Viscoelastic and Viscoplastic Glucose Theory (VGT #141): Using Time-Domain, Space-Domain, and Frequency-Domain Energy Analysis Methods to Investigate the Energy Ratios of Contribution or Degree of Influence on Laboratory-Tested A1C Resulting from Finger-Pierced A1C and Sensor-Measured A1C over a Period from 5/8/2018 to 9/1/2022 Based on Math-Physical Medicine Method (No. 733)
Abstract
Gerald C Hsu
The author, who does not often rely on statistical resources, usually applies his developed math-physical medicine (MPM) methodology and tools to conduct his biomedical research work. When statistics is used, we can easily “tweak and extract the results that we want” to a certain degree; however, we cannot change the output results that are derived or proven through the basic laws of physics (engineering is an extension of physics or an applied physics). In fact, many observed and known phenomena of objects under the sun, including the biomedical field, indeed follow the basic laws of physics. We can only try to understand the phenomena and/or interpret the results using physics principles or engineering techniques, but we cannot tweak or twist them.