What I mean by that: I asked a question about an old account. A woman was pretty upset about the question (thought I was scaring, etc.). I and this woman were sitting in front of the PC / laptop and I imagine that I somehow noticed it. I could hear it practically and suspect that these vibrations were transmitted through the electric fields?
(I'm currently doing my master's in electrical engineering)
Electromagnetic vibrations induce (generate) currents in conductive substances.
However, the human body conducts extremely badly. Nevertheless, currents are induced, but only correspondingly small.
In fact, the currents induced in your body are greater when you throw a small magnet from one hand into the other than when you put your fist around a WLAN antenna.
The reason for this is the low power that everyday antennas have. There's almost no energy behind.
Yes, of course there are antennas with a higher power. However, these are correspondingly larger. I'm sure you would notice if there was a military radar in your room. Such high radio power actually creates a kind of crackle in the air when you are close to the antenna.
Even if your eardrum resonates with any field that can interact with your body for whatever reason, you wouldn't hear anything. The reason for this is the high frequencies at which electromagnetic waves have to be transmitted. The following applies: the larger the antenna, the lower the frequency. In radio technology, however, small frequencies are still over 100 kilo-hearts, whereby the healthy human ear can't perceive sounds higher than 20 kilo-hearts.
In summary, I can say that the noise was not caused by "electrosmog", as it would exceed technical and biological limits.
Very good answer!
If there are electrically nonlinear elements in the human body - such as the ion channels of the cell membranes of nerve cells - an AM signal can be demodulated, cf. Crystal receiver.
Hardly likely. Rather "ordinary" telepathy (remote viewing).
Until proven otherwise, I would assume that the psychological effects are purely in you.
Aristotilis says: the dose makes the poison.
i also think that there are influences, only that they are so small that normal people are not really affected by them.
that makes the imagination, and please do not misunderstand now, can do more damage here than the "radiation" itself. I used the quotation marks because it is actually not radiation in the classic sense.
I fell victim to it myself when I imagined it smelled of burns after I had experienced a power failure at home. But there was nothing there that could have burned, the power cut came from further away.
I and this woman were sitting in front of the PC / laptop and I imagine that I somehow noticed it. I could hear it practically and suspect that these vibrations were transmitted through the electric fields?
Well, if this woman was separated from each other at the same time and spatially only centimeters, then you should notice yourself.
You certainly don't mean that. She may have Sitting on her laptop or computer hundreds of miles away. Since a lot of people were sitting on the computer, it is a masterpiece to filter the emotions of a single woman. I can't explain how such a transmission could take place via electrical fields.
The human brain can put itself in the thoughts of others.
The saying "two stupid, one thought" is well known.
Sometimes it is enough to start with just one word and with another person an entire film is running. You can already think about transmitting ideas. I'm not aware that brain waves (as in ECG examinations) can be used to infer words or even sentences.
What is almost improbable in the confined space is made possible by the interposition of laptops, transmission devices… Even more improbable.
No, here the brain has perceived / extrapolled something from experience that in reality did not exist.
Yes, I believe in it, but that doesn't have much to say, because I also believe in Santa Claus and the Easter bunny.
Antennas work because their size is tuned to the resonance frequency of the signal. If it receives an oscillation, it vibrates with it and thus strongly amplifies the signal. It is possible to reduce the size of the antenna by halving it, but this also halves the reception gain.
So if any of these channels miraculously correspond to exactly one resonance length, have such a low resistance that vibration occurs at all and still be large enough to amplify the signal and are also in the ear, it could actually be that this ion channel receives the signal.
That's why I added the part with the audible frequency. Even if it were received, the ear could not do anything with it.
Crystal receivers can be amazingly small. It's better with a tuned antenna, but that's not a necessary requirement. Even someone with a tooth seal is said to have heard the radio.
To be honest, I'm not exactly sure what you mean by a crystal receiver.
If you mean receivers that amplify the desired frequency with a quartz crystal, you have definitely misunderstood them. The quartz / crystal itself does not serve as an antenna, only as an oscillator. An antenna must still be added, otherwise too little energy will be taken from the wave.
To a certain extent, that radio was heard with a tooth seal. However, the seal is only the loudspeaker, while the receiver is a conventional radio. If a voltage is applied across the seal (depending on the material), it expands (piezoelectric effect). Therefore, it can be used as a speaker.
Right, read that through. They also had an antenna. In this case, the headphones consisted of a quartz crystal.
The antenna need not be very long in the vicinity of a transmitter. The length of a nerve is quite sufficient.
Correct. However, you forget that these nerve strands are not attached to any crystals. Quartz works great as a piezoelectric speaker, but I would not be aware that quartz is close to the ear, let alone that it is electrically connected to the nerve.
In addition, these "radios" can only receive AM, whereas nowadays basically no AM is broadcast anymore, since it has many disadvantages compared to modern FM.
This is not about crystals per se, but - as I said - about electrically non-linear elements.
I do not deny that FM can't be received so easily, especially not accidentally.
I'm not sure what you mean by "crystals per se".
Is there any other use of crystals in radios other than quartz crystals and speakers? Be new to me.
"Electrical not linear" describes almost all electrical elements. So I would ask you to explain your theory a little more fundamentally.
I thought that these things happen to be known to me as "crystal receivers".
Ohmic resistors, inductors and capacitors are linear for practical purposes. I know germanium diodes for detector receivers.
Neither has anything to do with the topic and is not an argument against my statements.
But. If a nerve fiber (electrically isolated) acts as an antenna and the ion channels of the nerve cell act as a rectifier, an AM signal can very well be demodulated.
I don't have any medical education, so I don't know nerves well. You, on the other hand, seem to be very limited with electrical engineering and therefore hope that you do not misunderstand my key messages.
My main message is that radio signals are far too weak to be received by a non-radio device.
In addition, even the simplest radio in the world requires components that are all critical for its function, not to mention a meter-long antenna. It may be that separate components can be simulated by elements in the body, but it is the correct interconnection of these elements that makes a radio out of them.
Please refer to my main statements in your answer for the time being, since these must be disproved to prove your thesis.
With an electronics kit, I built a functioning radio receiver with an antenna that was only about arm long.
I also received radio with a record player without wanting it - admittedly there was an (NF) amplifier in it.
If I think of it, I will read your posts later in peace on a larger screen than my smartphone to try to filter out your key messages. My key message is that the building blocks in a normal animal body are sufficient to demodulate a radio signal. (Whether it can then be made audible is a further question, I'm simply saying that we can't decide without a thorough understanding of the ear's biology.)
Well, I can agree with that.
