05558nam 2200685Ia 450 991046579750332120200520144314.01-281-99870-297866119987070-19-155226-7(CKB)2560000000296363(EBL)430731(OCoLC)317496332(SSID)ssj0000087057(PQKBManifestationID)11121225(PQKBTitleCode)TC0000087057(PQKBWorkID)10052113(PQKB)10143034(StDuBDS)EDZ0000073165(MiAaPQ)EBC430731(Au-PeEL)EBL430731(CaPaEBR)ebr10288409(CaONFJC)MIL199870(EXLCZ)99256000000029636320080304d2009 uy 0engur|n|---|||||txtccrGeneral relativity and the Einstein equations[electronic resource] /Yvonne Choquet-BruhatOxford ;New York Oxford University Press20091 online resource (812 p.)Oxford mathematical monographsDescription based upon print version of record.0-19-923072-2 0-19-171087-3 Includes bibliographical references (p. [771]-779) and index.CONTENTS; I: Lorentz geometry; 1 Introduction; 2 Manifolds; 3 Differentiable mappings; 4 Vectors and tensors; 4.1 Tangent and cotangent space; 4.2 Vector fields; 4.3 Tensors and tensor fields; 5 Pseudo-Riemannian metrics; 5.1 General properties; 5.2 Riemannian and Lorentzian metrics; 6 Riemannian connection; 7 Geodesics; 8 Curvature; 9 Geodesic deviation; 10 Maximum of length and conjugate points; 11 Linearized Ricci and Einstein tensors; 12 Second derivative of the Ricci tensor; II: Special Relativity; 1 Newton's mechanics; 1.1 The Galileo-Newton spacetime1.2 Newton's dynamics - the Galileo group2 Maxwell's equations; 3 Minkowski spacetime; 3.1 Definition; 3.2 Maxwell's equations on M[sub(4)]; 4 Poincaré group; 5 Lorentz group; 5.1 General formulae; 5.2 Transformation of electric and magnetic vector fields (case n = 3); 5.3 Lorentz contraction and dilatation; 6 Special Relativity; 6.1 Proper time; 6.2 Proper frame and relative velocities; 7 Dynamics of a pointlike mass; 7.1 Newtonian law; 7.2 Relativistic law; 7.3 Equivalence of mass and energy; 8 Continuous matter; 8.1 Case of dust (incoherent matter); 8.2 Perfect fluidsIII: General relativity and Einstein's equations1 Introduction; 2 Newton's gravity law; 3 General relativity; 3.1 Physical motivations; 4 Observations and experiments; 4.1 Deviation of light rays; 4.2 Proper time, gravitational time delay; 5 Einstein's equations; 5.1 Vacuum case; 5.2 Equations with sources; 6 Field sources; 6.1 Electromagnetic sources; 6.2 Electromagnetic potential; 6.3 Yang-Mills fields; 6.4 Scalar fields; 6.5 Wave maps; 6.6 Energy conditions; 7 Lagrangians; 7.1 Einstein-Hilbert Lagrangian; 7.2 Lagrangians and stress energy tensors of sources; 7.3 Coupled Lagrangian8 Fluid sources9 Einsteinian spacetimes; 9.1 Definition; 9.2 Regularity hypotheses; 10 Newtonian approximation; 10.1 Equations for potentials; 10.2 Equations of motion; 11 Gravitational waves; 11.1 Minkowskian approximation; 11.2 General linear waves; 12 High-frequency gravitational waves; 12.1 Phase and polarizations; 12.2 Radiative coordinates; 12.3 Energy conservation; 13 Coupled electromagnetic and gravitational waves; 13.1 Phase and polarizations; 13.2 Propagation equations; IV: Schwarzschild spacetime and black holes; 1 Introduction; 2 Spherically symmetric spacetimes3 Schwarzschild metric4 Other coordinates; 4.1 Isotropic coordinates; 4.2 Wave coordinates; 4.3 Painlevé-Gullstrand-like coordinates; 4.4 Regge-Wheeler coordinates; 5 Schwarzschild spacetime; 6 The motion of the planets and perihelion precession; 6.1 Equations; 6.2 Results of observations; 6.3 Escape velocity; 7 Stability of circular orbits; 8 Deflection of light rays; 8.1 Theoretical prediction; 8.2 Results of observation; 8.3 Fermat's principle and light travel parameter time; 9 Red shift and time