This is a guess but probably earlier than one would expect.MathematicalPhysicist said:When did he start being famous to the wide audience?
After an observation of light deflection by Sun, predicted by his general theory of relativity. The observation was done by Eddington in 1919.MathematicalPhysicist said:When did he start being famous to the wide audience?
This is a very good point to which I would ask, what known results of the theory justifies such an expenditure of effort? If understanding only leads to more technical questions there is no way to recoup time wasted. To the unwashed like myself there appears to be no usable phenomenology in these theories.[URL='https://www.physicsforums.com/insights/author/urs-schreiber/']Urs Schreiber[/URL] said:So instead of spending time on the popular prose of those authors you refer to, why not drop all that, pick up Polchinski's textbook, open it on page 1, and start reading.Take a pen and paper with it, and try to follow the arguments. Such as to finally know what we are actually talking about.
This post is based on some naive assumptions about how people learn physics and eventually choose what to work on!Paul Colby said:This is a very good point to which I would ask, what known results of the theory justifies such an expenditure of effort? If understanding only leads to more technical questions there is no way to recoup time wasted. To the unwashed like myself there appears to be no usable phenomenology in these theories.
Fair enough. One should be able in some way to convert theory into observational predictions that can be compared with experimental results in a unique way (I know I'm old fashion this way). In the standard model there is a well defined way of doing this (eh more or less). If it's possible to start from a pure string theory on however many dimensions and produce numerically accurate branching ratios for all those measured with LHC or some other experiment, then my understanding of the state string theory is truly remiss. If application of a theory isn't unique or requires essentially assuming the answer then it's not really what I would consider a theory. IMO the shear volume of papers on a topic isn't the guaranty of relevance it used to be.Haelfix said:I don't know what you mean by 'usable phenomenology'.
I heard some considered it a framework and not a theory, whatever the difference between the two may be.Paul Colby said:Fair enough. One should be able in some way to convert theory into observational predictions that can be compared with experimental results in a unique way (I know I'm old fashion this way). In the standard model there is a well defined way of doing this (eh more or less). If it's possible to start from a pure string theory on however many dimensions and produce numerically accurate branching ratios for all those measured with LHC or some other experiment, then my understanding of the state string theory is truly remiss. If application of a theory isn't unique or requires essentially assuming the answer then it's not really what I would consider a theory. IMO the shear volume of papers on a topic isn't the guaranty of relevance it used to be.
I'm concerned that a framework involves much more hand waving than a theory. In any case I should be able to fine at least a couple (out of 1000s) of papers that will give me a better perception of the applications. To hear that string theory is routinely used in high energy phenomenology indicates a much more complete "theory" than I was led to believe based on what I've seen of the literature.MathematicalPhysicist said:I heard some considered it a framework and not a theory, whatever the difference between the two may be.
Well mathwise it seems interesting enough to learn, is it a physical theory that one day engineers will use (in the very far future) to harness nature to our will as was done with QM, CM,EM and Statistical Physics (I don't see many applications of GR in engineering)? to tell you the truth I have my doubts, well first we need to incorporate GR into Control Theory in a meaningful way.Paul Colby said:I'm concerned that a framework involves much more hand waving than a theory. In any case I should be able to fine at least a couple (out of 1000s) of papers that will give me a better perception of the applications. To hear that string theory is routinely used in high energy phenomenology indicates a much more complete "theory" than I was led to believe based on what I've seen of the literature.