0 Members and 1 Guest are viewing this topic.
Quote from: alancalverd on 10/10/2015 11:30:52Alas, no. Where did the helium absorption lines come from, in your classical electromagnetism? Please show the failure of QM, and the power of Maxwell's equations, to describe their narrow bandwidth.And your classical model of H -> He fusion is....?Maxwell created model of EM wave he had no idea how the waves are generated and why the speed of EM waves is constant...
Alas, no. Where did the helium absorption lines come from, in your classical electromagnetism? Please show the failure of QM, and the power of Maxwell's equations, to describe their narrow bandwidth.And your classical model of H -> He fusion is....?
Please answer the questions. Or not - I really don't care, and I doubt whether anyone else does.
If you want one you need to provide the details scientific experiment where assumed fusion takes place...
Quote from: mathew_orman on 08/10/2015 08:29:18Here is a plain example where QM fails to explain the phenomena:Experiment:Silver mirror is mounted on a stage inside vacuum chamber and coherent laser beam of 650nm intersects the mirror at 45 deg.Using QM explain why reflected beam has also 45 deg.You cannot conduct the experiment. Lasers use quantum mechanics and therefore do not work on your planet. Please give an example of something you have actually done or seen.
Here is a plain example where QM fails to explain the phenomena:Experiment:Silver mirror is mounted on a stage inside vacuum chamber and coherent laser beam of 650nm intersects the mirror at 45 deg.Using QM explain why reflected beam has also 45 deg.
n 1949 Gould went to Columbia University to work on a doctorate in optical and microwave spectroscopy.[4] His doctoral supervisor was Nobel laureate Polykarp Kusch, who guided Gould to develop expertise in the then-new technique of optical pumping.[5] In 1956, Gould proposed using optical pumping to excite a maser, and discussed this idea with the maser's inventor Charles Townes, who was also a professor at Columbia and later won the 1964 Nobel prize for his work on the maser and the laser.[6] Townes gave Gould advice on how to obtain a patent on his innovation, and agreed to act as a witness.