johanfprins wrote:Hi rcain,
If I have to respond to all the issues that you have raised in your last post it will require Years of extra research. Furthermore, my present understanding of many of these issues have been summarised in my book. And lastly, my time is going to be spent more on prototype electronic and magnetic devices using phases that superconduct at room and higher temperatures. Therefore I have just lifted out a few issues from your post:
fair enough.
very good luck (...though i hope obviously, that luck plays no part...) in your experiments.
carbon is an 'amazing' substance. and diamond is very beatiful. if your results are positive i wish you all the best in attracting the folllowing and the recognition you will no doubt deserve. if the results turn out negative in the end, well that also will be a 'substantial' contribution to science. you cant lose.
ps. careful you dont end up doing a 'Rossi' however
johanfprins wrote:
rcain wrote: however, with reference to your linkage below, between (general) relativity and quantum mechanics, it seems that Bells theorum gets in the way of any attempt to combine them at this level, without that is, declaring quantum gravity (i dont know what further problems that causes) - at least according to th the paper cited above.
If you read my book, you will see that it is correct explanation of the EPR paradox which unifies gravity with quantum mechanics.
shame i do not have a copy. perhaps it will become public, in time.
johanfprins wrote:
rcain wrote: by 'matter wave' - i assume you mean (something analageous to) Schrodinger Wave or perhaps DeBroglie wave?
Both, but there is a difference since a solution of the Schroedinger equation is always a standing wave within an inertial reference frame, while a De Broglie wave is a Schroedinger-wave as observed from another passing inertial reference frame: i.e it is a Lorentz-transformed Schroedinger wave.
rcain wrote: - again what do you mean by 'matter waves',
The intensity of any matter wave is proportional to its mass and gravitational energy NOT a probability distribution for a “particle”.
and when you say 'are actually' i suspect yu meant to say 'can be rewritten as' (which is not quite the same thing)?
The intensity of a light wave is proportional to it’s electric (and magnetic) energy. Since it moves with speed c it can never be staionary within any inertial reference frame: i.e. it has NO MASS ENERGY. A matter wave’s intensity, similar to that of alight wave, is also proportional to electric- and magnetic energy: But since the matter wave can be stationary, within its own inertial reference frame, the electric-energy determines its rest mass, and the magnetic energy its “spin”. Within a passing inertial reference frame the mass energy is larger since the wave has now in addition kinetic energy. It thus also now has momentum and therefore it is ONLY now a De Broglie wave.
that sounds 'about' right to me. (and i have no reason to doubt your powers of dimensional analysis). but it is merely a matter of 'categorisation' and 'chosen' parameter space. the 'wave' (/'field') paradigm seems certainly a 'desirable' thing to maintain, to the extent that it (usually) both simplifies our algebra/calculus and also enables some extension of the truth's/verifyable predictions of the theory.
directtly from wikipedia::
http://en.wikipedia.org/wiki/Matter_wave wrote:
Matter wave
From Wikipedia, the free encyclopedia
This article is about the quantum mechanical concept of all matter having a duality model as a wave. For the ordinary type of wave propagating through material media, see Mechanical wave.
In quantum mechanics, a matter wave or de Broglie wave ( /dəˈbrɔɪ/) is the wave (wave–particle duality) of matter. The de Broglie relations show that the wavelength is inversely proportional to the momentum of a particle and that the frequency is directly proportional to the particle's kinetic energy.
The wavelength of matter is also called de Broglie wavelength.
johanfprins wrote:
rcain wrote: i am very interested to know, however, what sort of 'formula' we will end up with once a) recent netrinos b) entanglement, have been successfuly resolved with SR (+GR). i have a feeling it we may all be 'astonished' by a new grand-theory very soon.
A new theory is LONG overdue. If it is, however, based on “wave-particle duality” and “complementarity” it will again be wrong; Just as any theory of superconduction based on the assumption that the charge-carriers MUST be bosons is wrong and will always be wrong.
I am flying back to South Africa tomorrow. So for now So Long
by 'wrong' i understand you to mean either inconsistent or incomplete, or both. “wave-particle duality” and “complementarity” are simply devices of 'categorisation'. on 'bosonic' charge carriers, you've lost me.
hope you have/had a good trip. (dont forget to pack your attomic clock)