Gravitoelectromagnetism (GEM): A Group
... The formal analogy was studied by Einstein [7]. In 1915, Einstein’s general relativity provided an explanation of the excess perihelion precession of Mercury in terms of a small relativistic correction to the Newtonian gravitoelectric potential of the sun [8]. Soon afterwards, the gravitational infl ...
... The formal analogy was studied by Einstein [7]. In 1915, Einstein’s general relativity provided an explanation of the excess perihelion precession of Mercury in terms of a small relativistic correction to the Newtonian gravitoelectric potential of the sun [8]. Soon afterwards, the gravitational infl ...
Electrogravitic References
... The author has tested a setup by pulsing strong currents (opposite and equal) through multiple parallel conductors. The configuration of the conductors in this type of experiment will cancel the B-fields while still producing an EM field in accordance with Eq. 4.2. This is similar to an experiment b ...
... The author has tested a setup by pulsing strong currents (opposite and equal) through multiple parallel conductors. The configuration of the conductors in this type of experiment will cancel the B-fields while still producing an EM field in accordance with Eq. 4.2. This is similar to an experiment b ...
Space-Time Uncertainty and Noncommutativity in String Theory
... dilaton. In this sense, the string coupling can not be a fundamental constant which appears in the universal nonperturbative property of string theory. Thus in oder to take into account the Planck length for the space-time uncertainty relation, we have to put that information by hand. Now we shall s ...
... dilaton. In this sense, the string coupling can not be a fundamental constant which appears in the universal nonperturbative property of string theory. Thus in oder to take into account the Planck length for the space-time uncertainty relation, we have to put that information by hand. Now we shall s ...
ECE The Second Paradigm Shift Chapter Two
... spacetime, which has no torsion and no curvature and which is therefore known as the mathematical space of special relativity, which is Lorentz covariant but not generally covariant. In the most recent advances of ECE2, made in the latter half of 2016, the equations of fluid dynamics have also been ...
... spacetime, which has no torsion and no curvature and which is therefore known as the mathematical space of special relativity, which is Lorentz covariant but not generally covariant. In the most recent advances of ECE2, made in the latter half of 2016, the equations of fluid dynamics have also been ...
9. Best Explanation Examples
... Second, much of the literature on inference to the best explanation mentions examples in science but does not explore them fully. As a result, they draw on dangerously oversimplified caricatures and miss the real moral of the examples. Superficially, for example, big bang cosmology provides an accou ...
... Second, much of the literature on inference to the best explanation mentions examples in science but does not explore them fully. As a result, they draw on dangerously oversimplified caricatures and miss the real moral of the examples. Superficially, for example, big bang cosmology provides an accou ...
Paper 25 - Free-Energy Devices
... Editor's INTRODUCTION "Newton attempted to explain the force of gravity on two hypotheses: the existence of a medium, or ether, and action at a distance. The first hypothesis he rejected as being physically absurd, the second as contrary to reason. Newton had, therefore, no theory of gravity. Howev ...
... Editor's INTRODUCTION "Newton attempted to explain the force of gravity on two hypotheses: the existence of a medium, or ether, and action at a distance. The first hypothesis he rejected as being physically absurd, the second as contrary to reason. Newton had, therefore, no theory of gravity. Howev ...
Electrogravitics Systems - Reports On a New Propulsion Methodology
... Editor's INTRODUCTION "Newton attempted to explain the force of gravity on two hypotheses: the existence of a medium, or ether, and action at a distance. The first hypothesis he rejected as being physically absurd, the second as contrary to reason. Newton had, therefore, no theory of gravity. Howev ...
... Editor's INTRODUCTION "Newton attempted to explain the force of gravity on two hypotheses: the existence of a medium, or ether, and action at a distance. The first hypothesis he rejected as being physically absurd, the second as contrary to reason. Newton had, therefore, no theory of gravity. Howev ...
Effective Field Theories
... relativistic fields. The main object of this paper will be to give an overview of what effective field theories are and which techniques are used to construct an effective Lagrangian under given constraints. The whole work requires the knowledge of a first semester quantum field lecture e.g. quantum ...
... relativistic fields. The main object of this paper will be to give an overview of what effective field theories are and which techniques are used to construct an effective Lagrangian under given constraints. The whole work requires the knowledge of a first semester quantum field lecture e.g. quantum ...
