Hyperbolic Medicine: General and Local Hyperbolic Curves on Earth, Influencing Human Physiology
Jesús M. González-González
Abstract
The objective of this work is to study the hyperbolic space-time curves that we perceive in our daily lives through images obtained in different geographical locations on Earth. A bibliographic review of scientific works has been made on hyperbolic curves in medicine, electromagnetic fields, circadian rhythms, and space-time perpendicular to the movement of an organ. On the internet, images in conical perspective have been selected, of cities located at different longitudes and latitudes within the geography of the Earth. They have tried to identify hyperbolic space-time curves. They have then been compared with the hyperbolic curves of the Earth’s magnetic field. Finally, we determine its relationship with the hyperbolic curves of human physiology. We have as conclusions: 1. Human vision is hyperbolic because the space in which we live is deformed by “general hyperbolic curves” that exist at any longitude and latitude of the earth’s geography. 2. The lines of force of the Earth’s magnetic field are hyperbolas that follow “local hyperbolic curves” since they can vary in intensity and even reverse their polarity over time. 3. In the physiology of the human body there are hyperbolic curves that are similar to the lines of force of a magnet and the magnetic field of the Earth. Human physiology can be conditioned by general hyperbolic curves and by local hyperbolic curves. There is an adaptation to that hyperbolic deformation of the space in which we live.
Keywords:
synchronization; hyperbolic; medicine; space; time; magnetic; physiology; human; relativity
Cite This Article
González, J. M. G. (2021). Hyperbolic Medicine: General and Local Hyperbolic Curves on Earth, Influencing Human Physiology. International Journal of Scientific Advances (IJSCIA), Volume 2| Issue 4: Jul-Aug 2021, Pages 630-635 , URL: https://www.ijscia.com/wp-content/uploads/2021/08/Volume2-Issue4-Jul-Aug-No.140-630-635.pdf
Volume 2 | Issue 4: Jul-Aug 2021