How to Find Energy Vortex: A Comprehensive Guide for Physics Students

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Summary

Finding an energy vortex involves identifying potential sites associated with unique rock formations or natural landscapes and using measurable and quantifiable data points to confirm the presence of concentrated spiritual energy. This comprehensive guide for physics students delves into the scientific methods and principles that can be applied to detect and measure these phenomena, including the use of a cornnet microsystem tool, the point-vortex model, and the analysis of energy transfer and vortex structures in incompressible flows.

Identifying Potential Energy Vortex Sites

how to find energy vortex

Energy vortexes are often associated with unique rock formations or natural landscapes that are believed to have a higher concentration of spiritual energy. To find a potential energy vortex site, you should look for the following characteristics:

  1. Unique Rock Formations: Energy vortexes are frequently found in areas with unusual rock formations, such as spirals, swirls, or other intricate patterns. These formations may be the result of geological processes that have concentrated spiritual energy in the area.

  2. Natural Landscapes: Energy vortexes can also be found in natural landscapes, such as canyons, valleys, or hilltops. These areas may have a unique energy signature that can be detected and measured.

  3. Positive and Rejuvenating Feelings: Individuals who visit potential energy vortex sites may report feeling a sense of positive energy, relaxation, or rejuvenation. This subjective experience can be a useful indicator of the presence of a vortex.

Measuring Energy Vortex Characteristics

Once a potential energy vortex site has been identified, there are several measurable and quantifiable data points that can be used to confirm the presence of concentrated spiritual energy. These methods include:

Cornnet Microsystem Tool

One method for detecting energy vortexes involves using a cornnet microsystem tool to measure the electromagnetic and electric energy of the vortex. This tool is held at the belly button, and readings are taken at a control point (away from water and electricity on dirt) and within the vortex itself. The theory is that human beings are antennas and will detect higher numbers in a vortex than at a control point for the MHz grounding effect. Additionally, lower numbers are expected for the electromagnetic frequency (EMF) at the control point, while higher numbers are expected within the vortex.

The cornnet microsystem tool measures the following parameters:

  1. Electromagnetic Frequency (EMF): The EMF reading is expected to be lower at the control point and higher within the vortex.
  2. Electrical Energy: The electrical energy reading is expected to be higher within the vortex compared to the control point.
  3. MHz Grounding Effect: The MHz grounding effect, which is a measure of the human body’s ability to ground electromagnetic energy, is expected to be higher within the vortex.

By comparing the readings at the control point and within the vortex, you can determine the presence and strength of the energy vortex.

Vortex Core Structure Analysis

Another method for detecting energy vortexes involves analyzing the vortex core structure using the point-vortex model from quantum physics. This model predicts that the kinetic-energy spectrum of vortex distributions follows a power law, which can be used to identify the presence of vortex structures.

The steps to analyze the vortex core structure are as follows:

  1. Sampling Vortex Positions: Sample the radial distance of each vortex from the coordinate origin according to a power-law probability distribution, and assign each vortex a randomly chosen, uniformly distributed angle.
  2. Calculating Cartesian Coordinates: Use the sampled vortex positions to calculate the Cartesian coordinates for each vortex.
  3. Computing Kinetic-Energy Spectrum: Compute the kinetic-energy spectrum by averaging over multiple samples of vortex position data.

The kinetic-energy spectrum can then be analyzed to determine the presence and characteristics of the vortex structure.

Energy Transfer and Vortex Structures in Incompressible Flows

Recent research in fluid dynamics has focused on the energy transfer and vortex structures in incompressible flows. By filtering the velocity field in bands of wavenumbers distributed logarithmically, the energy transfer in Fourier space can be studied, and the energy cascade in real space can be visualized.

In a statistically steady homogeneous isotropic turbulent (HIT) flow at a moderate Reynolds number, numerical results have shown that there is no significant correlation between regions of intense energy transfers and vorticity or strain, filtered in corresponding wavenumber bands. However, in transient turbulent flows obtained from the interaction between two antiparallel vortex tubes, a qualitatively simpler organization of the intense structures and energy transfer has been observed.

By imposing a structure at large scales consisting of antiparallel vortex tubes in a statistically steady flow, a picture qualitatively similar to what was observed for the transient flow has been obtained, but the energy transfer statistics do not reproduce the type of triadic interactions seen in HIT. These results indicate that the specific properties of the large-scale vortical structures affect the way energy is transferred, and may not be fully representative of HIT.

Conclusion

Finding an energy vortex involves a combination of identifying potential sites and using scientific methods to measure and quantify the presence of concentrated spiritual energy. The cornnet microsystem tool, the point-vortex model, and the analysis of energy transfer and vortex structures in incompressible flows are all valuable tools that can be used to detect and characterize energy vortexes. By applying these techniques, physics students can gain a deeper understanding of these fascinating phenomena and their underlying principles.

References

  1. Finding Your Vortex | PKD Foundation. https://pkdcure.org/finding-your-vortex/
  2. Energy Spectra of Vortex Distributions in Two-Dimensional Quantum Turbulence. https://journals.aps.org/prx/pdf/10.1103/PhysRevX.2.041001
  3. Energy transfer and vortex structures: visualizing the incompressible Euler equations. https://iopscience.iop.org/article/10.1088/1367-2630/acffeb
  4. Measuring the “Energy” From Energy Vortexes – YouTube. https://www.youtube.com/watch?v=JYubdaepuqM
  5. AskNature. https://asknature.org/strategy/body