delay; 10 Spherically symmetric interior solutions; 10.1 Static solutions. Upper limit on mass10.2 Matching with an exterior solutionAimed at researchers in mathematics and physics, this monograph, in which the author overviews the basic ideas in General Relativity, introduces the necessary mathematics and discusses some of the key open questions in the field. - ;General Relativity has passed all experimental and observational tests to model the motion of isolated bodies with strong gravitational fields, though the mathematical and numerical study of these motions is still in its infancy. It is believed that General Relativity models our cosmos, with a manifold of dimensions possibly greater than four and debatable topologyOxford mathematical monographs.General relativity (Physics)MathematicsEinstein field equationsElectronic books.General relativity (Physics)Mathematics.Einstein field equations.530.11Choquet-Bruhat Yvonne319747MiAaPQMiAaPQMiAaPQBOOK9910465797503321General relativity and the Einstein equations803234UNINA01841nas 2200445 450 991035956050332120200404023856.0(OCoLC)1132235725(OCoLC)on1132235725(EXLCZ)991299228120004120191219a20039999 ub engur|||||||||||txtrdacontentcrdamediacrrdacarrierCommunicable disease reportShoreline, WA :Washington State Department of Health,[2004]-volumes illustrations ;28 cmPrint version: Communicable disease report (Shoreline, Wash.) (DLC) 2004252095 (OCoLC)57004994 Washington State communicable disease reportCommunicable diseasesWashington (State)StatisticsPeriodicalsCommunicable DiseasesepidemiologyWashington (State)Statistics, MedicalPeriodicalsWashingtonSerial publications.lcgftStatistics.lcgftCommunicable diseasesCommunicable Diseasesepidemiology.614.4/2797Washington (State).Epidemiology, Health Statistics and Public Health Laboratories.Communicable Disease Epidemiology Section,Washington (State).Office of Communicable Disease Epidemiology,WAUWAUhttp://wsldocs.sos.wa.gov/library/docs/doh/communicablediseaserpt/communicablediseaserpt_home.aspx0https://www.doh.wa.gov/DataandStatisticalReports/DiseasesandChronicConditions/CommunicableDiseaseSurveillanceData/AnnualCDSurveillanceReports09910359560503321C0WAUCommunicable disease report2837028UNINA01934nam 2200421Ia 450 99638989790331620230105230733.0(CKB)4940000000095612(EEBO)2240889309(OCoLC)ocn811768810e(OCoLC)811768810(EXLCZ)99494000000009561220121003d1625 uy 0engurbn#|||a|bb|A breefe methode or way teachinge all sortes of Christian people, how to serue God in a most perfect manner[electronic resource] /Written first in Spanish, by a religious man, named Alphonso and reduced out of Latin into English in manner of a dialogue for the easier vnderstanding and capacities of the simpler sorte, by I.MAt S. Omers, [Printed by Charles Boscard] for Iohn Heigham[anno 1625]284, [4] pI.M. is probably John Mitchell or Michel, a Carthusian monk at Bruges--Cf. NUC pre-1956 imprints.Date of publication suggested by ESTC.With three final contents pages and one page of errata on [4] p. at end.Pages 178-179, 182-183, 186-187, 190-191 and 283 are misnumbered 158-159, 162-163, 166-167, 170-171 and 183 respectively.Signatures: A-S⁸.Imperfect: stained on t.p. with loss of print.Reproduction of original in: British Library.eebo-0018Christian lifeCatholic authorsEarly works to 1800Christian lifeCatholic authorsAlonsode Madrid.483784Boscard Charlesd. 1629,Heigham Johnactive 1639I. MUMIUMIBOOK996389897903316A breefe methode or way teachinge all sortes of Christian people, how to serue God in a most perfect manner2331680UNISA