Effects of EM standing waves in red and white cells
The effect of EM standing waves on human health is explored. More specifically, let us consider the red and white blood cells as small vibrating membranes with wavelengths λR and λW , correspondingly We are looking for the probable existence of resonance between the high frequency (very small wavelength mm- level wavelengths λ) which may exist in 5G EM waves (which may be in the range of 1mm to 10mm). EM STANDIGN WAVES generated by an open end configuration of the 5G waves and the small wave length vibrations of the red and white blood cells (for RED cells diameter: dR = 6-8 thickness: thR = 2 , and wavelength: λR = 0.5mm, and for WHITE cells diameter: dW = 12-17= 1.5mm)., If such resonance condition exists , the structure and mobility (Levitation phenomenon) of both red or white blood cells can be effected and result in respiratory (due to the fact that red cells carry oxygen) and immune system problems (weaken the body’s immune system) and thus make humans venerable to various dangerous external influences, such as viruses (any viruses). The situation can become especially dangerous if the affected people have pre-existing respiratory or immune system problems or both and the virus has strong characteristics. In that case, the outcome could be fatal. Note that if the recently worldwide installed 5G devices, which are installed in great numbers (thousands) in major cities, and beam simultaneously EM waves of the same frequency, and indeed they may create a STANDIGN WAVE (SW) with such and resonance frequencies. The area of a standing wave could cover a huge TORUS like bubble covering hundreds of miles, which can affect anyone who is within this bubble space. However, this effect can be probably shut off (or turned on again as we wish), by interrupting the creation of the standing wave. Probably, his can be done by emitting different frequencies from various 5G devices operating within the zone of influence of the standing wave created by such SW. This study is in preliminary stage. Although detailed analysis has been done by Nick P.
