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When near high tension power lines, particularly after a good rain, the lines themselves emit a buzzing noise. A similar noise can be heard coming out of the electric meters attached to my apartment.

I've heard before that this is supposedly from the 60Hz AC current that's running through the lines -- namely, that the buzz is the same 60Hz which is in the lines.

I'm skeptical of this though for a couple of reasons:

  1. I don't see any reason the change in electricity would somehow be audible.
  2. The noise subjectively sounds relatively high pitch. 60Hz would sound extremely low pitched -- it's near the base of human hearing of 20Hz (typical).

What is the actual cause of that buzzing?

EDIT: I just spent some time playing with a tone generator and the noise I hear from these things sounds closest to 120Hz using a square or triangle wave. (Oddly, not a sine wave, as I would have expected) Perhaps that helps?

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migrated from Jul 22 '11 at 21:25

This question came from our site for scientific skepticism.

Two reasons: One is coronal discharge. The high voltage between adjacent wires (phases) is enough to make air conduct. As the voltage between phases is alternating, and constantly changing, the sound changes. – Thomas O Jul 22 '11 at 19:23
Second reason: Current through the wire isn't fixed. The varying current causes expansion and contraction of the wire, producing sound. Especially of concern is power factor far from 1, with current much higher at the peaks. Most electrical transmission is done three phase. So at 120 Hz and 120 degrees apart, each wire will expand slightly, creating a click, and the effective frequency might be as high as 480 Hz, explaining why it might sound higher in pitch. – Thomas O Jul 22 '11 at 19:25
@Thomas: Your second reason is faulty. The expansion and contraction of the wire only becomes an issue of the wire is also being cooled at that 60Hz rate. In any case, it's certainly not enough expansion and contraction (even at 480Hz) to be clearly audible hundreds of feet away on the ground. – Billy ONeal Jul 22 '11 at 19:30
Thomas O - The changes happen far to fast for us to "Hear". The discharge is not something common around normal utility electricity otherwise there would be signifigantly more problems. – Chad Jul 22 '11 at 19:57
This is a question I've been looking the answer for. – user8664 Apr 13 '12 at 18:54

The reason for this is something known as "magnetostriction", which is strain induced in a magnetic lattice due to the magnetic nature of a material. There is a pretty good explanation of the buzzing noises in transformers here, but the summary is that the ferromagnetic domains in the transformer core are subjected to the 60Hz (in the US) oscillations of the magnetic field due to the AC current. Because of the electrical cycle, there are two impacts on the core per AC oscillation, so the strain is changing at 60 Hz, which produces the 120 Hz noise that we can identify a "great B" note.

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The OP asked about powerlines which do not have core susceptible to magnetostriction. – Slaviks Apr 27 '13 at 11:01
The link is broken. – whatever Aug 18 '13 at 21:23

The humming you hear around all things electrical is 120hz, because an imperfect 60hz sine wave has strong harmonics at 120Hz which you will likely hear over 60Hz because of the frequencies our ears pick up best.

The humming you hear from power supplies, transformers, power meters, high-voltage distribution boxes (which have coils and such inside), etc etc is because the magnetic field in transformer coils is a physical force acting upon ferrous metals (this is how speakers work). Even though you might see a coil consisting of varnished wire that is glued down or epoxied really tight, the magnetic force is still tugging on these wires ever so slightly to great vibration. It doesn't have to be the coil wire itself either, it could be any metal object around the coil. The force is there and it's pushing and pulling on that metal back and forth at 120 times a second.

For high-voltage lines outside on poles, it's a different story. That is, if you aren't around any transformers like you see in those big distribution plots. What you are hearing is not corona discharge (as that is mostly silent unless when you get total breakdown you will hear and see arcing). After rain, or when moisture levels in the air raise you get condensation developing on the ceramic insulators that hold up the cables. You will notice these are shaped oddly like little half-domes so as to make it harder for a stream of water to make a connection between the live line and ground (or another phase). They aren't perfect though, and when rain or moisture develops on them, it can create shorter little paths for the current to travel. What you are hearing is tiny little bursts of water boiling off the insulators.

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No, the reason you hear 120 Hz is not because the 60 Hz contains harmonics, but because you are hearing effects of the high voltage that occurs twice per line cycle. – Olin Lathrop Nov 18 '13 at 22:10

Nearly everyone here has posited magnetostriction as the cause for the hum. This is most certainly the case for transformers which have large amounts of ferrous material put in laminated sheets to form the core, but is a doubtful explanation in the case of power lines. Power lines don't have nearly enough magnetic material to produce large enough deformation to give rise to a loud hum that a passer-by may notice. The more likely cause, especially that it is mentioned the hum is noticed particularly after the passage of a train, is the vortex-shedding.

