left) that could be the origin of a high-velocity cloud.

ESA/Hi-GAL Consortium

We do know of ways that can happen. In several places along the galactic disk are “fountains,” huge eruptions of material blasting out into near-galactic space. These can be generated by a series of exploding stars, or by the fierce winds blown by thousands of young stars all forming at the same time in galactic gas clouds. The vast outflow of material can burst through the galactic plane like a geyser, ejecting a lot of material upward and outward.

And, like a fountain, sometimes that material comes back. The Smith Cloud must have formed that way. It may have started off smaller, but as it plowed through the material located in our galaxy’s halo, it picked up mass. And now it’s ready to deliver all that stuff back to us.

Like I said, lots of high velocity clouds like this are known. What’s interesting is that if you add them all up, they deliver about one solar mass worth of material every year to the galaxy. That is very roughly the same amount the Milky Way uses up every year making stars! So these clouds are like fuel, keeping star formation in the galaxy going. How about that?

Not that this entire mystery is solved. Smith is moving pretty rapidly through space—about 300 kilometers per second, or a million kilometers per hour—and that’s actually faster than the rotation of the galaxy at its location! Most such clouds are actually moving slower than that, so how Smith got its high velocity still isn’t clear.

So what will happen when it does come back? Well, the disk of the galaxy is lousy with gas. When Smith comes barreling in, it may very well collide with that gas. This will generate vast shock waves and collapse the cloud (think two cars in a head-on collision). If it gets dense enough, star formation could be triggered inside it, with thousands of stars being born all at once.

There are multiple sites of star birth in our galaxy, and some are pretty rigorous. This may be just one among them, though I suspect the velocity at which it’s moving will make this somewhat more violent than normal. Two million solar masses moving at a million kilometers per hour …

The galaxy is a surprisingly violent place. In astronomy, though, violence usually means something interesting. It’s how they form, it’s how they die, and it looks like in this case it’s even how they make sure there’s fuel left to generate more. It’s the ultimate recycling program.

Feb. 2 2016 12:00 PM

Mars From a Height

I post a lot of news and pictures of Mars, and when I do it’s usually something taken by a rover on the surface, or it’s a high-resolution image of a small region taken from orbit.

I love these images, and they give us a sense of the kind of detail going on at the surface of Mars. But it can be easy to forget that Mars is actually a world, a huge place with sweeping vistas.

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I was reminded of this when I did my usually daily check-in with my friend Emily Lakdawalla’s blog at the Planetary Society. She posted a handful of simply spectacular images of the red planet that were taken by the European Mars Express mission, and processed by Justin Cowart.

The image above shows the Tharsis Shield of Mars, a tremendous bulge in the side of the planet with four volcanoes popping out of it, including the famous Olympus Mons, the largest mountain/volcano in the solar system. I love the overview we get here, including the blue edge of the planet caused by its thin atmosphere.

Cowart’s Flickr page (and his Twitter stream) is a marvel of astronomical imagery, shots from around the solar system, including Saturn and its moons, the comet 67/P Churyumov-Gerasimenko, and more. It’s well worth your time to take a look. There’s nothing wrong with a reminder of how gorgeous our local neighborhood in the Universe is.

Feb. 2 2016 9:00 AM

“Let’s Make Sure That History Never Forgets the Name … Enterprise

This year marks the 50th anniversary of the most influential science-fiction series of all time: Star Trek. I’m a pretty big fan (Evidence A/B, Evidence 2, ad inifinitum), and I could go on and on about its influence, the characters, the music, and all that. But really, at the center of the show, there is one singular icon: the USS Enterprise.

Oh, that ship. Nothing had ever been seen like that before on TV or in movies — the unusual design and construction, unfettered by the need for gravity or aerodynamics or landing on a planet, yet still sleek and compelling.

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For years the original model of the Big E used in the original series (or TOS to those of us in the know) was on display at the Smithsonian’s National Air and Space Museum. But the decades have taken their toll, and the model is currently undergoing reconstruction.

NASM has a great blog, and they just put up a wonderful article talking about the process. If you’re a Trek fan, this is a must-read. The pictures alone are worth it.

Enterprise
Full ahead, warp factor 4.

Phil Plait

As a huge Trek fan myself, I have to tell you about a time I got a piece of the action. Last year, NASM asked me to participate in a fundraiser to help preserve Neil Armstrong’s lunar EVA suit from Apollo 11. I talked with them on the phone about it,and joked that I’d love to be a part of that, but on one condition: I had to be able to see Enterprise myself.

They didn’t hesitate at all. “Of course,” was the reply I got.

“Oh,” I may have replied. I’m not sure, because my memory of that moment is a bit fuzzy. I may have blacked out for a second.

But they were serious. So when the time came … I boldly went.

USS Enterprise
These are the continuing voyages of the starship Enterprise.

Phil Plait

I went to the NASM Udvar-Hazy Center, where the spacesuit was being conserved. We spent the morning shooting some of the scenes for the promo video (including in a huge room with the Space Shuttle Orbiter Discovery hanging on display), which was fun. Then we moved to a part of the center where some of the real work is done: extremely talented professionals working on preserving and conserving priceless artifacts. We walked into the room where we were going to see Armstrong’s suit … and there she was.

