New Calculations May Lead To a Test For String Theory

dexmachina writes "A team of theoreticians, led by a group from Imperial College London, has released calculations that show string theory makes specific, testable predictions about the behaviour of quantum entangled particles. Professor Mike Duff, lead author of the study from the Department of Theoretical Physics at Imperial College London, commented, 'This will not be proof that string theory is the right "theory of everything" that is being sought by cosmologists and particle physicists. However, it will be very important to theoreticians because it will demonstrate whether or not string theory works, even if its application is in an unexpected and unrelated area of physics.' In other words, string theory may finally have shed its critics' most common complaint: unfalsifiability. However, given the second most common complaint, I can't help but wonder: which string theory?" Update: 09/03 23:34 GMT by S : Columbia University's Peter Woit, author of the Not Even Wrong blog, says these claims are overblown, and adds that a number of string theorists said as much to Wired.

Not a test

[UnHolier+than+ever]

I scanned through the article and from what I see, they have made an equivalence between the maths used in string theory and the maths used in entanglement. This is interesting in itself, because this allowed them to port a result from string theory to entanglement theory, a result which was not known before and could be falsified.

However, this is like saying that the mathematical theory used to count apples harvested from an orchard (addition of natural numbers) is the same as the mathematical theory behind the algorithm the slashcode uses to count the number of comments below threshold (addition of natural numbers). It allows one to port result from ancient mathematics to modern applications without having to rederive everything from first principles; it does not mean that sub-threshold comments are, deep down, really made of apples.

Re:Physicist speaking

[PolygamousRanchKid+]

If you dislike, please propose a better solution rather than just complaining.

It's turtles . . . all the way down . . .

Chill out, Pinky

[Moraelin]

Chill out, Pinky.

Where did I say I was using the one from Contact or anything. Yes, I'm using largely the version you explain there: as long as two hypotheses explain the exact same sets of measured data, go with the less complex one, leave the more complex one for when you actually have some data that the other one can't explain.

In exactly that sense, as long as the String Hypothesis doesn't have at least one testable prediction [b]of its own[/b], that can't be explained by the simpler GR and QM, it freaking fails Occam's Razor.

It doesn't mean it's _false_ and nowhere did I say it's _false_. I said until such time as it makes testable predictions of its own, it's just a _hypothesis_. Different thing from "false".

So basically, what, you made all that fuss to answer to your own strawman?