Author: Sean Carroll

  • Is Dark Matter Supernatural?

    No, it’s not. Don’t be alarmed: nobody is claiming that dark matter is supernatural. That’s just the provocative title of a blog post by Chris Schoen, asking whether science can address “supernatural” phenomena. I think it can, all terms properly defined.

    This is an old question, which has come up again in a discussion that includes Russell Blackford, Jerry Coyne, John Pieret, and Massimo Pigliucci. (There is some actual discussion in between the name-calling.) Part of the impetus for the discussion is this new paper by Maarten Boudry, Stefaan Blancke, Johan Braeckman for Foundations of Science.

    There are two issues standing in the way of a utopian ideal of universal agreement: what we mean by “supernatural,” and how science works. (Are you surprised?)

    There is no one perfect definition of “supernatural,” but it’s at least worth trying to define it before passing judgment. Here’s Chris Schoen, commenting on Boudry et. al:

    Nowhere do the authors of the paper define just what supernaturalism is supposed to mean. The word is commonly used to indicate that which is not subject to “natural” law, that which is intrinsically concealed from our view, which is not orderly and regular, or otherwise not amenable to observation and quantification.

    Very sympathetic to the first sentence. But the second one makes matters worse rather than better. It’s a list of four things: a) not subject to natural law, b) intrinsically concealed from our view, c) not orderly and regular, and d) not amenable to observation and quantification. These are very different things, and it’s far from clear that the best starting point is to group them together. In particular, b) and d) point to the difficulty in observing the supernatural, while a) and c) point to its lawless character. These properties seem quite independent to me.

    Rather that declare once and for all what the best definition of “supernatural” is, we can try to distinguish between at least three possibilities:

    1. The silent: things that have absolutely no effect on anything that happens in the world.
    2. The hidden: things that affect the world only indirectly, without being immediately observable themselves.
    3. The lawless: things that affect the world in ways that are observable (directly or otherwise), but not subject to the regularities of natural law.

    There may be some difficulty involved in figuring out which category something fits, but once we’ve done so it shouldn’t be so hard to agree on how to deal with it. If something is in the first category, having absolutely no effect on anything that happens in the world, I would suggest that the right strategy is simply to ignore it. Concepts like that are not scientifically meaningful. But they’re not really meaningful on any other level, either. To say that something has absolutely no effect on how the world works is an extremely strong characterization, one that removes the concept from the realm of interestingness. But there aren’t many such concepts. Say you believe in an omnipotent and perfect God, one whose perfection involves being timeless and not intervening in the world. Do you also think that there could be a universe exactly like ours, except that this God does not exist? If so, I can’t see any way in which the idea is meaningful. But if not, then your idea of God does affect the world — it allows it to exist. In that case, it’s really in the next category.

    That would be things that affect the world, but only indirectly. This is where the dark matter comparison comes in, which I don’t think is especially helpful. Here’s Schoen again:

    We presume that dark matter –if it exists–is lawful and not in the least bit capricious. In other words, it is–if it exists–a “natural” phenomena. But we can presently make absolutely no statements about it whatsoever, except through the effect it (putatively) has on ordinary matter. Whatever it is made of, and however it interacts with the rest of the material world is purely speculative, an untestable hypothesis (given our present knowledge). Our failure to confirm it with science is not unnerving.

    I would have thought that this line of reasoning supports the contention that unobservable things do fall unproblematically within the purview of science, but Chris seems to be concluding the opposite, unless I’m misunderstanding. There’s no question that dark matter is part of science. It’s a hypothetical substance that obeys rules, from which we can make predictions that can be tested, and so on. Something doesn’t have to be directly observable to be part of science — it only has to have definite and testable implications for things that are observable. (Quarks are just the most obvious example.) Dark matter is unambiguously amenable to scientific investigation, and if some purportedly supernatural concept has similar implications for observations we do make, it would be subject to science just as well.

    It’s the final category, things that don’t obey natural laws, where we really have to think carefully about how science works. Let’s imagine that there really were some sort of miraculous component to existence, some influence that directly affected the world we observe without being subject to rigid laws of behavior. How would science deal with that? (more…)

  • It Is Not Evil To Get Paid For Work You Do

    Even if that work is writing.

