The discussion revolves around the applicability of the ray model of light to radio waves and longer wavelengths. Participants explore whether geometrical optics, typically associated with visible light, can be extended to radio waves, which have significantly larger wavelengths. The conversation touches on theoretical considerations, practical applications, and the conditions under which ray optics may or may not be valid for these longer wavelengths.
Participants do not reach a consensus on the applicability of the ray model to radio waves. Multiple competing views are presented, with some asserting its limited applicability and others suggesting it can be used under certain conditions.
Participants note that the validity of ray optics for radio waves depends on the scale of obstacles relative to the wavelength, with some arguing that this condition is often not met. The discussion also highlights specific cases where ray optics may be applicable, but these are not universally accepted.
It is "just" a matter of scale. Light and radio waves are the same thing.kent davidge said:
ummm really ?kent davidge said:
To be fair, the OP doesn't claim to have looked for it at all.davenn said:
But this scale difference is the key to the answer of the question. Ray optics is an approximation of wave optics for the case that the scale of the obstacles the wave hits is large compared to the typical wave lengths of the em. waves. This is usually not fulfilled for radio waves, which have wavelength roughly in the range of cm to some 100 m.jbriggs444 said:
A.T. said:
Usually not but not 'never'. Ray tracing methods for long and medium wavelength radio signals in the ionosphere are about the only way to predict propagation over very long paths. In that case, the dimensions of the propagation path are large compared with the wavelengths involved.vanhees71 said: