Como parte de las celebraciones mundiales de los 100 años de la Teoría de la Relatividad General de Einstein y el Año Internacional de la Luz 2015:
Ciclo de conferencias sobre la Teoría de la Relatividad General por Frederic Schuller, impartidas en la Escuela Internacional de Invierno sobre Gravedad y Luz de la universidad de Linz (Austria).
Nos dan una introducción de los fundamentos matemáticos y físicos de la teoría en 24 conferencias autónomas. Las conferencias desarrollan la teoría de los primeros principios y apuntan a un público que va desde estudiantes universitarios ambiciosos de comenzar a estudiantes de doctorado en matemáticas y física.
International Winter School On Gravity And Light
2015
Gravity and Light
International Winter School 2015
FEBRUARY 14-28, 2015
AT JOHANNES KEPLER UNIVERSITY, LINZ/AUSTRIA
A full immersion course
from the basics to the research frontier
Aim
In order to understand physics, one must understand the structure of
spacetime.
This is because both, our most advanced theory of gravity and the
description of matter — general relativity and the standard model of
elementary particle physics — employ the spacetime structure
in a pivotal way.
Required background of students
Background knowledge minimally required of students is what one
normally would have acquired after the second year of university
courses in physics and/or mathematics.
The course aims at graduate students (roughly year 4 to 5) at
universities but will be accessible to advanced undergraduates and
still very rewarding to beginning postgraduate students.
Philosophy of the School
A group of dedicated lecturers and distiguished experts in the field
will explain the entire mathematical and physical foundations
required for a state-of-the-art command of spacetime concepts,
and thus take you on a seamless journey from your current knowledge
to contemporary research highlights.
Lecturers
Frederic P. Schuller
Institute for Quantum Gravity,
Erlangen
| since 2012 |
Interim Associate Professor and Chair,
Institute for Quantum Gravity,
Friedrich-Alexander University
Erlangen-Nuremberg, Germany |
| 2008—2012 |
Researcher, Max Planck Institute for
Gravitational Physics, Germany |
| 2006—2008 |
Professor of Mathematical Physics, UNAM,
Mexico |
| 2005 |
Visting Research Fellow, The Mathematical
Institute, University of Oxford, UK |
| 2004—2006 |
Research Fellow, Perimeter Institute for
Theoretical Physics, Canada |
| 2004 |
PhD, Department of Applied Mathematics and
Theoretical Physics, University of Cambridge, UK |
Bernard F. Schutz
Director emiritus, Max Planck
Institute for Gravitational Physics
| since 1995 |
Director, Max Planck Institute for
Gravitational Physics, Germany |
| since 1985 |
Professor of Physics and Astronomy, Cardiff
University, Wales, UK
Details |
| 1976—1985 |
Reader in Applied Mathematics and Astronomy,
Cardiff University, Wales, UK |
| 1974—1976 |
Lecturer in Applied Mathematics and Astronomy,
Cardiff University, Wales, UK |
| 1973—1974 |
Instructor in Physics, Yale University, New
Haven, CT, USA |
| 1972—1973 |
Postdoctoral research assistant at Yale
University, New Haven, CT, USA |
| 1971—1972 |
National Science Foundation Postdoctoral
Fellow at Cambridge University, Cambridge,
England (Institute of Astronomy and Department
of Applied Mathematics and Theoretical Physics). |
Bernard
F. Schutz - Wikipedia, the free encyclopedia
Bernard F. Schutz. From Wikipedia, the free encyclopedia
Bernard F. Schutz
(born 11 August 1946,
Paterson, New Jersey)
is an
American physicist. His research is on
Einstein's theory of
general relativity, more concretely
on the physics of
gravitational
waves. He is one of the directors and head of
the
astrophysics group at the
Max Planck Institute for Gravitational
Physics in
Potsdam,
Germany. He is principal
investigator in charge of data analysis for the
GEO600 collaboration (which, in
turn, is part of the
LIGO Scientific Collaboration, the
largest concerted effort to directly detect
gravitational waves). Schutz is also a member of the
science team coordinating the planning and development
for the space-borne
gravitational wave detector
LISA (Laser Interferometer
Space Antenna), and he was instrumental in the
foundation of the electronic,
open
access review journal
Living
Reviews in Relativity.