Oh, that ship. Look: Seeing Armstrong’s suit up close (literally even being able to smell it) was a profoundly moving experience, and one I will cherish literally as long as I live. It represents the reality of space travel, of what we did when we had the will.

But that in no way diminishes seeing the Enterprise model, which represents our dream of space travel, of what we hope one day we’ll do. Inspiration comes from many directions, and those dreams play an important role in motivating the reality.

Enterprise
"Admiral, what about the rest of the inspection?"

Phil Plait

So standing up close to Enterprise, the actual model used in the original series, was thrilling. Thrilling. The ship that started it all, right there in front of me.

It made me think about watching the show when it was in its first reruns, my older brother commenting to me about what was going on as the scenes unfolded (I was pretty young at the time). I had memories of watching Next Generation in grad school, bookending my career there (the first episode aired my first year, and the last one aired seven years later, just before I got my Ph.D.). I flashed back to standing in line at the theater to watch Wrath of Khan, and eventually meeting and even becoming friends with some of those galactic explorers.

Enterprise
To boldly go.

Phil Plait

Making this encounter even better was meeting Ariel O’Connor, who is a conservator on the model. I wound up chatting with her about all manners of things; she is a font of information about it, with encyclopedic knowledge of its history. More than that, her affection for Enterprise is also readily apparent. Let me assure you, the NCC 1701 is in excellent hands. I’m not sure I’d trust it more if Kirk himself were in charge (after all, he didn’t always bring it home in the best of condition).

Even in its partially disassembled state, it was surreal to stand next to it. For one thing, it’s big: nearly four meters long. The coloring on it is odd, and they’re working on restoring it to its original hues. But even in that room, secured to its support stand, it looked ready to warp away to seek out brave new worlds.

I made a short video showing it; I had to speak softly as the crew was working behind me doing some video of Armstrong’s suit:

At one point, we realized it had to be moved to another spot in the room, or else it would be in our shots of the spacesuit. Several people hovered over it as they wheeled it a few meters over to the corner, and I practically swallowed my heart as they moved it. But these folks really are at the top of their game, and everything went very smoothly.

When we are all done filming, Armstrong’s suit was covered up and wheeled away, and we all headed out the door. As we did we filed right past Enterprise, taking up the corner of the room. I took one last lingering look, knowing how special this day was. It’s not often you get to see some of the greatest and most beautiful icons of space exploration history (both real and imagined) in your lifetime.

It’s not clear when the refit will be done, but at some point the model will be finished, and placed back on display at the museum. And when it does, I must return to this place again.

Enterprise
Live long, and prosper.

Phil Plait

My sincere thanks to the folks at NASM for letting me use these photos and write about this moment … and of course for giving me this chance to see Enterprise.

Feb. 1 2016 9:15 AM

Climate Change Denier Claims (Heh) That 2015 Wasn’t (Ha) the Hottest Year on Record (HAHAHAHA!)

I (and many others) have shown that the loudest voices in the climate change denial noise machine have long since run out of any real credibility. There are numerous ways to reach that conclusion; for example you can look at how their claims have changed over the years (there’s no warming, there’s not much warming, it’s not warming enough to worry about, warming is good for plants, sure it’s warming but it’ll hurt our economy to do anything about it), you can look at their funding sources (tobacco and fossil fuel interests) whose tactics they deploy, or the fact that they rely on long-debunked claims instead of any real evidence.

But despite this, they do go on. And have no doubt: What they say has real-life consequences—life and death consequences, in fact, for millions of people. More. I’ll get back to that in a moment.

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As the denial never seems to cease, I think they’re not only short on credibility, they’re also just short on ways to sell their snake oil. Their ideas get weirder and less believable every time they speak.

That’s the only conclusion I can draw when the claims I see now are so ridiculous, so outrageously, blatantly wrong that it’s hard to believe they can make them with a straight face.

I recently read an op-ed that falls firmly into this category, and it was no surprise at all that it came from James Taylor, from the bizarre world of the Heartland Institute. Remember them? They put up billboards comparing climate scientists to mass murderers, and when people were outraged at the obviously despicable claim (and they hemorrhaged donors because of it), they took the billboards down and, in Orwellian fashion, claimed victory.

So yeah, a view of reality twisted into a Möbius strip is just another day for them.

Taylor’s article was printed in Forbes, and right away, just from the headline, you know you’re about to take a trip into WTFery: “2015 Was Not Even Close to Hottest Year on Record.”

Forbes headline
All the news that's cherry-picked to print.

Forbes

This is one of the wrongiest wrongs to have ever been wronged. Yes, far and away, without question, and where it counts, 2015 was the hottest year on record. Many, many temperature readings confirm that, and it’s not even close; even if you account for El Niño (which tends to make things warmer overall), 2015 blew away the previously hottest year of 2014.

So how can Taylor make this claim? Well, as usual, it’s to cherry-pick a very, very specific set of circumstances: Satellite measurements of a single layer of the atmosphere. As I (and many others) have shown, these satellite measurements are not terribly reliable over the long term, and are nowhere near as accurate as temperatures measured from the ground using thermometers.

