Is String Theory Really a Scientific Theory?

vk38 writes, "The New Yorker is running a story on whether String Theory is really a scientific theory or just an abstract exercise in math designed to churn out papers and Ph.Ds for the established academics. The article reviews two current books, by Lee Smolin and Peter Woit, laying out the case against string theory." From the article: "Dozens of string-theory conferences have been held, hundreds of new Ph.D.s have been minted, and thousands of papers have been written. Yet... not a single new testable prediction has been made, not a single theoretical puzzle has been solved. In fact, there is no theory so far — just a set of hunches and calculations suggesting that a theory might exist. And, even if it does, this theory will come in such a bewildering number of versions that it will be of no practical use: a Theory of Nothing... String theory has always had a few vocal skeptics... Sheldon Glashow, who won a Nobel Prize for making one of the last great advances in physics before the beginning of the string-theory era, has likened string theory to a 'new version of medieval theology,' and campaigned to keep string theorists out of his own department at Harvard. (He failed.)"

Re:Neither Proved Nor Disproved

As the summary points out, few (if any) of String Theory's propositions can be tested or even observed.

So how is that any different from intelligent design? If you can't test it, it isn't science.

Re:Not a scientific theory.

[jfengel]

There's a difference between what's not practically testable and what's truly unfalsifiable. As long as it's conceptually possible to come up with a falsifying experiment, even if it's wildly impractical, it's still a scientific theory. We may yet come up with ways to test the theory. Sometimes that's because somebody comes up with a clever new test, an ingenious new reformulation of the theory, receives unexpected results from an exsting accelerator, or builds a new particle accelerator.

What's happening here is that people are complaining that the scientific establishment has made it difficult to work in alternatives to string theory. But just because you can't get a job to disprove a theory doesn't make it unfalsifiable. There needs to be healthy debate in the scientific community about which theories to work on. Shutting valid theories down is not healthy for science, but neither are accusations that conflate "impractical" with "impossible".

why does the new yorker care?

[bunions]

Let the physicists, who are the only people who can truly understand this, sort it out. They likely don't need the academic process becoming any more politicized than it already it. If it's a blind alley, they'll find that out in due time. While it's regrettable that it's taking as long as it is to reach a conclusion on the issue, come on - it ain't exactly flippin' burgers, and we're not exactly hung up waiting for the result. Let the scientists work.

Not yet, but it will be! (Maybe? or Maybe Not?)

[Banner]

String theory is at times one of the biggest con jobs in Physics, and at other times some of the most interesting speculation. It's also the 'Theory that will NOT die!' reminding me of so many late night C rate thrillers.

Why? Because everytime string theory gets disproven, they come out with a new theory and call it 'String Theory'. String Theory from the 70's really doesn't resemble current string theory much other than the name. It's strange that this is so, but there are a lot more politics involved than there is science at times. And the author is right, there are lots of articles being written, but not much going on that can be said to prove the theory, and little in the way of predictions (cause those could be tested). And so far, everytime someone does stand up and make predictions, it quickly gets disproven by actual tests. Which may be why no one is predicting much using it anymore.

At this point actually String Theory may very well be the most 'disproven' theory in physics. But that doesn't seem to stop people from trying. It will be curious to see what science has to say about all of this 50 years from now. To be honest I think many of us have gotten too close to the subject to be objective about it, and I think that is not helping the issue on either side.

Re:Neither Proved Nor Disproved

[radtea]

String theory is a scientific theory that has neither been proved nor disproved to my knowledge.

What makes a theory scientific or not?

Falsifiability is only one criterion. Science is a communal activity, and to a far greater extent what is taken to be "scientific" is what is approved by the community. The community of science has a set of self-perpetuating rules such that we hope our communal sense of where the truth lies never gets too far out of sync with reality.

By the minimal standard of falsifiability string theory passes, just--there are experiments that can at least be imagined that would test the predictions of the large family of equations that string theory now encompasses. But it is a perfectly legitimate point that continuing to invest in a failed family of theories in perpetuity at some point becomes a faith-based initiative, and that divergent approaches should be more welcomed.

Insofar as aesthetics have played a role in physics, they have done so after the fact. The principles that guided most of the major developments in 20th century physics were consistency constraints with quite simple justifications. Most famously, Dirac's insistence on a second-order wave equation that treated space and time symmetrically gave us the foundations for relativistic quantum mechanics. This was not an arbitrary or aesthetic constraint, but a logical inference from empirical fact and known relativistic symmetries.

