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What signals beyond the standard 50 Hz frequency can be transmitted by power grids, and why

What signals beyond the standard 50 Hz frequency can be transmitted by power grids, and why 1

In 2009, scientists highlighted the emergence of a complex-shaped, high-frequency signal within a standard electrical network, which intensified progressively over time.

A standard 50 Hz electrical network can technically support the use of electromagnetic fluxes at higher frequencies, up to radio frequencies, within the same network.

What signals beyond the standard 50 Hz frequency can be transmitted by power grids, and why 2

Following this discovery, scientists started to track the dynamics of signal fluctuations. They were astonished to find that every one and a half to two years, there was a stepwise surge in the intensity of these high-frequency components. Years later, it emerged that an enigmatic high-frequency element had surfaced in the electrical grid, showing a gradual increase, purportedly engineered to impact the health and consciousness of the populace.

The potential’s ascent is incremental and subtle, designed to be imperceptible to avoid alerting people to a significant and abrupt decline in health and other effects.

Electric waves at 50 Hz have limited propagation in space; lower frequencies attenuate more rapidly, while higher frequencies can transmit more power into space.

Introducing radio waves into the power grid could potentially fill living spaces with radiation. Ideally, inserting a high-frequency signal modulated by an internet signal into the power grid could provide affordable internet access throughout the cities and along power lines.

Smart meters operate on this concept, transmitting their readings to the appropriate destinations, which is quite convenient.

However, once an internet connection is established, the meter could also carry out commands from a central system, depending on its built-in functions. For instance, it could send signals at specific times, activate other devices, gather particular information, and potentially facilitate wiretapping. If needed, the “brains” of these meters could be changed, with new firmware installed, and newer models sold at a low cost to replace older ones, leaving consumers unaware of the full extent of the services involved.

This is also true for common electrical appliances. Recall the scandalous reports of Wi-Fi devices being built into irons by Chinese manufacturers.

What signals beyond the standard 50 Hz frequency can be transmitted by power grids, and why 3

In practice, implementing such an Internet presents numerous challenges; the system will be complex, and public opposition is anticipated once it is disclosed. Moreover, the technology is already in use by public exposure systems via cell towers and “smart lights,” so it is unlikely that the Internet will be introduced through the power grid to avoid interference with existing technologies. The question remains: how will we begin to measure the radiation emitted and its potential harm?

High-frequency waves emitted continuously can impact the cellular level, such as blood cells. It is widely recognized that the incidence of oncological diseases has surged in the last decade and continues to rise. There are various factors contributing to this trend, and prolonged, consistent exposure could be a significant cause.

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What signals beyond the standard 50 Hz frequency can be transmitted by power grids, and why 4

An electromagnetic wave, when traveling through a medium like air or water, invariably carries an acoustic signal. Thus, with the aid of a device like the Valdai bell, one can detect these low-frequency acoustic signals that are imperceptible to the human ear.

The bell starts to resonate unevenly, oscillating slowly, indicating that such straightforward technology could be employed to detect infrasound in an environment. The low-frequency signal transmitted through the power grid at a perilous frequency of 4 Hz is delivered in packets resembling four “humps,” known as a “zug,” which coincides with the normal heart rhythm of an adult.

When a person remains still for an extended period, such as while sitting at a computer or sleeping, their heart rhythm may resonate with the frequency of this wave packet. Since each individual has a unique rhythm, this signal can be varied over time, covering the entire range. With various monitoring types, particularly after individual chips are introduced, it becomes quite straightforward to ascertain this frequency for each person. The use of such an influence does not necessarily have to be lethal to a specific individual; it can be executed at a specific moment and location if needed.

It might seem puzzling why anyone would want to influence seemingly insignificant individuals. However, this is a common misunderstanding. Every person holds value within the global governance system. Moreover, when someone reaches retirement age or no longer provides benefit, they may be disconnected from the system. It’s not personal; it’s merely a matter of conserving resources.

Many individuals, particularly the elderly, experience sudden, sharp pains in their hearts. They often take medication, which alleviates the pain. However, this pain can also subside when one simply stands up and moves around. The heart’s rhythm changes and no longer resonates with the initial signal. Utilizing a low-frequency signal, it’s possible to resonate with, and thus affect, various bodily processes, including the heart’s rhythm.

New weapon category?

A new category of weapons has emerged, the use of which cannot be proven under current conditions.

Typically, detecting such effects requires specialized devices and controlled environments that eliminate other radiation interference. Implementing a program for such detection necessitates state funding and protection of the project. Conversely, it is quite simple to conceal any private efforts to conduct these measurements.

While the high-frequency component can be measured using relatively simple testers, these devices do not reveal the exact frequencies. Moreover, it is not feasible to monitor the timing and algorithms of frequency changes or their modulation.

What signals beyond the standard 50 Hz frequency can be transmitted by power grids, and why 5

The development of such influential technology undoubtedly took its creators many years, involving human trials and significant resources from a supranational entity.

Considering a hypothetical Chinese device, the concern is evident in the numbers. However, the specific frequencies and the waveform of the carrier frequencies remain unknown.

The human body is highly receptive to electromagnetic waves. High amplitudes of high-frequency waves can quickly damage blood cells, causing the blood to thicken and form clots, potentially leading to strokes or heart attacks.

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Another notable factor is the low-frequency modulation of a high-frequency signal at 4 Hz. This could be particularly effective at night when people are in deep sleep, experiencing total relaxation and immobility.

Low frequencies corresponding to certain biorhythms can be set, which are not limited to deep sleep and may include the biorhythms of any organ. Public reference books list the low-frequency characteristics of human organs, and it is likely that those who develop and utilize these technologies are well-versed in these details.

For such a system to function, it is necessary to install small high-frequency generators at substations to induce electromagnetic oscillations. Ironically, these generators consume electricity, which consumers end up paying for.

Claims suggest that Germany and the Czech Republic are influenced by these weapons in Europe. However, it is probable that the system is operational in each country, with a lack of genuine research being conducted.

It is hypothesized that such radiation would cause deaths primarily at night, which aligns with observations that most deaths from strokes and heart attacks occur during nighttime. This is often the case when individuals are intoxicated, as alcohol consumption leads to deeper sleep and greater relaxation.

Beyond oncology, heart attacks, and strokes, this radiation may also impair vision. It has been observed that people’s vision is often poorer in the morning compared to the afternoon and evening.

So. How can we survive, what can we do?

Turning off the entire power supply with a switch at the room’s entrance can reduce radiation by 2-3 times. Removing the refrigerator from the recreation area and replacing the lighting with local LED fixtures can easily solve this issue.

Designing devices that filter out all frequencies above 50 Hz is a feasible approach.

In electrical engineering, various technologies and devices are available to eliminate the high-frequency component. These are commonly used in network wires of devices to remove high-frequency parasitic interference.

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To optimize the design, it’s ideal to measure the high-frequency component at both the input and output, conduct research, and then develop the design. This may involve a series of chokes with varying inductances.

Indeed, the urban environment is permeated with radio frequency radiation from cellular towers.

What signals beyond the standard 50 Hz frequency can be transmitted by power grids, and why 6

How can one protect oneself from all this? Few recommendations come to mind, save for the semi-serious idea of lining one’s room with foil—a notion frequently portrayed in science fiction films.

Undoubtedly, the various forms of radiation that constantly surround us—power grids, cell towers, smart lights, metal detector frames, and so on—are considered harmful to our health. It is thought that this harm is merely a secondary objective, or rather, a welcome side effect for the proponents of the New World Order. Their primary aim is believed to be quite different.

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