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<p>Jesus,</p>
<p>The hyperlinkfor the paper is http://dx.doi.org/10.4172/2090-0902.1000151</p>
<p>Any questions, please ask.</p>
<p>Cheers</p>
<p>Mike</p>
<p>On 06.02.2017 15:30, Jesus Sanchez wrote:</p>
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<div class="gmail_quote">Dear Mike,</div>
<div class="gmail_quote">Thanks for your answer. Do you have any paper/bibliography regarding that? The only dimensionless G I have found, is the parameter αG, the gravitational coupling constant (Gme2/hc). This is not exactly G, as it has the mass of the electron included.</div>
<div class="gmail_quote">What the papers attached (Silva's and mine) deduct, is an equation that relates G with the fine structure constant αs (that depends on e, h, c and <span style="font-family: calibri,sans-serif; font-size: 11pt;">ε0). </span>These are the first papers I have found, that relate the gravitational G with solely electromagnetic parameters with success.<span style="font-family: calibri,sans-serif; font-size: 11pt;"> </span></div>
<div class="gmail_quote">G = [(4π2 αs2 ħc) ∕ mp2] exp[ παs ∕ (2√2) – 1 ∕ (√2αs)]=6,67408 ×10− 11 m3 k g− 1 s− 2</div>
<div class="gmail_quote">Thanks and best regards,</div>
<div class="gmail_quote">Jesús Sánchez<br /><br /> ----------------------------------------------------------------------<br /><br /> Message: 1<br /> Date: Mon, 06 Feb 2017 08:50:30 +0000<br /> From: <a href="mailto:mikelawr@freenetname.co.uk">mikelawr@freenetname.co.uk</a><br /> To: <<a href="mailto:physics@tuks.nl">physics@tuks.nl</a>><br /> Subject: Re: [Physics] Citation of Calculation of the Gravitational<br /> Constant G Using Electromagnetic Parameters<br /> Message-ID: <<a href="mailto:10705ce79e5fdba004d69964301e36d3@freenetname.co.uk">10705ce79e5fdba004d69964301e36d3@freenetname.co.uk</a>><br /> Content-Type: text/plain; charset="utf-8"<br /><br /><br /><br /> Jesus,<br /><br /> If you use dimensional analysis, you will find that G is a<br /> dimensionless constant that can be eliminated from all equations by<br /> adjustment of SI units.<br /><br /> Cheers<br /><br /> Mike<br /><br /> On 04.02.2017 20:20,<br /><a href="mailto:jesus.sanchez.bilbao@gmail.com">jesus.sanchez.bilbao@gmail.com</a> wrote:<br /><br /> > Dear Doctors,<br /> ><br /> > I inform<br /> that my paper "Calculation of gravitational constant G using<br /> electromagnetic parameters" (email below) has been cited in the attached<br /> publication:<br /> ><br /> > "Links of Gravity with Electromagnetic and Weak<br /> Couplings at Low Energies" by P. R. Silva (Universidade Federal de Minas<br /> Gerais).<br /> ><br /> > <a href="http://rxiv.org/abs/1701.0613">http://rxiv.org/abs/1701.0613</a> [1]<br /> ><br /> ><br /><a href="https://www.researchgate.net/publication/312897107_Links_of_Gravity_with_Electromagnetic_and_Weak_Couplings_at_Low_Energies">https://www.researchgate.net/publication/312897107_Links_of_Gravity_with_Electromagnetic_and_Weak_Couplings_at_Low_Energies</a><br /> [2]<br /> ><br /> > In this publication it can be read in page 2 the following:<br /><br /> ><br /> > "This paper is largely inspired in a previous one published by<br /> Jes?s S?nchez<br /> ><br /> > [2], and entitled: "Calculation of the gravitational<br /> constant G using<br /> ><br /> > electromagnetic parameters". The results obtained<br /> in section 2, reproduces<br /> ><br /> > S?nchez result [2], but we have used an<br /> alternative path as a means to get<br /> ><br /> > it."<br /> ><br /> > So in the attached<br /> paper, it is obtained the same result as equation for G (obtained in my<br /> paper), but using a different method.<br /> ><br /> > Thanks and best regards,<br /> ><br /><br /> > Jes?s S?nchez<br /> ><br /> > Enviado desde Correo [3] para Windows 10<br /> ><br /> ><br /> DE: <a href="mailto:jesus.sanchez.bilbao@gmail.com">jesus.sanchez.bilbao@gmail.com</a> [4]<br /> > ENVIADO: viernes, 30 de<br /> diciembre de 2016 10:39<br /> > PARA: <a href="mailto:physics@tuks.nl">physics@tuks.nl</a> [5]<br /> > ASUNTO:<br /> Calculation of the Gravitational Constant G Using<br /> ElectromagneticParameters<br /> ><br /> > Dear all,<br /> ><br /> > I am glad to inform you<br /> about the publication of the paper "Calculation of the Gravitational<br /> Constant G Using Electromagnetic Parameters" . I hope you enjoy it!<br /> Abstract and link to the journal below.