Quantum Reversal of Soul Energy Fran De Aquino

Quantum Reversal of Soul Energy Fran De Aquino

Quantum Reversal of Soul Energy Fran de Aquino To cite this version: Fran de Aquino. Quantum Reversal of Soul Energy. 2012. hal-01129313 HAL Id: hal-01129313 https://hal.archives-ouvertes.fr/hal-01129313 Preprint submitted on 10 Mar 2015 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Quantum Reversal of Soul Energy Fran De Aquino Maranhao State University, Physics Department, S.Luis/MA, Brazil. Copyright © 2012 by Fran De Aquino. All Rights Reserved. In the last decades, the existence of the Soul has been seriously considered by Quantum Physics. It has been frequently described as a body of unknown energy coupled to human body by means of a mutual interaction. The Quantum Physics shows that energy is quantized, i.e., it has discrete values that are defined as energy levels. Thus, along the life of a person, the energy of its soul is characterized by several quantum levels of energy. Here, we show by means of application of specific electromagnetic radiations on the human body, that it is possible to revert the energy of the soul to previous energy levels. This process can have several therapeutic applications. Key words: Modified theories of gravity, Microwave fields effects, Therapeutic applications, Quantum information. PACS: 04.50.Kd, 87.50.S-,87.50.st, 03.67.-a. 1. Introduction Since long the Soul has remained an the quantum number n , ()n = 1,2,3,... [4]. element of strongly consideration by Thus, along the life of a person, the energy of Religion. Some authors claim that Religion is its Soul is characterized by several quantum the science of the Soul [1]. Others claim that levels of energy. Here, we show that, by Soul and Religion are related to evolution. means of application of specific Sir Julian Huxley, a leading evolutionary electromagnetic radiations on the human biologist, the first Director-General of body (its Soul), it is possible to revert the UNESCO and signatory to the Humanist energy of the Soul to previous energy levels. Manifesto II, wrote: “Human Soul and This process can have several therapeutic Religion are just the product of evolution” applications. [2]. This show how important the Soul is for the Religion. Philosophy also realizes the 2. Theory importance of the Soul. Plato, drawing on the words of his teacher Socrates, considered the From the quantization of gravity it Soul the essence of a person, being that follows that the imaginary gravitational mass which decides how we behave. As bodies mg (im) and the imaginary inertial mass mi0 (im) die, the Soul is continually reborn in are correlated by means of the following subsequent bodies. factor [5]: Nowadays, Quantum Physics and other branches of Science are seriously considering ⎧ ⎡ 2 ⎤⎫ the existence of the Soul. mg im ⎪ ⎛ Δp im ⎞ ⎪ χ =() =1 − 2⎢ 1 +⎜ ()⎟ −1⎥ () 1 It has been frequently described