Description

Book Synopsis
Other refinements in the new edition include an enlarged biography of Emmy Noether's life and work, parallels drawn between the present approach and Noether's original 1918 paper, and a summary of the logic behind Noether's theorem.

Trade Review
As this book is well written and contains a very good set of exercises, it can serve as the primary text for a special topics course.
Choice
Nadis gives no technical details, but Neuenschwander does, in a book for physics majors with a strong background in mathematics; the book does not shy away from Lie groups and the study of invariants. This new edition delves into distinctions between two Noether theorems and adds more exercises, references, and details.
Mathematics Magazine
Neuenschwander sets out from the beginning to help the reader who must be familiar with calculus and a few other standard topics, but who is not yet fluent in these areas... His role is to be the teacher on the side, prompting the reader with interesting observations and questions... He anticipates problems, guides you yet also makes you think things through... Not only a very worthwhile read for its content but also for its style.
—Ken Zetie, St. Paul's School, Mathematical Gazette
Well-written... Throughout there is reference to the life of Emmy Noether, including the many difficulties related to being a woman in a man's world... I am glad her story is given an airing here as she fails to be as famous as she undoubtedly should be.
—Phil Dyke, FIMA, Mathematics Today
Technical and yet ultimately poetic book on Emmy Neother's wonderful theorems... Neuenschwander's work is recommended for anyone who wants to gain a deeper understanding and appreciation of the physics and mathematics behind Emmy Noether's work, as well as the particular challenges she faced in her life.
—Miriam R. Aczel, Centre for Environmental Policy, Imperial College London, Contemporary Physics

Table of Contents

Preface
Acknowledgments
Questions
Part I. When Functionals Are External
1. Symmetry
1.1. Symmetry, Invariances, and Conservation Laws
1.2. Meet Emmy Noether
2. Functionals
2.1. Single-Integral Functionals
2.2. Formal Definition of a Functional
3. Extremals
3.1. The Euler-Lagrange Equation
3.2. Conservation Laws as Corollariesto the Euler-Lagrange Equation
3.3. On the Equivalence of Hamilton's Principleand Newton's Second Law
3.4. Where Do Functional Extremal PrinciplesCome From?
3.5. Why Kinetic Minus Potential Energy?
3.6. Extremals with External Constraints
Part II. When Functionals Are Invariant
4. Invariance
4.1. Formal Definition of Invariance
4.2. The Invariance Identity
4.3. A More Liberal Definition of Invariance
5. Emmy Noether's Elegant (First) Theorem
5.1. Invariance + Extremal = Noether's Theorem
5.2. Executive Summary of Noether's Theorem
5.3. "Extremal" or "Stationary"?
5.4. An Inverse Problem
5.5. Adiabatic Invariance in Noether's Theorem
Part III. The Invariance of Fields
6. Noether's Theorem and Fields
6.1. Multiple-Integral Functionals
6.2. Euler-Lagrange Equations for Fields
6.3. Canonical Momentum and the HamiltonianTensor for Fields
6.4. Equations of Continuity
6.5. The Invariance Identity for Fields
6.6. Noether's Theorem for Fields
6.7. Complex Fields
6.8. Global Gauge Transformations
7. Local Gauge Transformations of Fields
7.1. Local Gauge Invariance and Minimal Coupling
7.2. Electrodynamics as a Gauge Theory,Part 1
7.3. Pure Electrodynamics, Spacetime Invariances,and Conservation Laws
7.4. Electrodynamics as a Gauge Theory,Part 2
7.5. Local Gauge Invariance and Noether Currents
7.6. Internal Degrees of Freedom
7.7. Noether's Theorem and GaugedInternal Symmetries
8. Emmy Noether's Elegant (Second) Theorem
8.1. Two Noether Theorems
8.2. Noether's Second Theorem
8.3. Parametric Invariance
8.4. Free Fall in a Gravitational Field
8.5. The Gravitational Field Equations
8.6. The Functionals of General Relativity
8.7. Gauge Transformations on Spacetime
8.8. Noether's Resolution of an Enigma inGeneral Relativity
Part IV. Trans-Noether Invariance
9. Invariance in Phase Space
9.1. Phase Space
9.2. Hamilton's Principle in Phase Space
9.3. Noether's Theorem and Hamilton's Equations
9.4. Hamilton-Jacobi Theory
10. The Action as a Generator
10.1. Conservation of Probabilityand Continuous Transformations
10.2. The Poetry of Nature
Appendixes
A. Scalars, Vectors, and Tensors
B. Special Relativity
C. Equations of Motion in Quantum Mechanics
D. Conjugate Variables and Legendre Transformations
E. The Jacobian
F. The Covariant Derivative
Bibliography
Index

Emmy Noethers Wonderful Theorem

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    A Paperback / softback by Dwight E. Neuenschwander


      View other formats and editions of Emmy Noethers Wonderful Theorem by Dwight E. Neuenschwander

      Publisher: Johns Hopkins University Press
      Publication Date: 27/05/2017
      ISBN13: 9781421422671, 978-1421422671
      ISBN10: 1421422670
      Also in:
      Mathematics Applied mathematics History of mathematics Not Just Books Stationery

      Description

      Book Synopsis
      Other refinements in the new edition include an enlarged biography of Emmy Noether's life and work, parallels drawn between the present approach and Noether's original 1918 paper, and a summary of the logic behind Noether's theorem.

