Softcover ISBN:  9781470434793 
Product Code:  STML/81 
List Price:  $59.00 
Individual Price:  $47.20 
eBook ISBN:  9781470437534 
Product Code:  STML/81.E 
List Price:  $49.00 
Individual Price:  $39.20 
Softcover ISBN:  9781470434793 
eBook: ISBN:  9781470437534 
Product Code:  STML/81.B 
List Price:  $108.00 $83.50 
Softcover ISBN:  9781470434793 
Product Code:  STML/81 
List Price:  $59.00 
Individual Price:  $47.20 
eBook ISBN:  9781470437534 
Product Code:  STML/81.E 
List Price:  $49.00 
Individual Price:  $39.20 
Softcover ISBN:  9781470434793 
eBook ISBN:  9781470437534 
Product Code:  STML/81.B 
List Price:  $108.00 $83.50 

Book DetailsStudent Mathematical LibraryVolume: 81; 2017; 420 ppMSC: Primary 20; 51; Secondary 22; 54; 57
Groups arise naturally as symmetries of geometric objects, and so groups can be used to understand geometry and topology. Conversely, one can study abstract groups by using geometric techniques and ultimately by treating groups themselves as geometric objects. This book explores these connections between group theory and geometry, introducing some of the main ideas of transformation groups, algebraic topology, and geometric group theory.
The first half of the book introduces basic notions of group theory and studies symmetry groups in various geometries, including Euclidean, projective, and hyperbolic. The classification of Euclidean isometries leads to results on regular polyhedra and polytopes; the study of symmetry groups using matrices leads to Lie groups and Lie algebras.
The second half of the book explores ideas from algebraic topology and geometric group theory. The fundamental group appears as yet another group associated to a geometric object and turns out to be a symmetry group using covering spaces and deck transformations. In the other direction, Cayley graphs, planar models, and fundamental domains appear as geometric objects associated to groups. The final chapter discusses groups themselves as geometric objects, including a gentle introduction to Gromov's theorem on polynomial growth and Grigorchuk's example of intermediate growth.
The book is accessible to undergraduate students (and anyone else) with a background in calculus, linear algebra, and basic real analysis, including topological notions of convergence and connectedness.
This book is a result of the MASS course in algebra at Penn State University in the fall semester of 2009.
This book is published in cooperation with Mathematics Advanced Study Semesters.ReadershipUndergraduate and graduate students interested in group theory and geometry.

Table of Contents

Chapters

Elements of group theory

Symmetry in the Euclidean world: Groups of isometries of planar and spatial objects

Groups of matrices: Linear algebra and symmetry in various geometries

Fundamental group: A different kind of group associated to geometric objects

From groups to geometric objects and back

Groups at large scale


Additional Material

Reviews

Despite the beauty of the subject and the many applications to other areas of mathematics and physics, the geometry of group actions is not a common part of an undergraduate mathematics curriculum. The book under review attempts to fill that gap...The text is well written in a conversational style with many nice figures. It is a pleasure to read, for the instructor.
Cristopher H. Cashen, Mathematical Reviews 
The clarity of the exposition and the richness of the topics make this a valuable addition to undergraduate math libraries.
J. McCleary, CHOICE


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Groups arise naturally as symmetries of geometric objects, and so groups can be used to understand geometry and topology. Conversely, one can study abstract groups by using geometric techniques and ultimately by treating groups themselves as geometric objects. This book explores these connections between group theory and geometry, introducing some of the main ideas of transformation groups, algebraic topology, and geometric group theory.
The first half of the book introduces basic notions of group theory and studies symmetry groups in various geometries, including Euclidean, projective, and hyperbolic. The classification of Euclidean isometries leads to results on regular polyhedra and polytopes; the study of symmetry groups using matrices leads to Lie groups and Lie algebras.
The second half of the book explores ideas from algebraic topology and geometric group theory. The fundamental group appears as yet another group associated to a geometric object and turns out to be a symmetry group using covering spaces and deck transformations. In the other direction, Cayley graphs, planar models, and fundamental domains appear as geometric objects associated to groups. The final chapter discusses groups themselves as geometric objects, including a gentle introduction to Gromov's theorem on polynomial growth and Grigorchuk's example of intermediate growth.
The book is accessible to undergraduate students (and anyone else) with a background in calculus, linear algebra, and basic real analysis, including topological notions of convergence and connectedness.
This book is a result of the MASS course in algebra at Penn State University in the fall semester of 2009.
Undergraduate and graduate students interested in group theory and geometry.

Chapters

Elements of group theory

Symmetry in the Euclidean world: Groups of isometries of planar and spatial objects

Groups of matrices: Linear algebra and symmetry in various geometries

Fundamental group: A different kind of group associated to geometric objects

From groups to geometric objects and back

Groups at large scale

Despite the beauty of the subject and the many applications to other areas of mathematics and physics, the geometry of group actions is not a common part of an undergraduate mathematics curriculum. The book under review attempts to fill that gap...The text is well written in a conversational style with many nice figures. It is a pleasure to read, for the instructor.
Cristopher H. Cashen, Mathematical Reviews 
The clarity of the exposition and the richness of the topics make this a valuable addition to undergraduate math libraries.
J. McCleary, CHOICE