Evaluation of the Physicochemical, Spectral, Thermal and Behavioral Properties of Sodium Selenate: Influence of the Energy of Consciousness Healing Treatment

Sodium selenate is an inorganic nutraceutical/pharmaceutical compound used for the prevention and treatment of several diseases. The current research article was aimed to explore the effect of The Trivedi Effect® - Energy of Consciousness Healing Treatment on the physicochemical, spectral, thermal, and behavioral properties of sodium selenate using PXRD, PSD, FT-IR, UV-vis, TGA, and DSC analysis. Sodium selenate was divided into two parts – one part was control, while another part was The Trivedi Effect® Treated sample which was received The Trivedi Effect® remotely by twenty renowned Biofield Energy Healers. A significant alteration of the crystallite size of the treated sample was observed in the range of -42.87% to 39.99% compared to the control sample. Consequently, the average crystallite size was significantly enhanced in the treated sample by 5.07% compared with the control sample. The particle size distribution of the treated sample at d10, d50, and d90 values were significantly reduced by 7.68%, 9.49%, and 4.08%, respectively compared with the control sample. Subsequently, the surface area of the treated sample was significantly increased by 8.16% compared with the control sample. The control and treated FT-IR spectra exhibited the sharp and strong vibration bands at 889 cm-1 and 888 cm-1, respectively for Se=O stretching. The control and treated samples displayed the maximum absorbance at 204.9 nm and 204.5 nm, respectively. A significant reduction of total weight loss by 6.11% in the treated sample indicated the improvement of the thermal stability of the treated sample compared with the control sample. The vaporization temperature of the treated sample (95.68°C) was higher with a significant reduced latent heat of vaporization by 60.80% compared to the control sample (95.29°C). Thus, The Trivedi Effect® - Energy of Consciousness Healing Treatment might produce a new polymorphic form of sodium selenate which would be more soluble, dissolution rate, bioavailable, and thermally stable compared with the untreated sample. The Trivedi Effect® treated sodium selenate would be very suitable to design improved nutraceutical and pharmaceutical formulations that might provide better therapeutic response against several diseases such as stress, aging, inflammatory diseases, immunological disorders, infectious diseases, cancer, etc. Source: https://www.trivedieffect.com/science/evaluation-of-the-physicochemical-spectral-thermal-and-behavioral-properties-of-sodium-selenate-influence-of-the-energy-of-consciousness-healing-treatment http://www.sciencepublishinggroup.com/journal/paperinfo?journalid=398&doi=10.11648/j.ajqcms.20170101.1

LC-MS and NMR Based Structural Characterization and Isotopic Abundance Ratio Analysis of Magnesium Gluconate Treated with the Consciousness Energy Healing

Magnesium gluconate is widely used pharmaceutical/nutraceutical compound for the prevention and treatment of magnesium deficiency diseases. The present study was designed to explore the effect of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on magnesium gluconate for the change in the structural properties and isotopic abundance ratio (PM+1/PM and PM+2/PM) using LC-MS and NMR spectroscopy. Magnesium gluconate was divided into two parts – one part was control, and another part was treated with The Trivedi Effect® - Energy of Consciousness Healing Treatment remotely by twenty renowned Biofield Energy Healers and defined as The Trivedi Effect® treated sample. The LC-MS analysis of both the control and Biofield Energy Treated samples indicated the presence of mass of the protonated magnesium gluconate at m/z 415 at the retention time of 1.52 min and fragmentation pattern of both samples were almost identical. The relative peak intensities of the fragment ions were significantly altered in the treated sample compared to the control sample. The proton and carbon signals for CH, CH2 and CO groups in the proton and carbon NMR spectra of the control and treated samples were found same. The percentage change in the isotopic abundance ratio of PM+1/PM (2H/1H or 13C/12C or 17O/16O or 25Mg/24Mg) was significantly decreased in the treated sample by 48.87% compared to the control sample. Subsequently, the isotopic abundance ratio of PM+2/PM (18O/16O or 26Mg/24Mg) in the treated sample was significantly increased by 29.18% compared with the control sample. In summary, 13C, 2H, 17O, and 25Mg contributions from (C12H23MgO14)+ to m/z 416; 18O and 26Mg contributions from (C12H23MgO14)+ to m/z 417 in the treated sample were significantly altered compared with the control sample. Thus, The Trivedi Effect® Treated magnesium gluconate might be helpful to design the novel potent enzyme inhibitors using its kinetic isotope effects. Consequently, The Trivedi Effect® Treated magnesium gluconate would be valuable for designing better pharmaceutical and/or nutraceutical formulations through its altered physicochemical and thermal properties, which might be providing better therapeutic response against various diseases such as diabetes mellitus, allergy, aging, inflammatory diseases, immunological disorders, and other chronic infections. https://www.trivedieffect.com/science/lc-ms-and-nmr-based-structural-characterization-and-isotopic-abundance-ratio-analysis-of-magnesium-gluconate-treated-with-the-consciousness-energy-healing http://www.sciencepublishinggroup.com/journal/paperinfo?journalid=216&paperId=1002165