<br /> ><br /> > Thanks and best regards,<br /><br /> ><br /> > Jes?s S?nchez<br /> ><br /> ><br /><a href="http://www.scirp.org/Journal/PaperInformation.aspx?PaperID=73131">http://www.scirp.org/Journal/PaperInformation.aspx?PaperID=73131</a> [6]<br /> ><br /><br /> > ABSTRACT<br /> ><br /> > In this paper, we will derive the following formula<br /> for the value of the gravitational constant _G_: (1). This equation has<br /> only 0.81% error compared to the common accepted value [1]. The<br /> parameters in the equation are the following: the fine structure<br /> constant, _q_ the elementary charge, the mass of the electron, the<br /> permittivity of the free space, _e_ the exponential function and the<br /> relation between a circumference and its diameter. Values attached: [2],<br /> [1], [1], [1], [3], [4], (Planck constant) [1], (speed of light) [1]. As<br /> it can be checked, all of them are electromagnetic or mathematical<br /> constants and properties of the electron. No constant related to gravity<br /> has been used to arrive to this value. This formula has only 0.81% error<br /> numerically and has the correct units. And it is the output of this<br /> paper. To get to this formula, we will consider space as being composed<br /> by the particles that occupy it. These particles include mass particles<br /> and force carriers (as photons). The non-uniform distribution of these<br /> particles creates distortions in space. These distortions create the<br /> warping of space, making gravity appear as an emergent phenomenon.<br /> Having in mind these considerations for a special case (an isolated<br /> electron emitting photons) we get to this formula that validates the<br /> assumptions.<br /> ><br /> > KEYWORDS<br /> ><br /> > Quantum Gravity [7], Concept of Space<br /> [8], Gravitational Constant [9], Emergent Gravity [10], Size of a Photon<br /> [11]<br /> ><br /> > CITE THIS PAPER<br /> ><br /> > S?nchez, J. (2017) Calculation of the<br /> Gravitational Constant _G_ Using Electromagnetic Parameters. _Journal of<br /> High Energy Physics, Gravitation and Cosmology_, 3, 87-95. doi:<br /> 10.4236/jhepgc.2017.31012 [12].<br /> ><br /> > Enviado desde Correo [13] para<br /> Windows 10<br /><br /><br /><br /> Links:<br /> ------<br /> [1] <a href="http://rxiv.org/abs/1701.0613">http://rxiv.org/abs/1701.0613</a><br /> [2]<br /><a href="https://www.researchgate.net/publication/312897107_Links_of_Gravity_with_Electromagnetic_and_Weak_Couplings_at_Low_Energies">https://www.researchgate.net/publication/312897107_Links_of_Gravity_with_Electromagnetic_and_Weak_Couplings_at_Low_Energies</a><br /> [3]<br /><a href="https://go.microsoft.com/fwlink/?LinkId=550986">https://go.microsoft.com/fwlink/?LinkId=550986</a><br /> [4]<br /> mailto:<a href="mailto:jesus.sanchez.bilbao@gmail.com">jesus.sanchez.bilbao@gmail.com</a><br /> [5] mailto:<a href="mailto:physics@tuks.nl">physics@tuks.nl</a><br /> [6]<br /><a href="http://www.scirp.org/Journal/PaperInformation.aspx?PaperID=73131">http://www.scirp.org/Journal/PaperInformation.aspx?PaperID=73131</a><br /> [7]<br /><a href="http://www.scirp.org/Journal/articles.aspx?searchCode=Quantum+Gravity&searchField=keyword&page=1&SKID=0">http://www.scirp.org/Journal/articles.aspx?searchCode=Quantum+Gravity&searchField=keyword&page=1&SKID=0</a><br /> [8]<br /><a href="http://www.scirp.org/Journal/articles.aspx?searchCode=+Concept+of+Space&searchField=keyword&page=1&SKID=0">http://www.scirp.org/Journal/articles.aspx?searchCode=+Concept+of+Space&searchField=keyword&page=1&SKID=0</a><br /> [9]<br /><a href="http://www.scirp.org/Journal/articles.aspx?searchCode=+Gravitational+Constant&searchField=keyword&page=1&SKID=0">http://www.scirp.org/Journal/articles.aspx?searchCode=+Gravitational+Constant&searchField=keyword&page=1&SKID=0</a><br /> [10]<br /><a href="http://www.scirp.org/Journal/articles.aspx?searchCode=+Emergent+Gravity&searchField=keyword&page=1&SKID=0">http://www.scirp.org/Journal/articles.aspx?searchCode=+Emergent+Gravity&searchField=keyword&page=1&SKID=0</a><br /> [11]<br /><a href="http://www.scirp.org/Journal/articles.aspx?searchCode=+Size+of+a+Photon&searchField=keyword&page=1&SKID=0">http://www.scirp.org/Journal/articles.aspx?searchCode=+Size+of+a+Photon&searchField=keyword&page=1&SKID=0</a><br /> [12]<br /><a href="http://dx.doi.org/10.4236/jhepgc.2017.31012">http://dx.doi.org/10.4236/jhepgc.2017.31012</a><br /> [13]<br /><a href="https://go.microsoft.com/fwlink/?LinkId=550986">https://go.microsoft.com/fwlink/?LinkId=550986</a><br /> -------------- next part --------------<br /> An HTML attachment was scrubbed...<br /> URL: <<a 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