ANOMALOUS ENVIRONMENTAL INFLUENCES ON IN VITRO ENZYME STUDIES Part 1: Some Faraday Cage & Multiple Vessel Effects

Abstract

In these papers, we experimentally explore the connection between a detector, which is a small vessel containing an in vitro enzyme-alkaline phosphatase (ALP), and its local environment via monitoring the ALP thermodynamic activity as the local environment is changed. Based on purely space-time (D-space) physics, there should be no change in ALP activity as the environment of the incubator/refrigerator is systematically altered. However, based on reciprocal spacetime (R-space/D-space) interactive physics, changes can be expected under appropriate conditions. Here we report on (a) the effects associated with having no Faraday cage vs. an empty Faraday cage made from 1, 2, 3, 4, 5 or 6 layers of copper screen located on the shelf beside the detector and (b) the same as (a) but with an ALP-solution vessel at various D-space locations in the Faraday Cage. Experimentally, we find statistically significant changes in ALP activity as the environment of the control vessel is systematically changed. The territory currently being explored to explain these results involves selecting an appropriate higher dimensional basespace for viewing nature.