      Trade Review
      As this book is well written and contains a very good set of exercises, it can serve as the primary text for a special topics course.
      Choice
      Nadis gives no technical details, but Neuenschwander does, in a book for physics majors with a strong background in mathematics; the book does not shy away from Lie groups and the study of invariants. This new edition delves into distinctions between two Noether theorems and adds more exercises, references, and details.
      Mathematics Magazine
      Neuenschwander sets out from the beginning to help the reader who must be familiar with calculus and a few other standard topics, but who is not yet fluent in these areas... His role is to be the teacher on the side, prompting the reader with interesting observations and questions... He anticipates problems, guides you yet also makes you think things through... Not only a very worthwhile read for its content but also for its style.
      —Ken Zetie, St. Paul's School, Mathematical Gazette
      Well-written... Throughout there is reference to the life of Emmy Noether, including the many difficulties related to being a woman in a man's world... I am glad her story is given an airing here as she fails to be as famous as she undoubtedly should be.
      —Phil Dyke, FIMA, Mathematics Today
      Technical and yet ultimately poetic book on Emmy Neother's wonderful theorems... Neuenschwander's work is recommended for anyone who wants to gain a deeper understanding and appreciation of the physics and mathematics behind Emmy Noether's work, as well as the particular challenges she faced in her life.
      —Miriam R. Aczel, Centre for Environmental Policy, Imperial College London, Contemporary Physics

      Table of Contents

      Preface
      Acknowledgments
      Questions
      Part I. When Functionals Are External
      1. Symmetry
      1.1. Symmetry, Invariances, and Conservation Laws
      1.2. Meet Emmy Noether
      2. Functionals
      2.1. Single-Integral Functionals
      2.2. Formal Definition of a Functional
      3. Extremals
      3.1. The Euler-Lagrange Equation
      3.2. Conservation Laws as Corollariesto the Euler-Lagrange Equation
      3.3. On the Equivalence of Hamilton's Principleand Newton's Second Law
      3.4. Where Do Functional Extremal PrinciplesCome From?
      3.5. Why Kinetic Minus Potential Energy?
      3.6. Extremals with External Constraints
      Part II. When Functionals Are Invariant
      4. Invariance
      4.1. Formal Definition of Invariance
      4.2. The Invariance Identity
      4.3. A More Liberal Definition of Invariance
      5. Emmy Noether's Elegant (First) Theorem
      5.1. Invariance + Extremal = Noether's Theorem
      5.2. Executive Summary of Noether's Theorem
      5.3. "Extremal" or "Stationary"?
      5.4. An Inverse Problem
      5.5. Adiabatic Invariance in Noether's Theorem
      Part III. The Invariance of Fields
      6. Noether's Theorem and Fields
      6.1. Multiple-Integral Functionals
      6.2. Euler-Lagrange Equations for Fields
      6.3. Canonical Momentum and the HamiltonianTensor for Fields
      6.4. Equations of Continuity
      6.5. The Invariance Identity for Fields
      6.6. Noether's Theorem for Fields
      6.7. Complex Fields
      6.8. Global Gauge Transformations
      7. Local Gauge Transformations of Fields
      7.1. Local Gauge Invariance and Minimal Coupling
      7.2. Electrodynamics as a Gauge Theory,Part 1
      7.3. Pure Electrodynamics, Spacetime Invariances,and Conservation Laws
      7.4. Electrodynamics as a Gauge Theory,Part 2
      7.5. Local Gauge Invariance and Noether Currents
      7.6. Internal Degrees of Freedom
      7.7. Noether's Theorem and GaugedInternal Symmetries
      8. Emmy Noether's Elegant (Second) Theorem
      8.1. Two Noether Theorems
      8.2. Noether's Second Theorem
      8.3. Parametric Invariance
      8.4. Free Fall in a Gravitational Field
      8.5. The Gravitational Field Equations
      8.6. The Functionals of General Relativity
      8.7. Gauge Transformations on Spacetime
      8.8. Noether's Resolution of an Enigma inGeneral Relativity
      Part IV. Trans-Noether Invariance
      9. Invariance in Phase Space
      9.1. Phase Space
      9.2. Hamilton's Principle in Phase Space
      9.3. Noether's Theorem and Hamilton's Equations
      9.4. Hamilton-Jacobi Theory
      10. The Action as a Generator
      10.1. Conservation of Probabilityand Continuous Transformations
      10.2. The Poetry of Nature
      Appendixes
      A. Scalars, Vectors, and Tensors
      B. Special Relativity
      C. Equations of Motion in Quantum Mechanics
      D. Conjugate Variables and Legendre Transformations
      E. The Jacobian
      F. The Covariant Derivative
      Bibliography
      Index

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