BIOMECHANICAL DYNAMICS OF SEVERE ACUTE RESPIRATORY SYNDROME (SARS) AND THE PREDICTION OF INBUILT RAISING MULTIPLIER λ.

Authors

  • S. A. Egboro Department of Physics, Federal University of Petroleum Resources, Effurun. Author
  • E. Akpata. Department of Physics, Delta State University, Abraka. Author
  • E. A. Enaibe Department of Physics, Federal University of Petroleum Resources, Effurun. Author

Keywords:

harmonics, vibration, SARS-CoV-2, constitutive carrier wave, parasitic wave, Host wave, Attenuation

Abstract

Dynamical quantities such as energy, pressure-gradient, velocity-profile, make up the biomechanics of the human system, and the attenuation induced by localized and non-localized infectious diseases causes a malfunction in these quantities. In this work, we establish that every living and non-living matter possess vibration, and vibration produces wave. Thus Man (host) and the virus or bacteria (parasite) have their own independent characteristic vibrations. We first superpose the parasitic wave on the host wave and the resultant constitutive carrier wave, is studied using Fourier transform method. We used the characteristic variants of the human and parasitic vibrations to determine the general influence of localized infectious diseases in the human viscoelastic system. It is shown in this work, that SARS and other related localized infectious diseases has an incubation period of about 9 to 30 days, depending on the nature and circumstances of the host wave under attack. This is indicated by several of the spectra, but most importantly the high peak resonance in the spectra of the total phase angle, displacements and velocities for lower and higher harmonics. Also, it is shown in this work that the effect of SARS or any form of localized human infectious diseases become more complicated after about 100 days of infection. 

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Published

2023-08-01

How to Cite

BIOMECHANICAL DYNAMICS OF SEVERE ACUTE RESPIRATORY SYNDROME (SARS) AND THE PREDICTION OF INBUILT RAISING MULTIPLIER λ. (2023). The Journals of the Nigerian Association of Mathematical Physics, 65, 179 – 190. https://nampjournals.org.ng/index.php/home/article/view/56

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