Biofield Energy Signals, Energy Transmission and Neutrinos
Mahendra Kumar Trivedi,
T. R. Rama Mohan
Issue:
Volume 5, Issue 6, November 2016
Pages:
172-176
Received:
28 September 2016
Accepted:
11 October 2016
Published:
1 November 2016
Abstract: There has been significant data published in peer-reviewed scientific journals about Mr. Mahendra Kumar Trivedi exercising the biofield energy to change the behaviour and characteristics of living organisms including soil, seeds, plants, trees, animals, microbes, and humans, along with non-living materials including metals, ceramics, polymers, chemicals, pharmaceutical compounds and nutraceuticals, etc. This effect of Mr. Trivedi’s biofield energy on living beings and non-living materials is referred to as The Trivedi Effect ®. The changes are attributed to changes at the atomic level and the subatomic level. Changes in atomic/molecular weights are postulated to the changes in atomic mass and atomic charge through possible mediation of neutrinos. The recent discovery of neutrino oscillations seems to give credence to our postulates. This paper discusses briefly about the neutrinos and some of Mr. Trivedi’s results and attempts to link these to biofield energy and associated signal transmissions.
Abstract: There has been significant data published in peer-reviewed scientific journals about Mr. Mahendra Kumar Trivedi exercising the biofield energy to change the behaviour and characteristics of living organisms including soil, seeds, plants, trees, animals, microbes, and humans, along with non-living materials including metals, ceramics, polymers, chem...
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An Advanced Physics of Superfluidity and Superconductivity
Gilbert A. Ibitola,
Olanrewaju Ajanaku,
Lawrence O. Imafidon
Issue:
Volume 5, Issue 6, November 2016
Pages:
177-183
Received:
24 October 2016
Accepted:
7 November 2016
Published:
5 December 2016
Abstract: This paper presents an advanced Physics of superfluidity and superconductivity. We know from Quantum Mechanics that there are two types of particles, bosons and fermions. Single states can be occupied by any number of bosons while for fermions a single state can be occupied at most by one fermion. The charged boson system is found to exhibit superfluidity: the gauge-invariant Lagrangian, coupling between the bosons and the electromagnetic gauge field. It is observed that current conservation puts constraints on current correlation. Current correlation functions and electromagnetic responses are then determined for superfluids and metals. The response function in a metallic conductor is used in obtaining its several parameters which include conductivity, dielectric constant, polarization, magnetic moment density and magnetic susceptibility. The London equation is then deduced for superconductors.
Abstract: This paper presents an advanced Physics of superfluidity and superconductivity. We know from Quantum Mechanics that there are two types of particles, bosons and fermions. Single states can be occupied by any number of bosons while for fermions a single state can be occupied at most by one fermion. The charged boson system is found to exhibit superf...
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On Atom and Electron Based on Protons (p) and Neutrons (n) Pairs
Issue:
Volume 5, Issue 6, November 2016
Pages:
184-187
Received:
18 June 2016
Accepted:
21 July 2016
Published:
6 January 2017
Abstract: The nuclear particles are formed by p(protons) -n(neutrons) and n(neutrons) -p(protons) pairs. The nuclear particles move in accordance with the law of nuclear particle tracks arrangement and the sub layer arrangement regular, which determines the distribution and movement of electron, and the nature of elements. The energy of electromagnetic, pressure, temperature only affects the nuclear particles, in which, the electromagnetic energy affects the protons, the pressure and temperature affect the neutron, but not electron. Following with the energy balance principle of nuclear particles and the electron, and the nuclear particles grain the energy, adjusting by the electron of distribution and movement to be balance, thereby maintaining the stability of atom.
Abstract: The nuclear particles are formed by p(protons) -n(neutrons) and n(neutrons) -p(protons) pairs. The nuclear particles move in accordance with the law of nuclear particle tracks arrangement and the sub layer arrangement regular, which determines the distribution and movement of electron, and the nature of elements. The energy of electromagnetic, pres...
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