Bibliography
In recent years the methods of modern differential
geometry have become of considerable importance in
theoretical physics and have found application in
relativity and cosmology, high-energy physics and field
theory, thermodynamics, fluid dynamics and mechanics.
This textbook provides an introduction to these methods
- in particular Lie derivatives, Lie groups and
differential forms - and covers their extensive
applications to theoretical physics. The reader is
assumed to have some familiarity with advanced calculus,
linear algebra and a little elementary operator theory.
The advanced physics undergraduate should therefore find
the presentation quite accessible. This account will
prove valuable for those with backgrounds in physics and
applied mathematics who desire an introduction to the
subject. Having studied the book, the reader will be
able to comprehend research papers that use this
mathematics and follow more advanced pure-mathematical
expositions.
Common terms and phrases
General relativity has become one of the central pillars
of theoretical physics, with important applications in
both astrophysics and high-energy particle physics, and
no modern theoretical physicist's education should be
regarded as complete without some study of the subject.
This textbook, based on the author's own undergraduate
teaching, develops general relativity and its associated
mathematics from a minimum of prerequisites, leading to
a physical understanding of the theory in some depth. It
reinforces this understanding by making a detailed study
of the theory's most important applications - neutron
stars, black holes, gravitational waves, and cosmology -
using the most up-to-date astronomical developments. The
book is suitable for a one-year course for beginning
graduate students or for undergraduates in physics who
have studied special relativity, vector calculus, and
electrostatics. Graduate students should be able to use
the book selectively for half-year courses.
This book invites the reader to understand our Universe,
not just marvel at it. From the clock-like motions of
the planets to the catastrophic collapse of a star into
a black hole, gravity controls the Universe. Gravity is
central to modern physics, helping to answer the deepest
questions about the nature of time, the origin of the
Universe and the unification of the forces of nature.
Linking key experiments and observations through careful
physical reasoning, the author builds the reader's
insight step-by-step from simple but profound facts
about gravity on Earth to the frontiers of research.
Topics covered include the nature of stars and galaxies,
the mysteries of dark matter and dark energy, black
holes, gravitational waves, inflation and the Big Bang.
Suitable for general readers and for undergraduate
courses, the treatment uses only high-school level
mathematics, supplemented by optional computer programs,
to explain the laws of physics governing gravity.
Contents
|
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211 |
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225 |
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239 |
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|
261 |
|
|
285 |
|
|
309 |
|
|
331 |
|
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345 |
|
|
109 |
|
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121 |
|
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135 |
|
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153 |
|
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163 |
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179 |
|
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195 |
|
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367 |
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383 |
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391 |
values of useful
constants
|
419 |
|
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443 |
|
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|
oooo
- Schutz,
Bernard F. (May 31, 2009), A first course in
general relativity (2 ed.), Cambridge
University Press, ISBN 0-521-88705-4
References
External
links
Domenico Giulini
Professor for Theoretical Physics
| since 2014 |
Chair of the Gravitation and Relativity
Section of the German Physical Society |
| since 2013 |
Member of the Board of Directors, Riemann
Center for Geometry and Physics, Hannover,
Germany |
| since 2009 |
Professor, Institute for Theoretical Physics,
