They indeed called waves in the literature, and they ARE waves but not conventional perpendicular propagation.
The famous PAVE PAWS case is often cited regarding health issues of high-rise pulse trains, but that involved high megawatt emissions. A satellite has very low energy levels once it reaches ground level, so the concern is mitigated. Also, Brillouin oscillations in dispersive media have been analyzed mostly only for material of uniform composition, but organic matter has a wide range of composition, which may break up the effect because penetration depends on resonant absorption of the energy, but the wide range of atomic types will dampen the effect, like trying to propagate sound through a mix of sand, gravel, and rock.
Think of their propagation like this: Instead of shaking the medium and having shockwaves ripple out from the source as you would when creating a magnetic wave, with the electric component you are applying pressure to the medium which compresses the point that the energy is received at.
The energy level is only one of many different pathways for potential damage. Focusing on that alone is the trick the regulators play. Best not to echo their propaganda.
That is correct, as the electric field longitudinally oscillates dipoles along the path, which is perfectly reasonable to happen. The magnetic field is then radial around the longitudinal vector. Historically, there are really interesting photos of the Russians creating a luminous half-dome this way too.
Correct, I'm surprised that someone here understands this.
The longitudinal energy will become a health issue whenever it matches the resonant frequency of one of our clusters of cells.
Regarding your previous statement on Brillouin oscillations in dispersive media... You aren't taking into account the fact that most of the human body is made out of water, and you probably aren't aware that most of that water is in a 4th state called "Exclusion Zone", which excludes all other particles and has a single resonant frequency, which means it is the most pure uniform medium for the waves to propagate through.
Water with solutes isn't that ideal medium, and the properties of the system are not the same. For example, boiling points of water with solutes change according to well-known laws. What that means is that the interatomic properties change with presence of solutes, and we can safely assume that energy absorption of the composite material changes for other areas like RF energy, THz energy, and optical frequencies. This is demonstrated by the existence of IR spectrometers which show resonance of materials that pass light.
Absorption depends on many factors so it is not pure and simple. It is affected by quantum states of atoms, atomic number (how many electrons that can suck up energy), how many protons (dipole response forces), inter-atomic forces (springiness as it were), molecular structures and how they can spin or stretch, and more.
They indeed called waves in the literature, and they ARE waves but not conventional perpendicular propagation.
The famous PAVE PAWS case is often cited regarding health issues of high-rise pulse trains, but that involved high megawatt emissions. A satellite has very low energy levels once it reaches ground level, so the concern is mitigated. Also, Brillouin oscillations in dispersive media have been analyzed mostly only for material of uniform composition, but organic matter has a wide range of composition, which may break up the effect because penetration depends on resonant absorption of the energy, but the wide range of atomic types will dampen the effect, like trying to propagate sound through a mix of sand, gravel, and rock.
Think of their propagation like this: Instead of shaking the medium and having shockwaves ripple out from the source as you would when creating a magnetic wave, with the electric component you are applying pressure to the medium which compresses the point that the energy is received at.
The energy level is only one of many different pathways for potential damage. Focusing on that alone is the trick the regulators play. Best not to echo their propaganda.
That is correct, as the electric field longitudinally oscillates dipoles along the path, which is perfectly reasonable to happen. The magnetic field is then radial around the longitudinal vector. Historically, there are really interesting photos of the Russians creating a luminous half-dome this way too.
Correct, I'm surprised that someone here understands this.
The longitudinal energy will become a health issue whenever it matches the resonant frequency of one of our clusters of cells.
Regarding your previous statement on Brillouin oscillations in dispersive media... You aren't taking into account the fact that most of the human body is made out of water, and you probably aren't aware that most of that water is in a 4th state called "Exclusion Zone", which excludes all other particles and has a single resonant frequency, which means it is the most pure uniform medium for the waves to propagate through.
Water with solutes isn't that ideal medium, and the properties of the system are not the same. For example, boiling points of water with solutes change according to well-known laws. What that means is that the interatomic properties change with presence of solutes, and we can safely assume that energy absorption of the composite material changes for other areas like RF energy, THz energy, and optical frequencies. This is demonstrated by the existence of IR spectrometers which show resonance of materials that pass light.
Absorption depends on many factors so it is not pure and simple. It is affected by quantum states of atoms, atomic number (how many electrons that can suck up energy), how many protons (dipole response forces), inter-atomic forces (springiness as it were), molecular structures and how they can spin or stretch, and more.