    A weird commotion has broken out in the comments on Mark’s post. Unfortunately not about new forces and interactions in the dark sector, which would be great, but about the grave evil done by the profiteering meanies at Scientific American and their witting collaborators, Mark and Jonathan Feng. These two upstanding physicists have apparently written an article that you have to pay to read. It appears that the article is in some sort of “magazine,” an archaic collection of periodic writings that traditionally charge fees for people to access. Bizarre! (The comedy is kicked up a proverbial notch by people blaming the argument on “the extreme left.”)

    There is an interesting and important discussion to be had about the best way to efficiently organize an economy of writers and readers in the internet age. This isn’t that discussion. The interesting discussion would consider the tradeoffs between systems with fees, paywalls, advertising, sponsorship, subscriptions, micropayments, and so on. This discussion, in contrast, was kicked off by “paying money for knowledge is plain idiotic” and went downhill from there. (Of all the Laws of the Internet, the firmest is the Second Law of Commentodynamics: in an isolated comment thread, disorder and waste heat only increase with time.)

    Paying for knowledge happens all the time. We buy books and magazines, we pay to enter museums, we pay tuition at colleges and universities, and so on. Information on the internet is not, in principle, any different. There’s a lot that is available for free, and that’s great. It does not follow that it should all be free.

    If enough resources are free on the internet, it will certainly become more difficult for outlets such as traditional newspapers and magazines to charge for content. They have to both 1) make the case that they add some sort of substantive value, and 2) make the fees small enough and unobtrusive enough that people won’t mind paying. It’s not the only model; at the moment, giving things away but associating them with advertising seems to be more prevalent. We live in an era when the timescales over which technology is changing are substantially less than the time it takes for new economic structures to emerge and mature into equilibrium. This doesn’t change the basic fact that people like getting paid for the work they do, or they might not do it. Which, if that work consists of providing useful services like interesting articles about science addressed to the general public, would be too bad.

  • Give, Give, Give

    It’s been days since we’ve hit people up for our Donors Choose 2010 Challenge. As you know, this is our favorite cause. It’s also Stephen Colbert’s favorite, as if you needed any extra motivation.

    <td style='padding:2px 1px 0px 5px;' colspan='2'DonorsChoose.org Fear Drawings
    The Colbert Report Mon – Thurs 11:30pm / 10:30c
    www.colbertnation.com
    Colbert Report Full Episodes 2010 Election March to Keep Fear Alive

    Our challenge page has had a great response so far — many, many thanks to everyone who has donated. Every donation is rewarded with a direct thank-you from the classroom that you helped. Here are a few of our responses:

    “I simply cannot thank you enough for your selfless donation for much-needed supplies to use in my classroom. I know that your generosity will allow students with learning disabilities to engage in hands-on activities that relate to their everyday lives in reading, writing and math.” — Ms. S, Columbus

    “I AM SO EXCITED about this project being funded! I have always wanted this Lakeshore kit to assist my instruction in science. I know that the students will be excited when they are able to work in groups and pairs to understand scientific concepts using this set. Words cannot express how thankful I am to each and every one of you for your contribution to our classroom!” — Ms. L, Forsyth, Georgia

    “The items that you will provide for my students will help them with counting. Can you imagine the look on their faces when they see all the resources that they will get? I can. Its a look that I constantly get when I introduce a new concept and they are interested in learning more.” — Mrs. B, Los Angeles

    We’re kicking serious butt in the Discover Blogs sub-challenge, which is nice, but our collective behinds are in turn being kicked by the pretenders at Seed, especially the squid people. Do you really want to stand for that?

    And while we’re stooping to cheap psychology, did you notice this recent study that women give more to charity than men? Guys, are you going to just sit there and make these scurrilous accusations become reality?

    More seriously, I love the big donations, but it would be nice to see more at the $5/$10/$20 level. Doesn’t cost too much, and it can mean a lot to kids without basic school supplies. You’ll feel good!

    Last but certainly not least, we wanted to give huge thanks to everyone who helped spread the word via blogs or Twitter. Here’s the roll call of honor:

    Louise Butt
    Swans on Tea
    @Paradise_Host
    @barneygrubbs
    @pandeiacomic
    @BadAstronomer
    @VeniceRiley
    @ronsimon
    @cosmicutopia
    @buffalodavid
    @cbcnasa
    @break1ngscience
    @leafwarbler
    @pjrobar
    @alltop_science
    @rationalsquad
    @leafwarbler
    @pie_r_round
    @mdsteele47
    @reckonso
    @katiebisbee

    and who could possibly forget

    Janiece at Hot Chicks Dig Smart Men.

    Thanks! Every little push helps.

