Hardcover ISBN: | 978-0-8218-4795-4 |
Product Code: | AMSTEXT/9 |
List Price: | $79.00 |
MAA Member Price: | $71.10 |
AMS Member Price: | $63.20 |
eBook ISBN: | 978-1-4704-1122-0 |
Product Code: | AMSTEXT/9.E |
List Price: | $75.00 |
MAA Member Price: | $67.50 |
AMS Member Price: | $60.00 |
Hardcover ISBN: | 978-0-8218-4795-4 |
eBook: ISBN: | 978-1-4704-1122-0 |
Product Code: | AMSTEXT/9.B |
List Price: | $154.00 $116.50 |
MAA Member Price: | $138.60 $104.85 |
AMS Member Price: | $123.20 $93.20 |
Hardcover ISBN: | 978-0-8218-4795-4 |
Product Code: | AMSTEXT/9 |
List Price: | $79.00 |
MAA Member Price: | $71.10 |
AMS Member Price: | $63.20 |
eBook ISBN: | 978-1-4704-1122-0 |
Product Code: | AMSTEXT/9.E |
List Price: | $75.00 |
MAA Member Price: | $67.50 |
AMS Member Price: | $60.00 |
Hardcover ISBN: | 978-0-8218-4795-4 |
eBook ISBN: | 978-1-4704-1122-0 |
Product Code: | AMSTEXT/9.B |
List Price: | $154.00 $116.50 |
MAA Member Price: | $138.60 $104.85 |
AMS Member Price: | $123.20 $93.20 |
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Book DetailsPure and Applied Undergraduate TextsVolume: 9; 2003; 227 ppMSC: Primary 12
This undergraduate text takes a novel approach to the standard introductory material on groups, rings, and fields. At the heart of the text is a semi-historical journey through the early decades of the subject as it emerged in the revolutionary work of Euler, Lagrange, Gauss, and Galois. Avoiding excessive abstraction whenever possible, the text focuses on the central problem of studying the solutions of polynomial equations. Highlights include a proof of the Fundamental Theorem of Algebra, essentially due to Euler, and a proof of the constructability of the regular 17-gon, in the manner of Gauss. Another novel feature is the introduction of groups through a meditation on the meaning of congruence in the work of Euclid. Everywhere in the text, the goal is to make clear the links connecting abstract algebra to Euclidean geometry, high school algebra, and trigonometry, in the hope that students pursuing a career as secondary mathematics educators will carry away a deeper and richer understanding of the high school mathematics curriculum. Another goal is to encourage students, insofar as possible in a textbook format, to build the course for themselves, with exercises integrally embedded in the text of each chapter.
ReadershipUndergraduate students interested in abstract algebra.
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Table of Contents
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Cover
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Title page
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Preface
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Contents
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Introduction
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Chapter 0. Background
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1. What Is Congruence?
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2. Some Two-Dimensional Geometry
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3. Symmetry
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4. The Root of It All
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5. The Renaissance of Algebra
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6. Complex Numbers
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7. Symmetric Polynomials and The Fundamental Theorem of Algebra
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8. Permutations and Lagrange’s Theorem
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9. Orbits and Cauchy’s Formula
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9A. Hamilton’s Quaternions (Optional)
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10. Back to Euclid
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11. Euclid’s Lemma for Polynomials
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12. Fermat and the Rebirth of Number Theory
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13. Lagrange’s Theorem Revisited
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14. Rings and Squares
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14A. More Rings and More Squares
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15. Fermat’s Last Theorem (for Polynomials)
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15A. Still more Fermat’s Last Theorem (Optional)
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16. Constmctible Polygons and the Method of Mr. Gauss
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17. Cyclotomic Fields and Linear Algebra
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18. A Lagrange Theorem for Fields and Nonconstructibility
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19. Galois Fields and the Fundamental Theorem of Algebra Revisited
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20. Galois’ Theory of Equations
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21. The Galois Correspondence
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22. Constructible Numbers and Solvable Equations
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Index
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Back Cover
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Additional Material
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RequestsReview Copy – for publishers of book reviewsDesk Copy – for instructors who have adopted an AMS textbook for a courseExamination Copy – for faculty considering an AMS textbook for a coursePermission – for use of book, eBook, or Journal contentAccessibility – to request an alternate format of an AMS title
- Book Details
- Table of Contents
- Additional Material
- Requests
This undergraduate text takes a novel approach to the standard introductory material on groups, rings, and fields. At the heart of the text is a semi-historical journey through the early decades of the subject as it emerged in the revolutionary work of Euler, Lagrange, Gauss, and Galois. Avoiding excessive abstraction whenever possible, the text focuses on the central problem of studying the solutions of polynomial equations. Highlights include a proof of the Fundamental Theorem of Algebra, essentially due to Euler, and a proof of the constructability of the regular 17-gon, in the manner of Gauss. Another novel feature is the introduction of groups through a meditation on the meaning of congruence in the work of Euclid. Everywhere in the text, the goal is to make clear the links connecting abstract algebra to Euclidean geometry, high school algebra, and trigonometry, in the hope that students pursuing a career as secondary mathematics educators will carry away a deeper and richer understanding of the high school mathematics curriculum. Another goal is to encourage students, insofar as possible in a textbook format, to build the course for themselves, with exercises integrally embedded in the text of each chapter.
Undergraduate students interested in abstract algebra.
-
Cover
-
Title page
-
Preface
-
Contents
-
Introduction
-
Chapter 0. Background
-
1. What Is Congruence?
-
2. Some Two-Dimensional Geometry
-
3. Symmetry
-
4. The Root of It All
-
5. The Renaissance of Algebra
-
6. Complex Numbers
-
7. Symmetric Polynomials and The Fundamental Theorem of Algebra
-
8. Permutations and Lagrange’s Theorem
-
9. Orbits and Cauchy’s Formula
-
9A. Hamilton’s Quaternions (Optional)
-
10. Back to Euclid
-
11. Euclid’s Lemma for Polynomials
-
12. Fermat and the Rebirth of Number Theory
-
13. Lagrange’s Theorem Revisited
-
14. Rings and Squares
-
14A. More Rings and More Squares
-
15. Fermat’s Last Theorem (for Polynomials)
-
15A. Still more Fermat’s Last Theorem (Optional)
-
16. Constmctible Polygons and the Method of Mr. Gauss
-
17. Cyclotomic Fields and Linear Algebra
-
18. A Lagrange Theorem for Fields and Nonconstructibility
-
19. Galois Fields and the Fundamental Theorem of Algebra Revisited
-
20. Galois’ Theory of Equations
-
21. The Galois Correspondence
-
22. Constructible Numbers and Solvable Equations
-
Index
-
Back Cover