Exact solutions in general relativity
In general relativity, an exact solution is a solution of the Einstein field equations whose derivation does not invoke simplifying assumptions, though the starting point for that derivation may be an idealized case like a perfectly spherical shape of matter. Mathematically, finding an exact solution means finding a Lorentzian manifold equipped with tensor fields modeling states of ordinary matter, such as a fluid, or classical non-gravitational fields such as the electromagnetic field. (Wikipedia).
PDEs 4: Linear ODEs with Constant Coefficients, Finding a Particular Solution
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From playlist Partial Differential Equations
General solution of a separable equation
Learn how to solve the particular solution of differential equations. A differential equation is an equation that relates a function with its derivatives. The solution to a differential equation involves two parts: the general solution and the particular solution. The general solution give
From playlist Differential Equations
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Learn how to solve the particular solution of differential equations. A differential equation is an equation that relates a function with its derivatives. The solution to a differential equation involves two parts: the general solution and the particular solution. The general solution give
From playlist Differential Equations
Solve the general solution for differentiable equation with trig
Learn how to solve the particular solution of differential equations. A differential equation is an equation that relates a function with its derivatives. The solution to a differential equation involves two parts: the general solution and the particular solution. The general solution give
From playlist Differential Equations
Find the particular solution differential equations
Learn how to solve the particular solution of differential equations. A differential equation is an equation that relates a function with its derivatives. The solution to a differential equation involves two parts: the general solution and the particular solution. The general solution give
From playlist Solve Differential Equation (Particular Solution) #Integration
Differential Equations: Exact DEs Introduction 2
In part two of the introduction to exact differential equations, we explore how exactness makes solving exact differential equations easier. We then lay down the theory of how to actually solve them.
From playlist Differential Equations
Find the particular solution given the conditions and second derivative
Learn how to solve the particular solution of differential equations. A differential equation is an equation that relates a function with its derivatives. The solution to a differential equation involves two parts: the general solution and the particular solution. The general solution give
From playlist Solve Differential Equation (Particular Solution) #Integration
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Calculus/ODEs: Find the general solution of the differential equation y' + xy = 0. Then find the specific solution where y(0) = -1. Use the specific solution to sketch all solutions in the xy-plane.
From playlist Differential Equations
Luc Blanchet: Theory of gravitational waves and approximation methods in general relativity
CIRM VIRTUAL EVENT Recorded during the meeting "Theory of Gravitation and Variation in Cosmology" the April 15, 2021 by the Centre International de Rencontres Mathématiques (Marseille, France) Filmmaker: Guillaume Hennenfent Find this video and other talks given by worldwide mathematic
From playlist Virtual Conference
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From playlist PiTP 2009
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PROGRAM: NUMERICAL RELATIVITY DATES: Monday 10 Jun, 2013 - Friday 05 Jul, 2013 VENUE: ICTS-TIFR, IISc Campus, Bangalore DETAL Numerical relativity deals with solving Einstein's field equations using supercomputers. Numerical relativity is an essential tool for the accurate modeling of a wi
From playlist Numerical Relativity
Find the particular solution with exponential and inverse trig
Learn how to solve the particular solution of differential equations. A differential equation is an equation that relates a function with its derivatives. The solution to a differential equation involves two parts: the general solution and the particular solution. The general solution give
From playlist Solve Differential Equation (Particular Solution) #Integration
Mathematical and Computational Aspects of Machine Learning - 9 October 2019
http://www.crm.sns.it/event/451/timetable.html#title 9:00- 10:00 Peyré, Gabriel Optimal Transport for Data Science 10:00- 10:30 Coffee break 10:30- 11:30 Soatto (with Alessandro Achille), Stefano Representation Learning 11:30- 12:30 Soatto (with Alessandro Achille), Stefano Representa
From playlist Centro di Ricerca Matematica Ennio De Giorgi
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From playlist Data-driven Physical Simulations (DDPS) Seminar Series
Foundations of General Relativity - Andrew Strominger
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From playlist General Relativity at 100
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MIT 10.34 Numerical Methods Applied to Chemical Engineering, Fall 2015 View the complete course: http://ocw.mit.edu/10-34F15 Instructor: James Swan This lecture talked about the system of non-linear equations. License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/term
From playlist MIT 10.34 Numerical Methods Applied to Chemical Engineering, Fall 2015
Lec 13. Einstein's General Relativity and Gravitation: Field Equations 3
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From playlist Einstein's General Relativity and Gravitation
Relativity 11a - spherical bodies and black holes I
Here we start to examine the General Relativity description of spherical bodies and black holes. Appendix video: https://youtu.be/MDAmsOrFWp4 Relativity playlist: http://www.youtube.com/playlist?list=PLF56602BAC693237E
From playlist Relativity
How to solve EXACT DIFFERENTIAL EQUATIONS IVPs
► My Differential Equations course: https://www.kristakingmath.com/differential-equations-course Exact differential equations are a kind of homogeneous differential equation that take on a very specific form. In order to find the solution to an exact differential equation, you'll need to
From playlist Differential Equations
Mark Giesbrecht 4/23/15 Part 1
Title: I. Approximate Computation with Differential Polynomials: Approximate GCRDs II. Sparsity, Complexity and Practicality in Symbolic Computations Symbolic-Numeric Computing Seminar
From playlist Symbolic-Numeric Computing Seminar