as a ⎨ ⎢ ⎜ ⎟ ⎥⎬ mi0() im ⎪ ⎝ mi0() im c⎠ ⎪ body of unknown energy coupled to human ⎩ ⎣⎢ ⎦⎥⎭ body by means of a mutual interaction. This type of energy from the viewpoint of Physics where m = − 2 m i is the imaginary has been considered as Imaginary Energy. i0()im 3 i0 The term imaginary are borrowed from inertial mass at rest of the particle and Mathematics (real and imaginary numbers) [3]. Δp()im = U ()im n r c= ( Ui) nr c is the variation Quantum Physics shows that energy is in the particle’s imaginary kinetic quantized, i.e., that it has discrete values that momentum; c is the speed of light. Thus, Eq. are defined as discrete energy levels that (1) can be rewritten as follows correspond to all positive integer values of 2 ⎧ ⎡ 2 ⎤⎫ If an imaginary lamina with thickness mg im ⎪ 3⎛ Un ⎞ ⎪ χ =() =1 − 2⎢ 1 + ⎜ r ⎟ −1⎥ () 2 equal toξ contains n imaginary ⎨ ⎜ 2 ⎟ ⎬ 3 mi0() im ⎢ 4⎝mi0 c ⎠ ⎥ molecules/m , then the number of molecules ⎩⎪ ⎣ ⎦⎭⎪ per unit area is nξ . Thus, if the When Δp is produced by the electromagnetic radiation with frequency absorption of a photon with wavelength λ , f incides on an area S of the lamina it i.e.,U= hf , Eq. (2) becomes reaches nSξ molecules. If it incides on the ⎧ ⎡ 2 ⎤⎫ mg() im ⎪ 3 ⎛ λ ⎞ ⎪ total area of the lamina, S f , then the total χ = =1 − 2⎢ 1 + ⎜ 0 ⎟ −1⎥ () 3 ⎨ ⎜ ⎟ ⎬ number of molecules reached by the mi0() im ⎢ 4 ⎝ λmod ⎠ ⎥ ⎩⎪ ⎣ ⎦⎭⎪ radiation is N= nS f ξ . The number of where λ0 = h mi0 c is the De Broglie molecules per unit volume, n , is given by wavelength for the particle with rest inertial mass (real) mi0 and λmod = λ nr . N ρ n = 0 ()7 From Electrodynamics we know that A when an electromagnetic wave with 26 frequency f and velocity c incides on a where N 0 =6.02 × 10 moleculess / kmole is material with relative permittivity ε , the Avogadro’s number; ρ is the matter r 3 relative magnetic permeability μ and density of the lamina (in kg/m ) and A is the r molar mass(kg/kmole). electrical conductivity σ , its velocity is When an electromagnetic wave incides reduced to v= c nr where nr is the index of on the lamina, it strikes N f front molecules, refraction of the material, given by [6] where Nf≅ ( n S f)φ m , φm is the “diameter” of the molecule. Thus, the electromagnetic c εr μ r ⎛ 2 ⎞ nr = = ⎜ 1+()σ ωε +1⎟ () 4 wave incides effectively on an area SNS= , v 2 ⎝ ⎠ f m 1 2 where Sm = 4 πφm is the cross section area of If σ >> ωε ,ω = 2πf , Eq. (4) reduces to one molecule. After these collisions, it μ σ carries out ncollisions with the other molecules n = r 5 r () (See Fig.2). 