Today we cover the basics of what vibrational frequencies are, how they affect and determine our health, including tips on how to use your own vibrational energy.

Radiowaves Gamma Waves meganpixels hiwoowoo healy.jpg


The frequency of the radio waves is about 108 Hz, while the frequencies of the gamma rays are about 1020 Hz. Since the human body absorbs energy more easily at these frequencies than at any other frequency, it is important to transmit signals in their intensity. Understanding the energy of a radio wave, gamma radiation or radiofrequency is crucial to understanding the information obtained from remote sensing data and the impact of electromagnetic radiation on human health and health systems. Since the human body absorbs energy from these frequencies more easily than energy from other frequencies, the intensity of the transmitted signal and its frequency are important in terms of their impact on human and other animal health.

If you apply a different time force to a system and select a force-frequency that corresponds to one of the natural frequencies, you can observe a very large amplitude oscillation. If the amplitude of this vibration is large enough, the vibrating object produces sound waves that are audible, i.e. a sound wave whose natural frequency is in the human frequency range. Vibrations act in both high and low frequencies, and this also applies to vibrations that occur in beings. Think of vibrations as a contraction of energy at each frequency, so a vibration would be an extension of that energy, and vice versa.

If a system has several natural frequencies, the corresponding vibration type would be found on one of these frequencies (e.g. in the human frequency range).

Each frequency and wavelength band has two regions of the spectrum to which it is bound, and you may already know these regions. These regions are light with different frequencies, wavelengths, and energies, but they are all the same in terms of energy.

We all feel light and we all share the fact that what electromagnetic energy waves do and what energy is emitted to things around them depends on the wavelength and frequency of the energy wave. Energy is everything, so everything that happens in our lives is also energy with its own frequency. What surrounds us must vibrate with the same frequency and our behavior is defined by that behavior, sometimes complex and sometimes simple, but it is about energy.

For example, the visible and infrared parts of the electromagnetic spectrum are generally described as red, blue, green, yellow, orange, red-green, and blue light. You can see that visible light is only a small part of it, but the different colors of visible lights have certain frequencies and wavelengths that are associated with it. The most interesting thing is that if a frequency oscillates fast enough, it can be emitted at a certain wavelength, and if it oscillates much faster, it will emit much more energy and emit a much greater amount of energy.

The microwave region of the electromagnetic (EM) spectrum is generally considered to overlap with the visible and infrared parts. These waves can be described by terms such as radio waves, microwaves and microwave pulses. The lower frequency portion of this electromagnetic spectrum has been called "radio" because it is generally assumed to have a much higher frequency than the higher frequencies of visible light and therefore a higher energy.

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Frequency, wavelength, and energy are related by the known Planck constants, of which, if one knows one, the others can be calculated. The wavelength is given as a variable wavelength, which is the wavelength in the energy equation.

If the frequency is an electromagnetic wave passing through a certain point in a second, the wavelength is the distance covered by a complete cycle of electromagnetic waves. If the frequencies are an electromagnetic wave or a wave with a frequency of 1 / 10,000 millimeters and it passes the given points in a 1-2 cycle, then the wavelengths are the distances that are covered during a full cycle (electromagnetic wave) of the same frequency. If the frequency is an electromagnetic wave passing over a certain point within a second, it is a wavelength of and covering a distance during a complete cycle of an electric wave.

Frequency, measured in Hertz (Hz) units, is the rate at which oscillations and vibrations occur. Frequency, measured by the frequency of oscillation or oscillation at a particular point in a given period of time (in Hz units), is the oscillation rate that occurs during a complete cycle of an electric wave (electromagnetic wave).

In summary, an object has a natural frequency, the rate at which it vibrates when it is drummed, plucked, beaten, hit, or disturbed in any way. This is known as the "natural frequency" of the object and the optimal frequency that humans have, like everything else in the universe. It is created because the cells in our body vibrate at the frequency they are designed for, not at a specific frequency.

Human Body Frequency meganpixels hiwoowoo.jpg