What string theorists are doing is quite different, and no amount of invoking Einstein or Dirac can hide that. If they want to be taken seriously they need to come up with "aesthetic" principles--if they want to call them that--that uniquely constrain their equations, perhaps up to a constant of integration (we gave Einstein that, after all.)

And until then, the measure of how "scientific" string theory is can be answered by a single question: How many string theorists are spending the majority of their time trying to prove that no string theory can ever describe the universe that we actually live in? If the answer to this question is: few or none, then the string theory community is not a scientific community, but merely a mutual admiration society.

Perhaps we could agree that it is a model

[benhocking]

String theory might not have earned the rights to be called a theory yet, but as with Bohr's model of the atom, perhaps we could agree that it has earned the right to be called a model.

Re:If it's not testable it isn't science.

[alexgieg]

You, sir, have no idea what Philosophy is.

Do you "prove" logic by testing it, or testing anything is to apply logic to the issue?

When something "becomes" science, that's because it never was philosophy. Philosophy is that discipline that provides you the tools with which you build science. Not the other way around.

Re:Thanks for the troll submission

[Morphine007]

it's true, it really is FUD.

String theory hasn't been replaced by newer versions, it's been updated with small modifications like "what if the basic premise is the same, but instead of a 1D string vibrating in 4 dimensions (x,y,z and t) it's vibrating in 11 dimensions, where the other dimensions are curled up within the planck length?"

There are reasons why string theory has failed to come up with any NEW predictions. For one thing, it's being constantly tweaked so that it is consistent with EXISTING experimentation. After all, why would you build a theory that you hope will become a GUT if it's not consistent with other proven theories?

The other thing is that this is a theory... the fact that it (mathematically) treats particles as being a 1D string vibrating in n-dimensions doesn't actually mean that if you could see items smaller than the planck length, that you would actually see a vibrating string!! It's a mathematical representation... the math doesn't have to represent exactly what's happening as long as it can be used to describe what is happening.

After all, modern chemistry is incredibly useful for predicting how atoms interact with eachother to form compounds... even though it's based off the idea that electrons orbit a nucleus like a tiny little planet orbitting a sun... that is precisely NOT what an electron does, but who cares, the math allows you to make determinations. It's the same with string theory.

I do not think that string theory is a con job. I do, however, think that attempting to come up with a GUT is a MUCH MUCH larger task than simply trying to explain, say, quantum behaviour, like tunneling.

They're starting with a very simple, and very elegant premise (that all particles are periodic vibrations with different frequencies corresponding to different particles) and then building from there. Hell... start with that and just try and figure out how to represent the periodic table... that alone would be mind-boggling. Now start trying to figure out what particle interaction would look like... then build up from there. The trick, is that it's possible to describe nearly everything using this theory... but it hasn't happened yet. Just because it's possible doesn't mean it'll be easy.

This, of course, probably means that it's the wrong way of going about it... but that doesn't make it a waste of time... the hardest part, I think, will be in having enough patience to see what the theory can produce outside of existing theories... unfortunately it has to be harmonized with existing theory ;-)

Re:Uh no

[Chris+Burke]

Of course String Theory makes testable predictions. Just like General Relativity and Quantum Mechanics make testable predictions.

The bad news is that they are the same predictions that General Relativity and Quantum Mechanics make, many of which we've already tested, and is thus indistinguishable from them.

The good news is that String theory makes the same predictions as GR and QM while still being only one theory.

It is the non-compatability of GR and QM that creates the need for something like ST. If ST doesn't make a single unique prediction, but is able to explain both the quantum and relativistic worlds, then not only is that a theory, it's a great theory.

Of course it's a scientific theory.

[AWeishaupt]

"Sterile" neutrinos, Supersymmetric particles, Kaluza-Klein particles, Energy 'leaking' into higher dimensions...

These are some of the predictions of string theories.

And they all can, to some degree, be tested empirically.

All the technology that needs to be implemented to do this isn't readily available right now, but hopefully, in coming years with experiments such as LHC and IceCube coming online, we could start to see meaningful results - Remember, it took years for empirical confirmation of General Relativity, simply due to technical limitations.

Re:Neither Proved Nor Disproved

[LihTox]

I agree that if string theory isn't testable, then it isn't science (yet). However, it IS mathematics (which often isn't science either, often dealing with strange systems which have no basis in reality), and as mathematics it is certainly a worthwhile field of study. (There are a lot of physicists out there who are basically doing mathematics.)

And of course, eventually someone might come up with a way to test the string theories, and then they'll definitely be science. :)