From: BURT on 12 Jun 2010 21:07 Quantum mechanics says that the photon probability wave will come together with another because of what is called exchange forces. Light as a wave it is always spreading out. It is never a Bose Einstein condensate. It is never obsered as that. A laser does not function from exchange forces. Light has no particle to create its so called exchange force as the exchange force is never observed. The opposite always is. Light is spreading out. Even in your room. Only a telescope can bring its flow back together. Mitch Raemsch
From: Sue... on 13 Jun 2010 15:43 On Jun 12, 9:07 pm, BURT <macromi...(a)yahoo.com> wrote: > Quantum mechanics says that the photon probability wave will come > together with another because of what is called exchange forces. > > Light as a wave it is always spreading out. It is never a Bose > Einstein condensate. It is never obsered as that. A laser does not > function from exchange forces. > > Light has no particle to create its so called exchange force as the > exchange force is never observed. =============== > The opposite always is. Light is > spreading out. Even in your room. Only a telescope can bring its flow > back together. Model the telescope glass with Feynman's clocks-n-arrows and you may have a (rare) true statement. http://en.wikiversity.org/wiki/Making_sense_of_quantum_mechanics Sue... > > Mitch Raemsch
From: BURT on 13 Jun 2010 15:46 On Jun 13, 12:43 pm, "Sue..." <suzysewns...(a)yahoo.com.au> wrote: > On Jun 12, 9:07 pm, BURT <macromi...(a)yahoo.com> wrote: > > > Quantum mechanics says that the photon probability wave will come > > together with another because of what is called exchange forces. > > > Light as a wave it is always spreading out. It is never a Bose > > Einstein condensate. It is never obsered as that. A laser does not > > function from exchange forces. > > > Light has no particle to create its so called exchange force as the > > exchange force is never observed. > > =============== > > > The opposite always is. Light is > > spreading out. Even in your room. Only a telescope can bring its flow > > back together. > > Model the telescope glass with Feynman's clocks-n-arrows > and you may have a (rare) true statement. > > http://en.wikiversity.org/wiki/Making_sense_of_quantum_mechanics > > Sue... > > > > > > > Mitch Raemsch- Hide quoted text - > > - Show quoted text - You don't need that. I mean isn't it obvious? Mitch raemsch
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