Wind flow over the wire at a sufficiently high velocity, generates a series of vortices that are periodically shed forming the so-called von-Karman vortex street in the aft of the bluff body. Now this phenomenon maintains fantastic periodicity for a reasonable range of Reynolds numbers. This aeolian effect is called Conductor gallop for low frequencies and flutter for high frequencies, which corresponds to the "singing" of power lines.

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Well, it's only a Wikipedia reference, but it says for high voltage power lines, it can be corona discharge. For transformers or other objects containing coils, it can be magnetic. Seems to me, for things carrying AC, it's pretty hard to make them not hum. If you're wondering how it sounds, that page has some recordings, but you might have to double the frequency (go up one octave), because for a 60hz signal, the voltage and/or current reaches a maximum 120 times per second.

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I wonder why a magnetic field would hum.... – Chad Jul 22 '11 at 20:56
@Chad: The field doesn't hum. Mechanical things that respond to magnetic fields would hum, like current-carrying wires or ferrous metal objects. There's a force acting on them, at that frequency, and they "give" enough to move and vibrate the air. In fact, that's how speakers work. – Mike Dunlavey Jul 22 '11 at 21:06
@Mike: Except there's no "ferrous metal object" in the vicinity of the wires to do the humming or that is obviously moving as a result. I therefore find this a hard to believe explanation. – Billy ONeal Jul 22 '11 at 22:00
@Billy: What about the wires themselves? They probably contain steel, which is ferrous and metal. – user1631 Jul 23 '11 at 0:23
Magnetic fields cause hum due to the paramagnetism in oxygen. This is the classic source of transformer hum. – user27777 Aug 18 '13 at 17:01

As you can infer from the answers here, there are at least two correct (and different) answers. A magnetic field exists around an object carrying current. This field interacts with the earth's magnetic field to exert a force than acts on the current carrying wire. There is some movement of the wire caused by the magnetic field surrounding it.High tension wires are Aluminum clad Steel) I used to work at a 50Kw AM radio station that had a large audio transformer in the transmitter (the transmitter was "plate modulated"). The transformer acted as a Lo-Fi speaker due the transformer winding movement at audio frequencies (the modulating signal). In the same way, motor windings will make a 60 Hz, plus many harmonics (multiples) of sound when powered with a cheap (square wave) inverter. This is because the square wave contains high harmonic energy (multiples of 60Hz. Loose windings, more noise. The second way power lines hum is electrostatic, related more to voltage than current (as the magnetic effects described above are). The lines become an "electrostatic speaker" based of an electric, instead of magnetic field. (see electrostatic speaker article for explanation)

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This is the only explanation I can think off : Lorentz force due to earth's magnetic field

Let's do a rough estimation:

Let's say we have some power line at 1000A (should be ok for 100mm^2 wire), 200 meters between towers.

F=200 meters * 1000A * 40 microteslas (some average Earth's magnetic field) = 8 newtons (Not looking at angle at the moment, depend on position & location)

While 8 newtons itself is not much to significantly move heavy wires at 50/60 hertz (this sample wire would weight ~180kg), if line have any mechanical resonance at multiple of 50/60 hertz, vibration will amplify and will be significant to make audible sound.

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I don't think this works. If it was only high tension lines then there might be an argument for this, but the same hum is emitted from much lower current systems (such as meters). Moreover, the hum is consistent across every such system I've ever come across. If it was resonance based it should differ between different locations. – Billy ONeal Jul 22 '11 at 23:09
@Billy hiss have different nature in different systems. This answer explains only power line hiss mistery we see in the question. We can discuss causes for other types of equipment, but we need specific example. Powermeter - mechanical or 100% electronic? – BarsMonster Jul 22 '11 at 23:33
I have no idea. All I know is that it emits a hum that sounds like the power lines do. – Billy ONeal Jul 22 '11 at 23:45
Vanilla power-meters have some kind of electric motor inside - which have coils. Coils always hiss with frequency of supply voltage because alternating magnetic field of the coil make wires vibrate. In this case forces are higher, as magnetic field is much stronger. – BarsMonster Jul 23 '11 at 0:09
This theory should be easy to check. Lines running along north south magnetic lines wouldn't hiss. – jcohen79 Nov 30 '12 at 3:27

protected by Qmechanic Apr 27 '13 at 8:16

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