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El. knyga: Routledge Companion to Philosophy of Physics

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The Routledge Companion to Philosophy of Physics is a comprehensive and authoritative guide to the state of the art in the philosophy of physics. It contains 54 self-contained chapters written by leading philosophers of physics at both senior and junior levels, making it the most thorough and detailed volume of its type on the market – nearly every major perspective in the field is represented.

The Companion’s 54 chapters are organized into 12 sections. The first seven sections cover all of the major physical theories investigated by philosophers of physics today, and the last five explore key themes that unite the study of these theories.

I. Classical Mechanics
II. Special Relativity
III. General Relativity
IV. Non-Relativistic Quantum Mechanics
V. Quantum Field Theory
VI. Quantum Gravity
VII. Statistical Mechanics and Thermodynamics
VIII. Explanation
IX. Intertheoretic Relations
X. Symmetries
XI. Metaphysics
XII. Cosmology

The level of the articles has been carefully pitched so as to offer both accessible summaries for those new to philosophy of physics and standard reference points for active researchers on the front lines. An introductory essay by the editors maps out the field, and each section also begins with a short summary that places the individual chapters in context. The volume will be indispensable to any serious student or scholar of philosophy of physics.



The most thorough volume of its type, covering most major perspectives accross 54 chapters by leading contributors split into 12 part. Parts 1-7 cover key physical theories (e.g. special relativity; quantum gravity). 8-12 cover shared themes (e.g. explanation; symmetries). Suitable for researchers and students.

List of Figures, Boxes, and Tables xi
Notes on Contributors xiv
Introduction 1(5)
Eleanor Knox
Alastair Wilson
Section A: Theories
Part I Newtonian Mechanics
6(53)
1 Newtonian Mechanics
8(13)
Ryan Samaroo
2 Formulations of Classical Mechanics
21(12)
Jill North
3 Classical Spacetime Structure
33(13)
James Owen Weatherall
4 Relationism in Classical Dynamics
46(13)
Julian Barbour
Part II Special Relativity
59(64)
5 Relativity and Space-Time Geometry
61(9)
Tim Maudlin
6 The Dynamical Approach to Spacetime Theories
70(16)
Harvey R. Brown
James Read
7 Relativity and the A-Theory
86(13)
Antony Eagle
8 Relativistic Constraints on Interpretations of Quantum Mechanics
99(24)
Wayne C. Myrvold
Part III General Relativity
123(58)
9 The Equivalence Principle(s)
125(20)
Dennis Lehmkuhl
10 The Hole Argument
145(15)
Oliver Pooley
11 Relativistic Spacetime Structure
160(21)
Samuel C. Fletcher
Part IV Non-Relativistic Quantum Theory
181(92)
12 Bell's Theorem, Quantum Probabilities, and Superdeterminism
184(16)
Eddy Keming Chen
13 Quantum Decoherence
200(13)
Elise M. Crull
14 The Everett Interpretation: Structure
213(17)
Simon W. Saunders
15 The Everett Interpretation: Probability
230(17)
Simon W. Saunders
16 Collapse Theories
247(10)
Peter J. Lewis
17 Bohmian Mechanics
257(16)
Roderich Tumulka
Part V Quantum Field Theory
273(64)
18 The Quantum Theory of Fields
275(21)
David Wallace
19 Renormalization Group Methods
296(15)
Porter Williams
20 Locality in (Axiomatic) Quantum Field Theory: A Minority Report
311(12)
Laura Ruetsche
21 Particles in Quantum Field Theory
323(14)
Doreen Fraser
Part VI Quantum Gravity
337(64)
22 The Development of Quantum Gravity: From Feelings to Phenomena
339(12)
Dean Rickles
23 String Theory
351(12)
Richard Dawid
24 Quantum Gravity from General Relativity
363(11)
Christian Wuthrich
25 Spacetime "Emergence"
374(12)
Nick Huggett
26 The Problem of Time
386(15)
Karim P.Y. Thebault
Part VII Statistical Mechanics and Thermodynamics
401(51)
27 Equilibrium in Boltzmannian Statistical Mechanics
403(11)
Roman Frigg
Charlotte Werndl
28 Equilibrium in Gibbsian Statistical Mechanics
414(11)
Roman Frigg
Charlotte Werndl
29 Quantum Foundations of Statistical Mechanics and Thermodynamics
425(14)
Orly Shenker
30 Entropy Asymmetry
439(13)
Arianne Shahvisi
Section B: Themes
Part VIII Explanation
452(45)
31 Causal Explanation in Physics
454(12)
Mathias Frisch
32 Non-Causal Explanations in Physics
466(10)
Juha Saatsi
33 Mechanistic Explanation in Physics
476(11)
Laura Felline
34 The Explanatory Value of Selecting the Appropriate Scale(s)
487(10)
Lina Janson
Part IX Intertheoretic Relations
497(52)
35 Nagelian Reduction in Physics
499(13)
Foad Dizadji-Bahmani
36 Phase Transitions
512(12)
Sorin Bangu
37 Universality
524(12)
Robert W. Batterman
38 Chance and Determinism
536(13)
Nina Emery
Part X Symmetries
549(84)
39 Symmetry and Superfluous Structure: A Metaphysical Overview
551(12)
Shamik Dasgupta
40 Symmetry and Superfluous Structure: Lessons from History and Tempered Enthusiasm
563(15)
Jenann Ismael
41 Permutations
578(17)
Adam Caulton
42 Gauge Theories
595(10)
Nicholas J. Teh
43 Time Reversal
605(15)
Bryan W. Roberts
44 Symmetry Breaking
620(13)
Elena Castellani
Radin Dardashti
Part XI Metaphysics
633(56)
45 Laws
635(9)
Marc Lange
46 Chance
644(11)
Mauricio Suarez
47 Holism
655(11)
Richard Healey
48 Dimensions
666(13)
Susan G. Sterrett
49 Fundamentality
679(10)
Steven French
Part XI Cosmology
689(64)
50 Why Is There Something, Rather Than Nothing?
691(16)
Sean M. Carroll
51 Time in Cosmology
707(12)
Craig Callender
C.D. McCoy
52 The Fine Tuning of the Universe for Life
719(12)
Luke A. Barnes
53 Dark Matter and Dark Energy
731(13)
Melissa Jacquart
54 Evidence in Astrophysics
744(9)
Sibylle Anderl
Index 753
Eleanor Knox is Reader in Philosophy of Physics at Kings College London. She works in philosophy of physics, particularly the philosophy of spacetime physics, and is also interested in issues of reduction and emergence, and how these two come together in quantum gravity.

Alastair Wilson is Professor of Philosophy at the University of Birmingham and Senior Adjunct Research Fellow at Monash University. He works on philosophy of physics, philosophy of science, metaphysics, and epistemology, with special interests in the philosophy of quantum theory and the metaphysics of dependence. He is the author of The Nature of Contingency: Quantum Physics as Modal Realism (2020).
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