Étude du bruit ferromagnétique en fonction de la nature des blocages des parois de Bloch

The ferromagnetic noise is generated mainly by the movement of the Bloch's walls. These movements depend of the structure defects, such as dislocations and dislocation cells. Using a model based on the Gram-Charlier's distribution law, we show that the noise comes from two different origins and that each of them is bounded with the nature of the interaction defect-wall.Le bruit ferromagnétique est engendré principalement par le mouvement des parois de Bloch. Ces mouvements sont fonction des défauts de structure, notamment des dislocations et de leur arrangement. A l'aide d'un modèle fondé sur les fonctions de distribution dite de Gram-Charlier, nous montrons que le bruit est produit par deux sources indépendantes et que chacune d'elles est liée à un type d'interaction paroi-défaut

Étude du bruit ferromagnétique en fonction de la nature des blocages des parois de Bloch

Le bruit ferromagnétique est engendré principalement par le mouvement des parois de Bloch. Ces mouvements sont fonction des défauts de structure, notamment des dislocations et de leur arrangement. A l'aide d'un modèle fondé sur les fonctions de distribution dite de Gram-Charlier, nous montrons que le bruit est produit par deux sources indépendantes et que chacune d'elles est liée à un type d'interaction paroi-défaut

RELATION BETWEEN MECHANICAL BARKHAUSEN NOISE AND MAGNETOMECHANICAL INTERNAL FRICTION

The mechanical Barkhausen noise (MBN) induced by torsional vibration (80 Hz) was measured for Copt alloy. The shear strain hysteresis loop and the frequency spectrum were analyzed. The amplitude dependence of MBN was discussed and compared with the amplitude dependence of magnetomechanical damping. The maximal intensity of the MBN was found at the shear strain value equal to vibration amplitudes at which the internal friction maximum appears. At the high strain values additionally the stress induced magnetical Barkhausen noise was detected

RELATION BETWEEN MAGNETOMECHANICAL INTERNAL FRICTION AND BARKHAUSEN NOISE IN COLD WORKED CoPt ALLOY

Le bruit Barkhausen (BN) a été mesuré sur des éprouvettes de CoPt désordonné. Les mesures ont été effectuées sous contrainte (contrainte maximum de 480 MPa) et après suppression de la contrainte. Le BN après suppression de la contrainte est comparé avec le frottement intérieur magnétomécanique (MIF) des éprouvettes qui ont été déformées plastiquement en torsion de 0,5 %. Le BN et le MIF ont une dépendence identique vis-à-vis de la contrainte appliquée.The Barkhaussen noise (BN) was measured for stressed (up to 480 MPa) and unstressed sample of disordered CoPt alloy. The BN of unstressed sample is compared with magnetomechanical internal friction (MIF) of CoPt sample which was strained up to 0.5 % by torsion. It was proved that BN and MIF have the similar dependence on the applied stress