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Emergence of the Theory of Lie Groups Thomas Hawkins

Emergence of the Theory of Lie Groups By Thomas Hawkins

Emergence of the Theory of Lie Groups by Thomas Hawkins

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Summary

The great Norwegian mathematician Sophus Lie developed the general theory of transformations in the 1870s, and the first part of the book properly focuses on his work.

Emergence of the Theory of Lie Groups Summary

Emergence of the Theory of Lie Groups: An Essay in the History of Mathematics 1869-1926 by Thomas Hawkins

The great Norwegian mathematician Sophus Lie developed the general theory of transformations in the 1870s, and the first part of the book properly focuses on his work. In the second part the central figure is Wilhelm Killing, who developed structure and classification of semisimple Lie algebras. The third part focuses on the developments of the representation of Lie algebras, in particular the work of Elie Cartan. The book concludes with the work of Hermann Weyl and his contemporaries on the structure and representation of Lie groups which serves to bring together much of the earlier work into a coherent theory while at the same time opening up significant avenues for further work.

Emergence of the Theory of Lie Groups Reviews

....this study is just as clearly a stunning achievement. Few historians of mathematics have made a serious attempt to cross the bridge joining the nineteenth and twentieth centuries, and those who have made the journey have tended to avert their eyes from the mainstream traffic....the single greatest merit of Hawkins' book is that the author tries to place the reader in the middle of the action, offering a close up look at how mathematics gets made...Hawkins' account of this strange but wonderful saga resurrects a heroic chapter in the history of mathematics. For anyone with a serious interest in the rich background developments that led to modern Lie theory, this book should be browsed, read, savored, and read again.

-Notices of the AMS

Table of Contents

I: Sophus Lie.- 1. The Geometrical Origins of Lie's Theory.- 1.1. Tetrahedral Line Complexes.- 1.2. W-Curves and W-Surfaces.- 1.3. Lie's Idee Fixe.- 1.4. The Sphere Mapping.- 1.5. The Erlanger Programm.- 2. Jacobi and the Analytical Origins of Lie's Theory.- 2.1. Jacobi's Two Methods.- 2.2. The Calculus of Infinitesimal Transformations.- 2.3. Function Groups.- 2.4. The Invariant Theory of Contact Transformations.- 2.5. The Birth of Lie's Theory of Groups.- 3. Lie's Theory of Transformation Groups 1874-1893..- 3.1. The Group Classification Problem.- 3.2. An Overview of Lie's Theory.- 3.3. The Adjoint Group.- 3.4. Complete Systems and Lie's Idee Fixe.- 3.5. The Symplectic Groups.- II: Wilhelm Killing.- 4. The Background to Killing's Work on Lie Algebras.- 4.1. Non-Euclidean Geometry and Weierstrassian Mathematics.- 4.2. Student Years in Berlin: 1867-1872.- 4.3. Non-Euclidean Geometry and General Space Forms.- 4.4. From Space Forms to Lie Algebras.- 4.5. Riemann and Helmholz.- 4.6. Killing and Klein on the Scope of Geometry.- >Chapter 5. Killing and the Structure of Lie Algebrass.- 5.1. Spaces Forms and Characteristic Equations.- 5.2. Encounter with Lie's Theory.- 5.3. Correspondence with Engel.- 5.4. Killing's Theory of Structure.- 5.5. Groups of Rank Zero.- 5.6. The Lobachevsky Prize.- III: Elie Cartan.- 6. The Doctoral Thesis of Elie Cartan.- 6.1. Lie and the Mathematicians of Paris.- 6.2. Cartan's Theory of Semisimple Algebras.- 6.3. Killing's Secondary Roots.- 6.4. Cartan's Application of Secondary Roots.- 7. Lie's School & Linear Representations.- 7.1. Representations in Lie's Research Program.- 7.2. Eduard Study.- 7.3. Gino Fano.- 7.4. Cayley's Counting Problem.- 7.5. Kowalewski's Theory of Weights.- 8. Cartan's Trilogy: 1913-14.- 8.1. Research Priorities 1893-1909.- 8.2. Another Application of Secondary Roots.- 8.3. Continuous Groups and Geometry.- 8.4. The Memoir of 1913.- 8.5. The Memoirs of 1914.- IV: Hermann Weyl.- 9. The Goettingen School of Hilbert.- 9.1. Hilbert and the Theory of Invariants.- 9.2. Hilbert at Goettingen.- 9.3. The Mathematization of Physics at Goettingen ..- 9.4. Weyl's Goettingen Years: Integral Equations.- 9.5. Weyl's Goettingen Years: Riemann Surfaces.- 9.6. Hilbert's Brand of Mathematical Thinking.- 10. The Berlin Algebraists: Frobenius & Schur.- 10.1. Frobenius' Theory of Group Characters & Representations.- 10.2. Hurwitz and the Theory of Invariants.- 10.3. Schur's Doctoral Dissertation.- 10.4. Schur's Career 1901-1923.- 10.5. Cayley's Counting Problem Revisited.- 11. From Relativity to Representations.- 11.1. Einstein's General Theory of Relativity.- 11.2. The Space Problem Reconsidered.- 11.3. Tensor Algebra & Tensor Symmetries.- 11.4. Weyl's Response to Study.- 11.5. The Group-Theoretic Foundation of Tensor Calculus.- 12. Weyl's Great Papers of 1925 and 1926.- 12.1. The Complete Reducibility Theorem.- 12.2. Schur and the Origins of Weyl's 1925 Paper.- 12.3. Weyl's Extension of the Killing-Cartan Theory.- 12.4. Weyl's Finite Basis Theorem.- 12.5. Weyl's Theory of Characters.- 12.6. Cartan's Response.- 12.7. The Peter-Weyl Paper.- Afterword. Suggested Further Reading.- References. Published & Unpublished Sources.

Additional information

NLS9781461270423
9781461270423
1461270421
Emergence of the Theory of Lie Groups: An Essay in the History of Mathematics 1869-1926 by Thomas Hawkins
Thomas Hawkins
Sources and Studies in the History of Mathematics and Physical Sciences
New
Paperback
Springer-Verlag New York Inc.
2012-09-27
566
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
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