Phys. Rev. Lett. 101, 043002 (2008)
... given by Eq. (4) distinguishes the relativistic domain in the upper left of the figure from the nonrelativistic domain in the lower right. If the vertical and horizontal arrows, starting from an arbitrary position in the nonrelativistic region, are followed in the directions ! ! 0 (with I constant) ...
... given by Eq. (4) distinguishes the relativistic domain in the upper left of the figure from the nonrelativistic domain in the lower right. If the vertical and horizontal arrows, starting from an arbitrary position in the nonrelativistic region, are followed in the directions ! ! 0 (with I constant) ...
On the Bel radiative gravitational fields Joan Josep Ferrando aez
... In section 5 we define the pure radiative, asymptotic pure radiative and generic radiative gravitational fields, and we show that these three different physical situations correspond to the three Bel radiative cases, namely, the Petrov-Bel types N, III and II, respectively. The asymptotic behavior o ...
... In section 5 we define the pure radiative, asymptotic pure radiative and generic radiative gravitational fields, and we show that these three different physical situations correspond to the three Bel radiative cases, namely, the Petrov-Bel types N, III and II, respectively. The asymptotic behavior o ...
The False Force - Gravity
... improbable that either gravity or dark energy are forces. If the force known as dark energy exists, it should thrive in areas of very low mass. In addition, this force would have to account for nearly 70% of the universe for this to be true. An alternative explanation of dark energy can be explained ...
... improbable that either gravity or dark energy are forces. If the force known as dark energy exists, it should thrive in areas of very low mass. In addition, this force would have to account for nearly 70% of the universe for this to be true. An alternative explanation of dark energy can be explained ...
Relativity and Gravitation
... determines a real r for any Q which satisfies (350). The motion takes place in a (coordinate) plane, a "distance" d = r cos Q from the plane of symmetry, and with constant angular velocity co = dcpjdt, where from (330), (28), and (30o), and subject to (350), 1/2 P rf=+r.* + A-^/ff g+ 3h J and ^W -|l ...
... determines a real r for any Q which satisfies (350). The motion takes place in a (coordinate) plane, a "distance" d = r cos Q from the plane of symmetry, and with constant angular velocity co = dcpjdt, where from (330), (28), and (30o), and subject to (350), 1/2 P rf=+r.* + A-^/ff g+ 3h J and ^W -|l ...
Weak-Field General Relativity Compared with
... geometry. While other forces of nature, such as electromagnetism and the short-range nuclear forces, are typically thought of as fields on spacetime, gravitational fields are usually analyzed as the curvature of spacetime itself. However, can we analyze general relativity in the familiar field-theor ...
... geometry. While other forces of nature, such as electromagnetism and the short-range nuclear forces, are typically thought of as fields on spacetime, gravitational fields are usually analyzed as the curvature of spacetime itself. However, can we analyze general relativity in the familiar field-theor ...
7. Low Energy Effective Actions
... we will need to develop new methods to solve it. Notice that strong coupling in α′ is hard, but the problem is at least well-defined in terms of the worldsheet path integral. This is qualitatively different to the question of strong coupling in gs for which, as discussed in Section 6.4.5, we’re real ...
... we will need to develop new methods to solve it. Notice that strong coupling in α′ is hard, but the problem is at least well-defined in terms of the worldsheet path integral. This is qualitatively different to the question of strong coupling in gs for which, as discussed in Section 6.4.5, we’re real ...
Wu_Y_H
... • In this work, we verify that Komar integral can yield the Newtonian quasi-local mass expression without choosing a specific 2-sphere or referring to spherical symmetry of the Newtonian potential, however, the Brown-York expression and Dougan-Mason mass can give Newtonian expression with ...
... • In this work, we verify that Komar integral can yield the Newtonian quasi-local mass expression without choosing a specific 2-sphere or referring to spherical symmetry of the Newtonian potential, however, the Brown-York expression and Dougan-Mason mass can give Newtonian expression with ...
Textbook`s physics versus history of physics: the case of Classical
... textbooks on theoretical physics written by great physicists or Nobel prize winners as Planck, Sommerfeld, Pauli, Landau and Lifchitz, and Feynman. But the textbooks on Classical Electromagnetic Theory (C.E.T.) offer puzzling features to the ones who identify textbook science with normal science, in ...
... textbooks on theoretical physics written by great physicists or Nobel prize winners as Planck, Sommerfeld, Pauli, Landau and Lifchitz, and Feynman. But the textbooks on Classical Electromagnetic Theory (C.E.T.) offer puzzling features to the ones who identify textbook science with normal science, in ...