  • Well, Lads

    It is a truth universally acknowledged that, among the world-class theoretical physicists of our time, the one with the most entertaining web page is Gerard ‘t Hooft. (Even though he would be annoyed to see that WordPress refuses to display the apostrophe in his name correctly.) See for example the Constitution for 9491 Thooft, an asteroid that was named in his honor. Sounds like a place I would like to visit, once the hotel situation has advanced a bit.

    I’m mentioning it because I was struck by this succinct answer to the question, “Will the Higgs be found?” Nothing especially newsworthy, I just enjoyed the spirit of the reply.

    More and more frequently, I receive letters and mails from wise people outside physics, telling me that “they know” that the Higgs will not be found, that our theories are baloney, how dare we spend billions of public funds to build machines such as LHC, “to prove, against better judgment, that our theories still stand a chance of being correct”, and so on.

    Well, lads, I am not going to answer all of you in person. What you have in common is a blissful ignorance of the scientific facts concerning the Standard Model. Fact is that the W+, W- and the Z boson each carry three spin degrees of freedom, whereas the Yang-Mills field quanta, which describe their interactions correctly in great detail, each carry only two. Those remaining modes come from the Higgs field. What this means is that three quarters of the field of the Higgs have already been found. The fourth is still missing, and if you calculate its properties, it is also clear why it is missing: it is hiding in the form of a particle that is difficult to detect. LHC will have to work for several years before it stands a chance to see the statistical signals of this Higgs particle. What compounds the matter even more is that there may well be several sets of Higgs fields. If there are two, which is eight quarters of the field, we will get five Higgses rather than one. This would be a quite realistic possibility but it would make the detection of each one of them even harder, because they cause more complex statistical signals that are more difficult to predict.

    Recently, Dvali, Giudice, Gomez and Kahagias proposed an extremely clever way to get around the need for an explicit Higgs particle, involving extended non-perturbative states they call “classicalons.” This isn’t the kind of thing ‘t Hooft is objecting to — these are wise people inside physics! My money is still on finding the Higgs, but it’s always good to know what the options are.

  • Pepsi Galaxy, Pepsi Universe

    Warning: following links may lead to places no thinking person was meant to go. At least that’s what I discovered when I was reading this Discoblog post about a recent branding fiasco involving the Gap. I was led to a Times article about the incident, thence to a Gawker post, and ultimately to an investigation of Pepsi’s new logo. You know the one I mean:

    Pepsi_Logo

    How much thought do you think went into creating this bit of branding genius? Even better, of what did those thoughts consist?

    Wonder no more! Here is the full marketing document prepared by the marketing group that reveals the unique blend of physics, theology, symbolism, art, and a certain je ne sais quoi that made this landmark of design possible.

    Excerpts presented below the fold without further comment, which could only be superfluous.
    (more…)

  • Paperback Day!

    Not too early to be drawing up Christmas gift lists, is it? (Or Newton’s birthday gift lists, if that’s how you roll.) Do I have the perfect suggestion for you: a nice copy of From Eternity to Here, undoubtedly the best book about the nature of time written by a Discover blogger this year. And the paperback has just been released today, so you get just as much knowledge for a fraction of the cost! Take your pick from Amazon, Barnes & Noble, Borders, or Indiebound. (But it’s always nice, as an author, to get a big boost in the Amazon rankings. Just saying.)

    We should celebrate with a contest or something — I have a few copies of the paperback that could be given away, but no clever ideas to spark a competition. Best short story about the arrow of time? Limericks are out, but perhaps sonnets? Or just for the biggest contributors to our Donors Choose campaign? Suggestions welcome. (Best suggestion for a contest? How deliciously meta.)

    At the moment Amazon is offering a bargain price on the hardcover, even cheaper than the paperback (presumably to clear out inventory). They are also pushing their Kindle editions, presumably to help stave off the iPad onslaught. Truth is, there are a lot more books available for Kindle than in the iBooks store, so like many people I read books on my iPad using the Kindle app.

    Anyway, Amazon is allowing readers to peruse the first chapters of some of their Kindle books — so here you go! I wish it had been the second chapter, to be honest; that is where we get into some of the mysteries of entropy and the arrow of time. Chapter One is a bit more scene-setting (but it’s a pretty awesome scene).

    (more…)

  • Ghost Moon?

    Does anyone know about this phenomenon? My friend Benson Farb, under the charming misimpression that I am some sort of astronomer, sent me the following image, taken by his uncle Henry Farkas, MD.