University of Hannover, Germany |
| 2007—2009 |
Researcher, Max Planck Institute for
Theoretical Physics, Germany |
| 1997—2007 |
Research and Teaching, Universities Zurich,
Freiburg, Karlsruhe |
| 1996 |
Habilitation and venia legendi, University of
Freiburg, Germany |
| 1990 |
PhD, Department of Applied Mathematics and
Theoretical Physics, University of Cambridge, UK |
Marcus C. Werner
Yukawa Institute Japan and Cambridge
University
| from 2015 |
Assistant Professor, Yukawa Institute for
Theoretical Physics, Japan |
| since 2012 |
Adjunct Assistant Professor, Department of
Mathematics, Duke University, USA |
| since 2011 |
Research Fellow Kavli Institute for the
Physics and the Mathematics of the Universe,
Japan |
| 2009—2011 |
Visiting Assistant Professor Department of
Mathematics, Duke University, USA |
| 2005—2009 |
PhD University of Cambridge, UK |
Valeria Pettorino
ITP Heidelberg
| Junior Research Group Leader for HGSFP and ITP
Cosmology Group, University of Heidelberg,
Germany |
| Marie Curie Fellow, University of Geneva,
Switzerland |
| Postdoctoral Fellow, SISSA Trieste, Italy |
| Alexander von Humboldt Fellow, University of
Heidelberg, Germany |
| Postdoctoral Fellow, Torino, Italy |
| PhD, University of Naples, Italy |
Schedule
| First Week |
Sunday |
Monday |
Tuesday |
Wednesday |
Thursday |
Friday |
Saturday |
| 9-10.15am |
Mathematical Revision Course |
Main Lecture on Gravity and Light |
Workshop |
Main Lecture on Gravity and Light |
Excursion: Ars Electronica
Center |
Workshop |
Main Lecture on Gravity and Light |
| 10.15-10.45am |
Coffee Break |
Coffee Break |
| 10.45-12am |
Mathematical Revision Course |
Main Lecture on Gravity and Light |
Workshop |
Main Lecture on Gravity and Light |
Workshop |
Main Lecture on Gravity and Light |
| 12-2pm |
Lunch |
Lunch |
| 2-4pm |
Mathematical Revision Course |
Tutorial |
Classic Journal Club |
Tutorial |
Classic Journal Club |
Tutorial |
| 4-4.30pm |
Coffee break |
| 4.30-6pm |
Mathematical Revision Course |
Excursion 1 |
Excursion 2 |
|
Satellite
Lecture |
Satellite
Lecture |
|
| 6-8pm |
Dinner |
Dinner |
| 8-9pm |
Opera |
Evening Lecture |
| Second Week |
Sunday |
Monday |
Tuesday |
Wednesday |
Thursday |
Friday |
Saturday |
| 9-10.15am |
|
Main Lecture on Gravity and Light |
Workshop |
Main Lecture on Gravity and Light |
Workshop |
Main Lecture on Gravity and Light |
Presentation of Workshop Results |
| 10.15-10.45am |
Coffee Break |
| 10.45-12am |
Main Lecture on Gravity and Light |
Workshop |
Main Lecture on Gravity and Light |
Workshop |
Main Lecture on Gravity and Light |
Presentation of Workshop Results |
| 12-2pm |
Lunch |
| 2-4pm |
|
Tutorial |
Classic Journal Club |
Tutorial |
Classic Journal Club |
Tutorial |
Final Meeting |
| 4-4.30pm |
Coffee break |
| 4.30-6pm |
Satellite
Lecture |
Satellite
Lecture |
|
Satellite
Lecture |
Satellite
Lecture |
| 6-8pm |
Dinner |
| 8-9pm |
Evening Lecture |
|
|
Evening Lecture |
Modules
The aim of the school is achieved by way of three well-balanced
pillars:
A 15-hour online course on differential geometry (held and made
available two weeks before the school)
A 15-hour lecture course (coherently introducing the theories of
general relativity and light)
A 12-hour satellite lecture program by four different experts
(taking you to the research frontier)
A 12-hour series of tutorials by excellent teaching assistants (to
practice the basics)
A 10-hour series of workshops (where more advanced problems are
solved in teams)
An 8-hour classical papers journal club (linking the modern theory
to its historical and philosophical roots)
Keynote evening lectures on gravitational waves, lensing, the
microwave background and quantum gravity
Tour and practical observations at the Kepler observatory in Linz
Cinema viewing of the Kepler Opera (providing a window into Kepler's
life and time)
Gravity and
Light International Winter School 2015 ?
http://www.gravity-and-light.org/lectures ?
http://www.gravity-and-light.org/tutorials ?
https://www.youtube.com/playlist?list=PLFeEvEPtX_0S6vxxiiNPrJbLu9aK1UVC_
<iframe width="853" height="480"
src="https://www.youtube.com/embed/videoseries?list=PLFeEvEPtX_0S6vxxiiNPrJbLu9aK1UVC_"
frameborder="0" allowfullscreen></iframe>
Publicado el 10/02/2015
As part of the world-wide celebrations of the 100th anniversary of
Einstein's theory of general relativity and the International Year
of Light 2015, the Scientific Organizing Committee makes available
the central 24 lectures by Frederic P Schuller.