4πε0 f Thus, the wavelength of the incident radiation (See Fig. 1) becomes v c f λ4 π λ = = = = ()6 mod f n nμ f σ r r Imaginary molecule Sm Wave v = c v = c/nr Fig. 2 – Collisions inside the imaginary lamina. n Thus, the total number of collisions in the r λ = c/f volume Sξ is λmod = v/f = c/nr f Ncollisions= Nf + ncollisions = nS lφ m +() nS l ξ − n m S φ m = Fig. 1 – Modified Electromagnetic Wave. The wavelength of the electromagnetic wave can be =nm Sξ ()8 strongly reduced, but its frequency remains the same. 3 The power density, D , of the radiation on the considering that mi0() l=ρ () l Sαξ, the following lamina can be expressed by expression P P D = = ()9 ⎧ ⎡ 2 ⎤⎫ S NS m ⎡⎛ 3 2 2 ⎞ ⎤ f m g() l im ⎪ ⎢ 3 nl Sα S mφ m D 1 ⎥⎪ =⎨1 − 2 1 + ⎢⎜ ⎟ ⎥ −1⎬ () 16 We can express the total mean number m ⎢ 4 ⎜ ρcf 2 ⎟ λ ⎥ i0() l im ⎪ ⎣⎢⎝ ()l ⎠ mod⎦⎥ ⎪ ⎩ ⎣⎢ ⎦⎥⎭ of collisions in each molecule, n1 , by means of the following equation If the electrical conductivity of the lamina, n N σ ()l , is such thatσ ()l >> ωε , then the value of n = total photons collisions ()10 1 N λ is given by Eq. (6), i.e., h 4π Since in each collision a momentum λ is λ= λ = ()17 transferred to the molecule, then the total mod μf σ momentum transferred to the lamina will be Substitution of Eq. (17) into Eq. (16) gives Δp = nNhλ, i.e., Un c= n N n hλ = n N h λ ()1 r ( 1 ) r ()1 mod ⎧ ⎡ 6 2 4 4 2 ⎤⎫ mg() l im ⎪ 3n S Sφ μσ D ⎪ Therefore, in accordance with Eq. (2), we χ = =⎨1 − 2⎢ 1 + lα m m −1⎥⎬ () 18 m 16πρ2c 2 f 3 can write that i0() l im ⎩⎪ ⎣⎢ ⎦⎥⎭⎪ ⎧ 2 ⎫ The Soul has been frequently described m ⎡ ⎡ ⎤ ⎤ g() l im ⎪ ⎢ 3 λ0 ⎥⎪ as a body of unknown energy coupled to =⎨1 − 2 1 + ⎢()n1 N ⎥ −1 ⎬= m ⎢ 4 λ ⎥ human body by means of a mutual i0() l im ⎪ ⎣ ⎣ mod⎦ ⎦⎪ ⎩ ⎭ interaction. This type of energy from the ⎧ 2 ⎫ ⎡ ⎡ ⎤ ⎤ viewpoint of Physics, has been considered as ⎪ ⎢ 3 λ0 ⎥⎪ =⎨1 − 2 1 + ⎢ntotal photons Ncollisions ⎥ −1⎬ () 11 Imaginary Energy. The term imaginary is ⎢ 4⎣ λmod⎦ ⎥ ⎩⎪ ⎣ ⎦⎭⎪ borrowed from Mathematics (real and imaginary numbers) [3]. As imaginary Since Eq. (8) gives N= n Sξ , we get collisions l energy, the Soul can be now defined as an ⎛ P ⎞ imaginary body, made of imaginary particles n N = ⎜ ⎟ n Sξ 12 total photons collisions ⎜ 2 ⎟()(l ) each one them described by imaginaries ⎝ hf ⎠ wavefunctionsψ , by similarity to the real Substitution of Eq. (12) into Eq. (11) yields im bodies, which are made of real particles ⎧ 2 ⎫ m ⎡ ⎡ ⎤ ⎤ g() l im ⎪ ⎢ 3 ⎛ P ⎞ λ0 ⎥⎪ described in Quantum Mechanics by its real =⎨1 − 2 1 + ⎜ ⎟()nl Sξ −1⎬ () 13 ⎢ ⎢⎜ 2 ⎟ ⎥ ⎥ wavefunctionψ . The extension of the mi0() l im ⎪ 4⎣⎝hf ⎠ λmod⎦ ⎪ ⎩ ⎣ ⎦⎭ imaginary wavefunction to the relativistic Substitution of P given by Eq. (9) into Eq. form can be then made in a consistent way (13) gives with the Lorentz transformations equations of ⎧ ⎡ 2 ⎤⎫ the special theory of relativity [7, 8], m ⎡ NSD ⎛ ⎞ ⎤ g() l im ⎪ ⎢ 3 ⎛ f m ⎞ nSl ξ 1 ⎥⎪ =⎨1 − 2 1 + ⎢⎜ ⎟⎜ ⎟ ⎥ −1⎬ () 14 similarly to the real wavefunction [4]. In m ⎢ 4 ⎜ f 2 ⎟⎜m c⎟λ ⎥ i0() l im ⎪ ⎣⎢⎝ ⎠⎝ i0() l ⎠ mod⎦⎥ ⎪ addition, the Soul’s energy can be now ⎩ ⎣⎢ ⎦⎥⎭ expressed by the well-known Einstein’s 2 Substitution of Nf≅( n l S f)φ m and SNS= f m energy expression (E= mc ) extended to the into Eq.

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