nickdanger said:
Warren -
I don't say quantum mechanics is wrong...only partially right. It is incomplete. And don't quote me proofs that there are no hidden variables, we can't prove that anymore than we can prove that we have the theory of everything.
Of course it's incomplete -- it is in conflict with general relativity. However, you're erecting a lot of strawman arguments here. We
can prove that there cannot be hidden variables. We can show (via logic) that
any hidden variable theory will produce phenomena that we do not observe in this universe. Since we don't observe those phenomena, the universe cannot be described by
any hidden variable theory.
I look at it this way. Every theory is incomplete, we just don't know where or we would fix it. We await the theorist that will give us the new idea (think variable) that we missed and that's not just unification, it will be simplification.
Science does not lie in wait of new ideas to modify successful theories -- it lies in wait of new experimental evidence. So far, all the evidence we have is in favor of QM's correctness. As we learn better how to use astrophysical systems for experimentation -- or use advances in technology to build more powerful apparatus, we will undoubtedly find the loose ends of QM.
Einstein said he didn't believe that QM was the 'real thing' yet.
Who cares what Einstein said? He never lived to see the theory fully developed! How is this a useful argument?
And as I said, 'Copenhagen' concluded the opposite and moreover that there is nothing more to know. But we have a similar mess in special relativity. Einstein suggested 4 dimensional space-time and that we are at the point where we should stop trying to 'physically' imagine it and simply accept the mathematics...that's exactly what QM finally concludes: We have gotten so much from it, so don't question its validity.
The fact that it's difficult to visualize four dimensional spaces doesn't mean the conclusions of a theory that uses them are not valid. That's just another strawman argument. In fact, there are many ways to visualize quantum-mechanical systems via wavefunction evolution.
So look at what we have. Two theories, QM and special relativity that are not reconciled and yet both of them have as their authors last postulate, 'don't question it'.
Come on now -- neither theory has 'don't question it' as a postulate -- you're lying -- and you're just grasping at very small straws to say so. What do you think all the world's physicists do for a living?!
Further, both theories have similar arguments in their defense: The correctness of their mathematical predictions when their theoretical basis is doesn't look so complete. You can't tell a technician on a synchrotron that special relativity is wrong, the math works everytime. Yet no one thinks when applied to cosmology that it is working theoretically. The same is true of QM, the predictions of the next particle is always correct. Yet anti-matter and QED are a mess. It's starting to look like correct predictions of 'easily' measureable, observable events doesn't correlate to a complete theory.
A good theory is one that predicts the outcomes of experiments. That is the one and only arbiter of a theory's success. Arguments about how you don't happen to
like the theory are totally irrelevent. As it happens, anti-matter is well-understood, and QED is the most successful scientific theory ever created.
Well anyway, I'm giving you rhetoric when I can't give you any new idea...sorry about that.
Next time, take your ill-founded attacks to the Theory Development forum.
- Warren
