mike1000 said:How does this show that de Broglies equation is wrong?
mike1000 said:It says that when in an inertial reference frame that is at rest with object it always looks like a particle. And when in an inertial frame that is not at rest with the particle it looks like a wave.
mike1000 said:When at rest with the particle there is no momentum so the equation states that the wavelength is infinite.
Even Feynman lectures on physics? So this is a book for beginners, only done to confuse; ... the wave-particle duality is here clearly expressed as one of the founding concepts of MQ. Or maybe it's a dated text that no longer worth reading?bhobba said:Why do beginner texts and popularization's not mention it - it will simply confuse beginners -
This sounds a bit like a dogmatism, almost a truth of faith. Who does not accept it is a heretic. I do not think it's a truly scientific attitude.bhobba said:If you don't like it stay with B level threads. You will still be told its wrong but much more gently.
bhobba said:An infinite wavelength extending in all directions forever - the physicality of such is?
Note in QM such can't occur because of the uncertainty principle - but De-Broglie has no such restriction.
De-Broglie is a mishmash of the wave-particle duality and relativity that when pushed too far breaks down. Schrodinger realized this, and was spurred when someone asked him the obvious question - if its a wave it should obey a wave equation. He found one (but made an error although he got the correct answer - by dumb luck):
https://arxiv.org/abs/1204.0653
However analysis of the equation showed it did not do what he wanted it to do. It was shown to be equivalent to Heisenberg's Matrix Mechanics by a number of people, although they had issues of a technical nature. The first actual proof was from Von-Neumann. In the mean time an even more general theory was developed by Dirac at the end of 1926 called the transformation theory that generally goes by the name QM today. It contains nothing about wave-particle duality - but does contain things of dubious mathematical validity ie that damned Dirac Delta function. Von-Neumann in his famous Mathematical Foundations of QM was quite critical - it makes interesting reading. This spurred many of the greatest 20th century mathematicians to fix it up. They succeeded and now via so called Rigged Hilbert spaces is mathematically valid. The spin-off is the so called theory of distributions which has many many applications - not just QM - for example its the best way to do Fourier transforms. It can even handle the weird wave-function of infinite wavelength - but the answer is still the same - its nonphysical.
Thanks
Bill
mike1000 said:De Broglie's equation says that the product p*λ is quantized. Not p or λ individually, but the product p*λ. Are you saying this is not true either?
Karolus said:So this is a book for beginners
Karolus said:the wave-particle duality is here clearly expressed as one of the founding concepts of MQ
Karolus said:Too much of other texts, such as the Landau, all based on outdated misconceptions!
Karolus said:Even Feynman lectures on physics? So this is a book for beginners, only done to confuse