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271	Relative Reality Steinberg, Gary 02 August 2002 (has links) No description available. Physics, General Special Relativity Visual appearance Aberration of light Doppler Effect
272	The Scientist as Philosopher Weinert, Friedel 12 January 2005 (has links) No / This paper examines how such fundamental notions as causality and determinism have undergone changes as a direct result of empirical discoveries. Although such notions are often regarded as metaphysical or a priori concepts, experimental discoveries at the beginning of this century¿radioactive decay, blackbody radiation and spontaneous emission-led to a direct questioning of the notions of causality and determinism. Experimental evidence suggests that these two notions must be separated. Causality and indeterminism are compatible with the behavior of quantum-mechanical systems. The argument also sheds some light on the Duhem-Quine thesis, since experimental results at the periphery of the conceptual scheme directly affect conceptions at the very core. Science ; Philosophy ; Causation ; Quantum theory ; Special theory of relativity ; Time
273	Motion of test particles under the influence of external forces in curved spacetime Sundström Curstedt, Johan, Nordmark, Ruben January 2024 (has links) While Newton’s law of gravity suffices for travelling nearby a planetary body, massive objects such as black holes require the more advanced theory of general relativity. To successfully fly a rocket in the vicinity of such an object, a first step is the description of test particle trajectories. In this report, the equations of motion for test particles affected by external forces are derived and used for simulations on a range of examples within the framework of general relativity. An application for these equations is found in the force required to counteract gravity, regardless of any non-radial motion around the black hole. Then, the equations of motion for a rocket test particle, which accelerates by expelling mass, are formulated for radial motion and used to find optimal mass conserving radial trajectories. General relativity Rocket Schwarzschild Force Physical Sciences Fysik
274	Relativistic mean-field theory applied to the study of neutron star properties Diener, Jacobus Petrus Willem 03 1900 (has links) Thesis (MSc (Physics))--Stellenbosch University, 2008. / Nuclear physics can be applied in various ways to the study of neutron stars. This thesis reports on one such application, where the relativistic mean-field approximation has been employed to calculate the equations of state of matter in the neutron star interior. In particular the equations of state of nuclear and neutron star matter of the NL3, PK1 and FSUGold parameter sets were derived. A survey of available literature on neutron stars is presented and we use the derived equations of state to reproduce the properties of saturated nuclear matter as well as the mass-radius relationship of a static, spherical symmetric neutron star. Results are compared to published values of the properties of saturated nuclear matter and to available observational data of the mass-radius relationship of neutron stars. Neutron stars Mean field theory Nuclear physics General relativity Dissertations -- Physics Theses -- Physics Relativity (Physics) Equations of state
275	Series Solutions of Polarized Gowdy Universes Brusaferro, Doniray 01 January 2017 (has links) Einstein's field equations are a system of ten partial differential equations. For a special class of spacetimes known as Gowdy spacetimes, the number of equations is reduced due to additional structure of two dimensional isometry groups with mutually orthogonal Killing vectors. In this thesis, we focus on a particular model of Gowdy spacetimes known as the polarized T3 model, and provide an explicit solution to Einstein's equations. Gowdy Gravity Differential Geometry Relativity Solution Analysis Cosmology, Relativity, and Gravity Geometry and Topology Partial Differential Equations Special Functions
276	Aplikace temporálních logik ve fyzice / Aplikace temporálních logik ve fyzice Švarný, Petr January 2011 (has links) This thesis presents an introduction to the three main fields that study time: physics, philosophy, and logics. A brief introduction to general relativity, thermodynamics and quantum physics is made. Also some of the basic ideas from the philosophy of time are explained and dualities connected to time are described, e.g. eternalism vs. presentism, determinism vs. indeterminism and the reality or unreality of time. As there is a huge number of temporal logics, only the main ideas that differentiate these logics from others are pointed out and some typical proofs are then shown. Special attention is then given to the relation between logics and physics, how the first can be used in the latter. Thereafter, Branching space-times and Branching continuation models are presented, which proved to be useful within quantum physics. Next, some basic terminology connected to general relativity and the A, P and T topologies are introduced . These are used together with the given models to investigate a possible combination.
