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Books on the topic 'Electromagnetism and gravity'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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1

Petersen, Kristen. Understanding forces of nature: Gravity, electricity, and magnetism. New York: Cavendish Square Publishing, 2015.

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2

P, Muniain Javier, ed. Gauge fields, knots, and gravity. Singapore: World Scientific, 1994.

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3

Capozziello, Salvatore. Invariance principles and extended gravity: Theory and probes. Hauppauge, N.Y: Nova Science Publishers, 2009.

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4

The magnetic universe: The elusive traces of an invisible force. Baltimore: Johns Hopkins University Press, 2009.

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5

Spears, Morton F. CTG, capacitance theory of gravity. [Norwood, MA]: M.F. Spears, 1991.

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6

The new gravity: A new force, a new mass, a new acceleration : unifying gravity with light. Johnstown, PA: Salem Books, 1994.

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7

Dri͡ukov, V. M. Fizicheskoe modelirovanie ėlektromagnitnogo izluchenii͡a s primeneniem gravitat͡sii. Tula: Izdatelʹsko-poligraficheskoe predprii͡atie "Grif i K", 1997.

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8

Theoretical physics: Gravity, magnetic fields, and wave functions. Hauppauge, N.Y., USA: Nova Science Publisher, 2011.

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9

Chadaev, M. S. Gravimetrii︠a︡, magnitometrii︠a︡, geomorfologii︠a︡ i ikh parametricheskie svi︠a︡zi: Monografii︠a︡. Permʹ: Redakt︠s︡ionno-izdatelʹskiĭ otdel Permskogo gosudarstvennogo nat︠s︡ionalʹnogo issledovatelskogo universiteta, 2012.

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10

Abou-Taleb, A. A. A microwave model for investigating first and second order electromagnetic scattering from gravity water waves on the surface. Birmingham: University of Birmingham, 1985.

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11

Handbook of geophysics and archaeology. London, U.K: Equinox Pub., 2004.

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12

Griffiths, J. B. Colliding plane waves in general relativity. Oxford: Clarendon Press, 1991.

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13

The CHP Book of Amazing Experiments: You Can Do at Home (I Can Do That! Series). Niagra Falls, New York, USA: Hayes Publishing Ltd., 1985.

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14

Evans, Ronald. Greenglow: & the Search for Gravity Control. Troubador Publishing Limited, 2015.

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15

C, Krysac L., ed. Gravitational, electric, and magnetic forces: An anthology of current thought. New York: Rosen Pub. Group, 2006.

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16

Gravitational, Electric And Magnetic Forces: An Anthology Of Current Thought (Contemporary Discourse in the Field of Physics). Rosen Central, 2005.

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17

Forces In Nature: Understanding Gravitational, Electrical, And Magnetic Force (Library of Physics (Rosen Publishing Group).). Rosen Publishing Group, 2004.

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18

Mercati, Flavio. Cotton-Squared Theory. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198789475.003.0010.

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This chapter analyzes a non-viable theory of gravity based on a Jacobi-type action with a conformally invariant potential term based on the square of the Cotton tensor. This theory has striking similarities with Maxwell’s electromagnetism, of which it represents the generalization to spin 2, but unfortunately it is not dynamically consistent, leaving SD as the only viable spatially conformally invariant relational theory of gravity.
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19

Mashhoon, Bahram. Toward Nonlocal Gravitation. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198803805.003.0004.

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Is gravity nonlocal? Einstein interpreted the principle of equivalence of inertial and gravitational masses to mean that there exists a profound relationship between inertia and gravitation. Based on Einstein’s fundamental insight, it would seem natural to extend history dependence to the gravitational domain. However, it is not clear how to develop a nonlocal extension of Einstein’s local principle of equivalence. To go forward, we therefore choose an indirect approach based on a certain analogy with electromagnetism. In a material medium, the electromagnetic constitutive relations are nonlocal and this fact leads to the nonlocal electrodynamics of media. It turns out that general relativity can be formulated in a form that resembles the electrodynamics of media. Making the corresponding gravitational constitutive relations nonlocal would then lead to nonlocal GR. This indirect approach is adopted in the rest of this book.
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20

Holland, John H. 2. Complex physical systems (CPS). Oxford University Press, 2014. http://dx.doi.org/10.1093/actrade/9780199662548.003.0002.