    Ghost Moon

    That’s the Moon on the right, somewhat overexposed. On the left is another image of the Moon — substantially dimmer. So what is going on?

    Consulting the Google, I was able to find multiple examples of similar phenomena, but no explicit explanation: see here, here, here, here, here, here. My first guess was that we were glimpsing a giant Death Star that had been hiding behind the Moon, but upon further thought I regretfully concluded that it’s unlikely we would have alien invaders clever enough to build a Death Star but sloppy enough to reveal it prematurely like that.

    Actually there is only one sensible explanation: some sort of lensing/reflection phenomenon that is giving rise to multiple images. The two obvious culprits would be the camera lens itself, or the atmosphere. But Henry took the picture in the first place because he saw the ghost image with his naked eyes, so the camera lens is out. Atmosphere it is! This is somewhat corroborated by the fact that different exposures show different separations between the images — something that could be explained by changing atmospheric conditions.

    Ghost Moon 2
    Ghost Moon 3

    The atmosphere, whose layers can have very different humidity and temperature, can be a very effective reflector and refractor. Here is an image of a “sun pillar,” to show how dramatic the effects can be.

    sunpillar

    So I’m pretty convinced that the atmosphere is to blame. On the other hand, it’s a little funny that the images aren’t vertically aligned, which is what I would naively expect. And this wouldn’t be the first time that my lack of real-world knowledge steered me dramatically wrong. Anyone familiar with this phenomenon?

  • Hey We Got Nominated for Something

    Usually I don’t pimp out blog competitions, as too often they end up honoring crackpots, climate denialists, etc. But here (via Phil) is a contest sponsored by Physics.org, where the other entries are all very good blogs:

    Admittedly they left off some other very awesome blogs, but there’s always next year. So, yeah; I’m happy to advertise blog competitions in which I wouldn’t mind losing.

    There are also competitions for best podcast, best online magazine, etc. Let your voice be heard.

  • It Gets Better

    No substantive blogging from me — I’ve lost my laptop and need to get a new one, with all the crapola that entails. (Speaking euphemistically here; it wasn’t “lost,” it was stolen. Story later.)

    In the meantime here’s a video from Barack Obama, supporting Dan Savage’s It Gets Better campaign. (Via Jezebel.) Savage is a well-known sex columnist, and Obama is President of the United States, so it’s a newsworthy pairing in its own right. But this is an important message for every teenager, or for that matter for every person. The campaign is aimed primarily at LGBT (lesbian/gay/bisexual/transgendered) kids, who are very commonly bullied and ostracized in school. But bullying isn’t right no matter who the target is. It does get better, as you grow up and figure yourself out and find supportive communities. It shouldn’t ever be bad in the first place, so we have to do what we can to change the cultural acceptance of harassment.

  • The Fine Structure Constant is Probably Constant

    Cross-posted to Sarah Kavassalis’s blog, The Language of Bad Physics.

    A few weeks ago there was a bit of media excitement about a somewhat surprising experimental result. Observations of quasar spectra indicated that the fine structure constant, the parameter in physics that describes the strength of electromagnetism, seems to be slightly different on one side of the universe than on the other. The preprint is here.

    Remarkable, if true. The fine structure constant, usually denoted α, is one of the most basic parameters in all of physics, and it’s a big deal if it’s not really constant. But how likely is it to be true? This is the right place to trot out the old “extraordinary claims require extraordinary evidence” chestnut. It’s certainly an extraordinary claim, but the evidence doesn’t really live up to that standard. Maybe further observations will reveal truly extraordinary evidence, but there’s no reason to get excited quite yet.

    Chad Orzel does a great job of explaining why an experimentalist should be skeptical of this result. It comes down to the figure below: a map of the observed quasars on the sky, where red indicates that the inferred value of α is slightly lower than expected, and blue indicates that it’s slightly higher. As Chad points out, the big red points are mostly circles, while the big blue points are mostly squares. That’s rather significant, because the two shapes represent different telescopes: circles are Keck data, while squares are from the VLT (“Very Large Telescope”). Slightly suspicious that most of the difference comes from data collected by different instruments.

    Variations in the fine-structure constant

    But from a completely separate angle, there is also good reason for theorists to be skeptical, which is what I wanted to talk about. Theoretical considerations will always be trumped by rock-solid data, but when the data are less firm, it makes sense to take account of what we already think we know about how physics works.

    (more…)