Interesting info Vic. At the long wavelengths quoted- they may be extreme ELF, but at the gross energy levels, quite capable of triggering secondary effects. Very little reported research seems to be done at these ELF freqs, not least due to the background noise[ Schumann resonance etc] and obscuration from those with an interest in suppressing any info on same!
On Jan 1, 12:21 am, Vic <[email protected]> wrote: > Contrary to popular belief electron flow that we refer to as > electricity travels (theoretically at the speed of light in a vacuum - > 330,000 miles/second) on the outside of the conductor that is carrying > them/it. In the case of multi-core cables, as with power transmission > lines, the electron flow also follows the helical winding of the cores > making up the cable. Point of interest here, at 60Hz the associated > elctrical AC sine wave is 5500 miles long, at 50Hz 6600. So in a > hundred miles of transmission line there is just 0.02 of the AC sine > wave at any given time. No point here - Just a statement :P) > > When it gets cold, as in freezing, the electrons travel on top of the > ice on the cable - This makes attenuation (leaving the power line and > scattering) far more likely as the subatomic "bond" - the weak nuclear > force - is already partially broken. FYI - Copper has 29 all electron > subatomic particles. 28 are tightly packed around the nucleus, only > one is in a high "S-type" valence band orbit. This allows for it to be > easily removed, as in elctron flow aka electricity.. > > OK - That's it for this year - Happy 2012. Let's make this the year of > "The Hum Stoppers" instead of the "Hum Hearers"! > > On Dec 31, 6:48 pm, Trev <[email protected]> wrote: > > > -- You received this message because you are subscribed to the Google Groups "Hum Sufferers" group. To post to this group, send email to [email protected]. To unsubscribe from this group, send email to [email protected]. For more options, visit this group at http://groups.google.com/group/hum-sufferers?hl=en.