Central lecture course by Frederic P Schuller (A thorough
introduction to the theory of general relativity) introducing the
mathematical and physical foundations of the theory in 24
self-contained lectures at the International Winter School on
Gravity and Light in Linz/Austria.
Titled "A thorough introduction to the theory of general
relativity", the lectures introduce the mathematical and physical
foundations of the theory in 24 self-contained lectures. The
material is developed step by step from first principles and aims
at an audience ranging from ambitious undergraduate students to
beginning PhD students in mathematics and physics.
The lectures develop the theory from first principles and aim at
an audience ranging from ambitious undergraduate students to
beginning PhD students in mathematics and physics.
Satellite Lectures (see other videos on this channel) by Bernard F
Schutz (Gravitational Waves), Domenico Giulini (Canonical
Formulation of Gravity), Marcus C Werner (Gravitational Lensing)
and Valeria Pettorino (Cosmic Microwave Background) expand on the
topics of this central lecture course and take students to the
research frontier.
Access to further material on www.gravity-and-light.org/lectures
and www.gravity-and-light.org/tutorials
Lecture
1: Topology (International Winter School on Gravity and Light
2015) - YouTube
https://youtu.be/7G4SqIboeig?list=PLFeEvEPtX_0S6vxxiiNPrJbLu9aK1UVC_
<iframe width="853" height="480"
src="https://www.youtube.com/embed/7G4SqIboeig?list=PLFeEvEPtX_0S6vxxiiNPrJbLu9aK1UVC_"
frameborder="0" allowfullscreen></iframe>
a) The power set (P) of a set (M) is the set which contains all
subsets of that set. u∈P(M) <-> u⊆M
b) A topology (O) can be defined on a set (M) as a subset of the
power set
-i) a topology must contain the set (M) and the empty set. ∅,M∈O
(∴{∅,M}⊆O⊆P(M))
-ii) the intersection of any two members of a topology must also be
a member of the topology. (v∩u)∈O | u,v∈O
-iii) the union of any number of members of the topology must also
result in a member of the topology. Ui(u)∈O | u∈O
(is there any reason it needs to be an indexed set rather than
simply v∪u like the previous axiom?)
c) Members of a topology are called open sets
d) A set is closed if it's compliment (relative in M) is an open set
e) A map (f) from set M to set N is continuous if the preimage (with
respect to f) of every open set in N is an open set in M (obviously
requireing a topology in both). ∀V∈O:preim(V)∈O
f) If we have 2 maps (f:M->N and g:N->P) and they're both
continuous, then the composition of the two is also continuous.
g) A subset (S) of a set with a topology can inherit that topology
by taking the intersection of the subset and every element in the
topology. Os = {u∩S|u∈O}
h) If you restrict a continuous map to a specific subset in the
domain and inherit the topology, then the restricted map is still
continuous.
Nice synopsis for such a long video eh?
Lecture 2:
Topological Manifolds (International Winter School on Gravity
and Light 2015) - Duración: 1:23:01 de The
WE-Heraeus International Winter School on Gravity and Light
5,597 vistas
https://youtu.be/93f-ayezCqE?list=PLFeEvEPtX_0S6vxxiiNPrJbLu9aK1UVC_
<iframe width="853" height="480"
src="https://www.youtube.com/embed/93f-ayezCqE?list=PLFeEvEPtX_0S6vxxiiNPrJbLu9aK1UVC_"
frameborder="0" allowfullscreen></iframe>
Lecture 3:
Multilinear Algebra (International Winter School on Gravity
and Light 2015) -
Duración: 1:42:36 de
The
WE-Heraeus International Winter School on Gravity and
Light 4,498
vistas
https://youtu.be/mbv3T15nWq0?list=PLFeEvEPtX_0S6vxxiiNPrJbLu9aK1UVC_
<iframe width="853" height="480"
src="https://www.youtube.com/embed/mbv3T15nWq0?list=PLFeEvEPtX_0S6vxxiiNPrJbLu9aK1UVC_"
frameborder="0" allowfullscreen></iframe>
This is the most thorough explanation of the vector space I have
ever heard (
13:43). Thank you
for the nice lecture.
