Materials Science

Spectroscopic and Calorimetric Evaluation of the Consciousness Energy Healing Treated Lead

Written by Trivedi Effect | Nov 3, 2018 4:00:00 AM

Journal: Global Journal of Environmental Science and Technology PDF  

Published: November 3rd, 2018 Volume: 6 Issue: 3 Pages: 548-547

ISSN: 2360-7955

Authors: Dahryn Trivedi, Mahendra Kumar Trivedi, Alice Branton, Gopal Nayak, Snehasis Jana

 

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Abstract

Lead metal is used by humans since form prehistoric period for cosmetics, contraceptive, ornaments, glazes, glasses, enamels, writing material, currency, construction, lead-acid battery, etc. The study objective involves the spectroscopic and calorimetric evaluation of the Trivedi Effect®-Consciousness Energy Healing Treated lead powder sample using PXRD, PSA, and DSC analysis. The lead powder sample was divided into control and treated parts. The control sample did not expose to the Biofield Energy Treatment; however, the treated part of the lead sample received the Consciousness Energy Healing Treatment remotely by a renowned Biofield Energy Healer, Dahryn Trivedi. The particle size values of the Dahryn’s Biofield Energy Treated lead powder sample were significantly increased by 3.05%(d10), 9.5%(d50), 13.34%(d90), and 11.11%{D(4,3)}; thus, the specific surface area was significantly decreased by 6.25% compared with the control sample. The PXRD peak intensities and crystallite sizes of the treated lead powder sample were significantly altered ranging from -16.09% to 104.65% and -36.56% to 15.79%, respectively; whereas the average crystallite size was increased by 4.62% compared with the control sample. The latent heat of fusion was significantly increased by 6.92% in the treated lead powder sample compared with the control sample. The Trivedi Effect®-Consciousness Energy Healing Treatment might be responsible for the generation of a new polymorphic form of lead which may show better powder flowability and thermally more stable compared with the untreated sample. Therefore, the Biofield Energy Treated lead powder would be very helpful to reduce the lead poisoning of the people long-term exposer with the industries manufacturing pipe, paint, food, mining, plastic, glass, chemical, and alloys. Moreover, the improved thermal stability of the treated lead powder would be useful for the metal industry

Conclusion

The Trivedi Effect®-Consciousness Energy Healing Treatment showed a significant impact on the particle size, surface area, peak intensities, crystallite size, and thermal properties of the lead powder sample. The particle size values of the Dahryn’s Biofield Energy Treated lead powder sample were significantly increased by 3.05%, 9.5%,
13.34%, and 11.11% at d10,d50, d90, and D(4,3), respectively compared to the control sample. Therefore, the specific surface area of Biofield Energy Treated lead was significantly decreased by 6.25% compared with the control sample. The PXRD diffractograms of the control and Biofield Energy Treated lead powder sample showed sharp and intense peaks indicated that both the samples were crystalline. The peak intensities of the Biofield Energy Treated lead powder sample was significantly altered ranging from -16.09% to 104.65% compared with the control sample. Similarly, the crystallite sizes of the Biofield Energy Treated lead sample were significantly altered ranging from - 36.56% to 15.79% compared to the control sample. Overall, the average crystallite size of the treated lead powder sample was significantly increased by 4.62% compared with the control sample. The ?Hfusion was significantly increased by 6.92% in the treated lead powder sample compared with the control sample. The Trivedi Effect® - Consciousness Energy Healing Treatment might be responsible for the generation of a new polymorphic form of lead which may show better powder flowability and thermal stability compared with the untreated sample. Therefore, the Biofield Energy Treated lead powder would be very helpful to reduce the lead poisoning of the people long term associated with the industries manufacturing pipe, paint, food, mining, plastic, glass, chemical, and metal alloys. Moreover, the improved thermal stability of the treated lead powder would be useful for the metal industry.