277	Gravitational perturbations in plasmas and cosmology Forsberg, Mats January 2010 (has links) Gravitational perturbations can be in the form of scalars, vectors or tensors. This thesis focuses on the evolution of scalar perturbations in cosmology, and interactions between tensor perturbations, in the form of gravitational waves, and plasma waves. The gravitational waves studied in this thesis are assumed to have small amplitudes and wavelengths much shorter than the background length scale, allowing for the assumption of a flat background metric. Interactions between gravitational waves and plasmas are described by the Einstein-Maxwell-Vlasov, or the Einstein-Maxwell-fluid equations, depending on the level of detail required. Using such models, linear wave excitation of various waves by gravitational waves in astrophysical plasmas are studied, with a focus on resonance effects. Furthermore, the influence of strong magnetic field quantum electrodynamics, leading to detuning of the gravitational wave-electromagnetic wave resonances, is considered. Various nonlinear phenomena, including parametric excitation and wave steepening are also studied in different astrophysical settings. In cosmology the evolution of gravitational perturbations are of interest in processes such as structure formation and generation of large scale magnetic fields. Here, the growth of density perturbations in Kantowski-Sachs cosmologies with positive cosmological constant is studied. general relativity cosmology gravitational waves plasma electromagnetic waves nonlinear waves Plasma physics Plasmafysik Theory of relativity, gravitation Relativitetsteori, gravitation Cosmology Kosmologi
278	Symmetries of Cauchy Horizons and Global Stability of Cosmological Models Luo, Xianghui, 1983- 06 1900 (has links) ix, 111 p. / This dissertation contains the results obtained from a study of two subjects in mathematical general relativity. The first part of this dissertation is about the existence of Killing symmetries in spacetimes containing a compact Cauchy horizon. We prove the existence of a nontrivial Killing symmetry in a large class of analytic cosmological spacetimes with a compact Cauchy horizon for any spacetime dimension. In doing so, we also remove the restrictive analyticity condition and obtain a generalization to the smooth case. The second part of the dissertation presents our results on the global stability problem for a class of cosmological models. We investigate the power law inflating cosmological models in the presence of electromagnetic fields. A stability result for such cosmological spacetimes is proved. This dissertation includes unpublished co-authored material. / Committee in charge: James Brau, Chair; James Isenberg, Advisor; Paul Csonka, Member; John Toner, Member; Peng Lu, Outside Member Theoretical physics Mathematics Applied mathematics Cauchy horizon Cosmology General relativity Global stability Mathematical relativity
279	Geodetický chaos v porušeném Schwarzschildově poli / Geodesic chaos in a perturbed Schwarzschild field Polcar, Lukáš January 2018 (has links) We study the dynamics of time-like geodesics in the field of black holes perturbed by a circular ring or disc, restricting to static and axisymmetric class of space-times. Two analytical methods are tested which do not require solving the equations of motion: (i) the so-called geometric criterion of chaos based on eigenvalues of the Riemann tensor, and (ii) the method of Melnikov which detects the chaotic layer arising by break-up of a homoclinic orbit. Predictions of both methods are compared with numerical results in order to learn how accurate and reliable they are.
280	Topics on Gravity Outside of Four Dimensions Bouchareb, Adel 14 September 2011 (has links) (PDF) The thesis is divided into two loosely connected parts: the first one is concerned with three dimensional Topologically massive gravity (TMG) and the other is devoted to generating solutions of black objects within five minimal dimensional supergravity theory (mSUGRA5). General Relativity Supergravity General Relativity conserved charges Black holes Topologically massive gravity Solution generating techniques Coset models Black Rings Exact solutions of Einstein equations Black hole thermodynamics

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