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‘Complex physical systems’ considers the characteristics of complex physical systems (CPS), which are often geometric (specifically, lattice-like) arrays of elements, in which interactions typically depend only on effects propagated from nearest neighbors. The elements of a CPS follow fixed physical laws, usually expressed by differential equations—Newton’s laws of gravity and Maxwell’s laws of electromagnetism are cases in point. Neither the laws nor the elements change over time; only the positions of the elements change. CPS show several properties: self-organized criticality, self-similarity, scaling, and power laws. Examples of these properties—such as, snowflake curves, fractals, networks, dynamics, and symmetry-breaking—are discussed.
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21

Deruelle, Nathalie, and Jean-Philippe Uzan. The equivalence principle. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198786399.003.0041.

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This chapter recalls several relevant aspects of Newton’s theory of gravity, as well as Maxwell’s theory of electromagnetism, to describe the conceptual path that Albert Einstein followed in going from the theory of special relativity to general relativity. Looking at 1907 and beyond, the chapter shows that the ambition of Einstein was to construct a theory in which all reference frames (and therefore none) were privileged. Moreover, there were no longer any inertial forces, no ordering of Newton’s absolute space. Therefore, Einstein’s theory was one in which the laws of physics had the same form in all frames, inertial or not, so that no frame could be regarded as being privileged. In brief, he sought a theory of general relativity.
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22

Experimental results of Hooper's gravity-electromagnetic coupling concept. [Washington, DC]: National Aeronautics and Space Administration, 1995.

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23

Scott, Williamson Gary, and United States. National Aeronautics and Space Administration., eds. Experimental results of Hooper's gravity-electromagnetic coupling concept. [Washington, DC]: National Aeronautics and Space Administration, 1995.

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24

I, Pronin P., and Sardanashvili G. A, eds. Gravity, particles and space-time. Singapore: World Scientific, 1996.

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25

Dri͡ukov, V. M. Fizicheskoe modelirovanie ėlektromagnitnogo izluchenii͡a s primeneniem gravitat͡sii. Tula, 1998.

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26

Veryaskin, Alexey V. Gravity, Magnetic and Electromagnetic Gradiometry: Strategic Technologies in the 21st Century. IOP Concise Physics, 2018.

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27

Veryaskin, Alexey V. Gravity, Magnetic and Electromagnetic Gradiometry: Strategic Technologies in the 21st Century. IOP Concise Physics, 2018.

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28

Dell'Aversana, Paolo. Integrated Geophysical Models - Combining Rock Physics with Seismic, Electromagnetic and Gravity Data. EAGE Publications bv, 2014. http://dx.doi.org/10.3997/9789073834927.

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29

Ebook: Integrated Geophysical Models - Combining Rock Physics with Seismic, Electromagnetic and Gravity Data. EAGE Publications bv, 2014. http://dx.doi.org/10.3997/9789462820067.

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30

Zaitsev, Fedor, and Vladimir Bychkov. Mathematical modeling of electromag-netic and gravitational phenomena by the methodology of continuous media mechanics. LCC MAKS Press, 2021. http://dx.doi.org/10.29003/m2011.978-5-317-06604-8.

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The book of well-known Russian scientists systematically presents a new theoretical approach to studying nature's fundamental phenomena using the hypothesis of the physical vacuum, or the ether, as some environment in which all the processes develop. In the proposed studies, the ether is represented as some one-component continuous media that satisfies generally accepted conservation laws: of matter and momentum. From the appropriate two equations, a number of consequences are obtained to which a physical interpretation is given. For the first time, 150 years after studies of Faraday and Maxwell, it is shown that these single premises mathematically give basic physical laws established experimentally: the Maxwell equations, the Lorentz force, the Gauss theorem; the laws: Coulomb, Biot - Savard, Ampere, electromagnetic induction, Ohm, Joule - Lenz, Wiedemann - Franz, universal gravitation, and etc. Details of mechanisms of many processes, that seemed previously paradoxical, have been disclosed. A method of the model substantiation adopted in the mathematical modeling methodology allows to conclude that the presented mathematical model of the ether adequately describes electromagnetic and gravitational processes. Qualitative and quantitative analysis of hundreds of known and new experimental facts allows in the methodology of physics, as science summarizing the experiments data, to confirm a conclusion about the existence of the ether (physical vacuum). The content of the book is based on the works of authors done during the last fourteen years. Many results are published for the first time. The book is intended for specialists in the field of electrodynamics, electrical engineering, gravity and kinetics, as well as for graduate students and students, interested in the fundamental principles of these scientific directions. This book is unique in terms of the comprehensive consideration of the problem and the depth of its analysis.
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31

The CHP Book of Amazing Experiments: You Can Do at Home. Dh Audio, 1986.

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