The Impact of T-Consciousness Fields on Three-Dimensional Monte Carlo Calculations (Volume)
Main Article Content
Keywords
T-Consciousness Fields, Random Numbers, Monte Carlo, Volume Calculation, Uncertainty
Abstract
In the previous computational studies of this issue, the impact of T-Consciousness Fields (TCFs) on the generation of random numbers and Monte Carlo calculations in one- and two-dimensions have been investigated. Based on the results obtained, it was expected that generating three sets of random numbers for calculating the volume of a rectangular prism (three-dimensional calculation) in this third phase of the studies would lead to a clearer response. In other words, the impact of the TCFs on the three sets of random numbers created a more significant effect on the output of the designed experiment. The results confirmed the initial hypothesis test, as the TCF2 exposure led to a meaningful reduction (p-value < 0.05) in the calculated distance from the analytical value (computational uncertainty) and increased the expected hits by 4% near the analytical value. The TCF2 exposure also reduced the entropy value of the distribution by 10%, with respect to the control. These responses to TCF2 are more significant in three-dimensional calculations than in two- or one-dimensional calculations.