Despite this, Taylor states, “By contrast, temperature measurements at the Earth’s surface are less reliable,” which is just flatly wrong. Seriously. It’s just complete fertilizer. If you think I’m being too harsh, then I suggest you read what actual climate scientists have to say about Taylor’s claims, because you’ll see words and phrases like “total fabrication” and “very misleading” and “disingenuous” and “inaccurate” and “wild misrepresentation.” I’m pretty gentle by comparison.

Here’s an analogy for you: Taylor saying satellite measurements show 2015 isn’t the hottest year is like inspecting a horrendous car crash, finding the steering wheel intact, and claiming the accident never happened.

The article is embarrassingly bad, even for an op-ed in Forbes (which has run several such comically wrong articles by Taylor in the past). It’s just so egregiously and obviously and in-your-face wrong, though, that I have to assume it’s aimed only at those who are ideologically predisposed to believe him, in an effort to sow doubt.

hottest year graph
Can you spot the hottest year on this graph? Click for an explanation.

Berkeley Earth

And that’s where the consequences come in. Because some of the people ideologically predisposed to use his claims as fodder are other deniers. And some of them have real power, like, say, Ted Cruz. R-Texas.

As a sitting senator (and hopeful GOP presidential candidate), Cruz has access to the best and most accurate science, yet he chooses to ignore it, or worse, actively squash it.

I am no fan of Cruz's, as you might imagine. He is incredibly disingenuous to the point of outright lying, as has been shown many, many times. Cruz distorts the truth so glibly that it’s impossible to know what he truly believes, so it’s possible he really does think the planet isn’t warming up. Or (as seems far more likely) it may be he’s purposely bending his interpretation of reality to match the ideologies of his audience and his benefactors (as I've wondered before, wouldn't it be interesting if senators had to swear to tell the truth during hearings in which they sit? Hmmm.)

But either way, Cruz is dead wrong about global warming. And he uses the same kind of satellite-based argument Taylor does. Cruz still claims warming has flattened since 1998, which has been shown to be so completely, utterly wrong in every way that his making that claim again speaks to his lack of veracity ... but still, Cruz runs the Senate Subcommittee on Space, Science, and Competitiveness, where he trots these claims out as fact.

While it’s almost trivially easy to show that Taylor and Cruz are wrong, they still forge on ahead with as much inertia as global warming itself. In Taylor’s case he’s aided and abetted by such venues as Forbes (and other deniers can find refuge in such places as the Wall Street Journal and the Daily Mail, where, apparently, facts are optional).

Cruz has his own outlets, of course. And since an overwhelming tsunami of scientific evidence shows they’re both wrong, they have to rely on what is sadly a tried-and-not-true technique: barreling on, steamrolling over anyone who speaks against them, and hoping against hope that their own audience won’t call them on it.

Postscript: Speaking of calling them on it, Monday is the Iowa GOP caucus, so it’s important to note that not a single viable Republican presidential candidate has a good grasp on global warming.* A vote for any of them means at least four more years of doing nothing about what has been called by people who would know a threat to our national security. I agree. If someone denies basic science on an issue this important, they do not deserve the office of president.

*Correction, Feb. 1, 2016: This post originally misstated that Iowa's GOP primary is taking place Monday. It is a caucus.

Jan. 31 2016 9:00 AM

SPECTACULAR Photos of a Rocket Re-Entering Over Hawaii!

Around 2 a.m. local time, astrophotographer Steve Cullen was driving home from visiting the summit of Mauna Kea on the Big Island of Hawaii. He stopped at around 11,000 feet to take some panorama shots of the peak … but what he got was much more.

He noticed an orange light heading up into the sky out of the west. It was moving across the sky at about the speed you’d expect from a satellite, but at that time of night no satellite moving at that rate would be lit by the Sun, so it wouldn’t be visible.

Within seconds, though, it became clear what he was seeing: some sort of human-made space debris re-entering Earth’s atmosphere. How?

Because this. Check. This. OUT.

Jan. 30 2016 9:00 AM

Crash Course Astronomy: Outtakes 5

The final episode of Crash Course Astronomy went up last week, but if you miss it already, we have one final video for you: the fifth outtakes reel, which basically features me trying to pronounce common words as if I have a mouthful of oatmeal.

That bit near the end, where I seem way more upset about messing up thanking people than it calls for? That’s because it took a ridiculous number of takes to get that bit right. I lost count. Maybe 20? More? Mind you, this was literally the very last thing we were recording. Ever. We were wrapping up a long day of being in the studio, I had just finished the content for the final episode, and all I had to do was thank the fantastic folks who put CCA together. And I kept flubbing it. It was really frustrating. Over 46 episodes, that was easily the most failures I had getting the lines out. 

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But I did (eventually), and we wrapped the series. So again, thanks to Nicole Sweeney and Nick Jenkins for making me look like a dork. If you want more, Outtakes One, Two, Three, and Four exist as well.

By the way, the entire CCA series is now online. When you’re done binging whatever’s on Netflix, give this one a shot. The whole Universe is waiting for you.

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