08/18/2024
SCHUMMAN RESONANCE reached its peak of 80 Hz today 08/16/2024. The discrepancy is absurd. It is considered normal up to 7.83 Hz./ Image credit: Schumann Resonance Updates With Marguerite.
The Schumann Resonance is a set of peaks in the spectrum in the ELF (extremely low frequency band) of the terrestrial electromagnetic field spectrum, formed by the Earth's surface and the lower layers of the ionosphere. Electromagnetic radiation caused by electrical storms is a source of ELF oscillations.
The phenomenon of terrestrial standing waves is named after the German physicist Winfried Otto Schumann, who mathematically predicted them in 1952. Schumann demonstrated that the Earth is surrounded by an immense electromagnetic field, which goes from the ground to about 100km above us. This field pulses, as if it were the heart of the planet, and has a resonance frequency of 7.83 Hz. However, 60 years earlier, physicist Nikola Tesla had already successfully detected this resonance while studying a gigantic thunder and lightning storm.
In the field of science, the Schumann Resonance is of almost exclusive interest to meteorologists, who use it to indirectly monitor the global level of incidence of electrical discharges in the atmosphere.
Undeniably, a few years ago, scientists discovered that most living beings have a low-frequency electrical activity inside their cells, which for a long time went unnoticed by science, until now.
In fact, it has been proven that this low frequency or ELF “extremely low-frequency” pulses between 5 and 45 Hz and its origin is still unknown. However, researchers have noticed that this electrical pulse seems to react to the planet's natural frequency, the Schumann Frequency.
According to experts, the presence of the Schumann frequency in the Earth's atmosphere has affected the evolution of living organisms to the point that their cells develop electrical activity within them, and any imbalance in these frequencies ends up sensitizing the organisms in some way.
So, based on this information, it is not surprising that many people are experiencing intense symptoms without being sick, such as constant headaches, dizziness, nausea, fatigue, tachycardia, ringing in the ears, excessive sleepiness or insomnia, among many others.
Because the Schumann frequency, which should pulse at 7.83Hz in total balance with human biological frequencies, has been varying from almost zero to 100Hz in a matter of hours in recent weeks. Strange, isn't it?
Well, these sudden variations have certainly shaken the cellular balance of all organisms, altering their functioning and causing the symptoms that many people have reported feeling.
This is because, according to the hypothesis published in the article called “Schumann Resonances, a plausible biophysical mechanism for the human health effects of solar/geomagnetic radiation”, the Schumann Frequency vibrates at a frequency very similar to the vibration of brain nerve cells, interacting with them and interfering with the body's serotonin and melatonin levels, substances that regulate sleep cycles.
The human body thus suffers, as it needs to readapt at a cellular level, and this causes profound physiological changes, which can even alter people's DNA, hypothetically. After all, these phenomena are still being studied and analyzed.
However, the global scientific community recognizes that exposure of the human body to very low-frequency and low-intensity electromagnetic fields has been shown to alter the biological functioning of the body, causing clear effects on human health.
It is also a proven fact that the Schumann frequency is altered, and the reasons for these changes are still a mystery to science.
However, many believe that the Earth is undergoing an energetic “reset”, to begin a new evolutionary phase and forcing human beings to evolve energetically as well, vibrating at a new frequency, which we hope will bring more health and peace.
SOUND FREQUENCIES
Sound frequency is related to the “speed” at which sound waves move through the air. This occurs through vibrations that can be more intense or more spaced out. These oscillations form what we perceive as low or high-pitched noises.
Frequency is measured in hertz (Hz) and is influenced by a series of factors. However, it is directly related to time (measured in seconds) and the environment in which the sound is propagated. Therefore, 1 Hz, for example, corresponds to a complete cycle of the wave within a specific space.
Within a scale, sound frequencies vary from 0Hz to over 200 thousand hertz. And this has no relation to sound volume, that is, louder sounds do not imply higher frequencies nor vice versa.
Within their general scale, frequencies can be divided into three types: infrasound, ultrasound and audible sound. And only those in the latter case can be perceived by humans.
INFRASOUND
Infrasound refers to extremely low sound frequencies, below 20Hz within the measurement scale. This means that the wave oscillation is extremely wide and can travel over great distances without losing energy.
Although the human ear cannot perceive these sounds, they can be felt through vibrations. After all, they are emitted by phenomena such as earthquakes, avalanches and lightning. They are also used as a form of communication between some animals, including whales and giraffes.
ULTRASOUND
Unlike the previous frequency, ultrasound represents extremely high-pitched sounds that exceed 20,000 Hz. In this case, the wave oscillation is very short and fast, reaching short distances without losing energy.
Ultrasound is used in medical imaging exams, as a way to perform soil and rock analysis and in chemical processes as a catalyst. Even though they are not perceived by our ears, they can be detected by other animals such as dogs and bats.
AUDIBLE SOUND
The audible sound frequency is the one that the human ear can identify. It encompasses the range from 20Hz to 20,000Hz. When a person has some level of hearing loss, this scale begins to reduce.
So, initially, you start to have difficulty hearing the higher frequencies, which include high-pitched tones. So, the doorbell or children's voices become a challenge to perceive. Depending on the severity of the problem, even the lowest oscillations are not captured by the auditory nerve.
Well, after everything we've explained, it's much easier to understand what sound frequencies are, right? The term is related to the vibration of sound waves and, depending on the intensity with which this occurs, we can hear the noises around us.