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src="https://www.youtube.com/embed/HSyTEwS4g80" frameborder="0"
allowfullscreen></iframe>
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allowfullscreen></iframe>
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src="https://www.youtube.com/embed/UbQS40KHkH0" frameborder="0"
allowfullscreen></iframe>
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src="https://www.youtube.com/embed/nEaiZBbCVtI" frameborder="0"
allowfullscreen></iframe>
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src="https://www.youtube.com/embed/2eVWUdcI2ho" frameborder="0"
allowfullscreen></iframe>
https://www.youtube.com/watch?v=IBlCu1zgD4Y
https://youtu.be/IBlCu1zgD4Y
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src="https://www.youtube.com/embed/IBlCu1zgD4Y" frameborder="0"
allowfullscreen></iframe>
Lecture 9:
Newtonian spacetime is curved! (International Winter School on
Gravity and Light 2015) - YouTube
<iframe width="853" height="480"
src="https://www.youtube.com/embed/IBlCu1zgD4Y" frameborder="0"
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src="https://www.youtube.com/embed/ONCZNwKswn4" frameborder="0"
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src="https://www.youtube.com/embed/v4jolM-bPpA" frameborder="0"
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src="https://www.youtube.com/embed/2XpnbvPy-Zg" frameborder="0"
allowfullscreen></iframe>
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src="https://www.youtube.com/embed/iFAxSEoj6Go" frameborder="0"
allowfullscreen></iframe>
https://youtu.be/65Y38aRWIXs
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src="https://www.youtube.com/embed/65Y38aRWIXs" frameborder="0"
allowfullscreen></iframe>
Lecture
15: Einstein Gravity (International Winter School on Gravity
and Light 2015) - Duración: 1:06:09 de The
WE-Heraeus International Winter School on Gravity and Light
820 vistas
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src="https://www.youtube.com/embed/ZfewnqcBYag" frameborder="0"
allowfullscreen></iframe>
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src="https://www.youtube.com/embed/wOY5K42nsFM" frameborder="0"
allowfullscreen></iframe>
https://youtu.be/2-nOtRESiUc
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src="https://www.youtube.com/embed/2-nOtRESiUc" frameborder="0"
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src="https://www.youtube.com/embed/xzzSlx4tdOw" frameborder="0"
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src="https://www.youtube.com/embed/U9fJH3XS8Vc" frameborder="0"
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https://youtu.be/7VJzouE9rNE
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src="https://www.youtube.com/embed/7VJzouE9rNE" frameborder="0"
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src="https://www.youtube.com/embed/nAT1PDkufso" frameborder="0"
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src="https://www.youtube.com/embed/H_1ZBlwVsXo" frameborder="0"
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src="https://www.youtube.com/embed/q9qWR9xUMts" frameborder="0"
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src="https://www.youtube.com/embed/MNriGs9hL8M" frameborder="0"
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Tutorials -
The WE-Heraeus International Winter School on Gravity and Light
Tutorial 3:
Multilinear Algebra (International Winter School on Gravity
and Light 2015) - Duración: 57:19 de The
WE-Heraeus International Winter School on Gravity and Light
419 vistas
<iframe width="853" height="480"
src="https://www.youtube.com/embed/5oeWX3NUhMA" frameborder="0"
allowfullscreen></iframe>
<iframe width="853" height="480"
src="https://www.youtube.com/embed/FXPdKxOq1KA" frameborder="0"
allowfullscreen></iframe>
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src="https://www.youtube.com/embed/mACNdkRdHEA" frameborder="0"
allowfullscreen></iframe>
https://youtu.be/bYfvT-ky1lU
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src="https://www.youtube.com/embed/bYfvT-ky1lU" frameborder="0"
allowfullscreen></iframe>
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src="https://www.youtube.com/embed/iwbJvfFNRh8" frameborder="0"
allowfullscreen></iframe>
Tutorial 13:
Schwarzschild Spacetime (International Winter School on
Gravity and Light 2015) -
Duración: 33:32 de The WE-Heraeus International Winter
School on Gravity and Light 214 vistas
https://youtu.be/KQe2sqGIzTg
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src="https://www.youtube.com/embed/KQe2sqGIzTg" frameborder="0"
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https://youtu.be/HuQ79CWcDac
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src="https://www.youtube.com/embed/HuQ79CWcDac" frameborder="0"
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