Softcover ISBN:  9780821837207 
Product Code:  STML/26 
List Price:  $59.00 
Individual Price:  $47.20 
eBook ISBN:  9781470421380 
Product Code:  STML/26.E 
List Price:  $49.00 
Individual Price:  $39.20 
Softcover ISBN:  9780821837207 
eBook: ISBN:  9781470421380 
Product Code:  STML/26.B 
List Price:  $108.00$83.50 
Softcover ISBN:  9780821837207 
Product Code:  STML/26 
List Price:  $59.00 
Individual Price:  $47.20 
eBook ISBN:  9781470421380 
Product Code:  STML/26.E 
List Price:  $49.00 
Individual Price:  $39.20 
Softcover ISBN:  9780821837207 
eBook ISBN:  9781470421380 
Product Code:  STML/26.B 
List Price:  $108.00$83.50 

Book DetailsStudent Mathematical LibraryVolume: 26; 2004; 153 ppMSC: Primary 49;
The calculus of variations is a beautiful subject with a rich history and with origins in the minimization problems of calculus. Although it is now at the core of many modern mathematical fields, it does not have a welldefined place in most undergraduate mathematics curricula. This volume should nevertheless give the undergraduate reader a sense of its great character and importance.
Interesting functionals, such as area or energy, often give rise to problems for which the most natural solution occurs by differentiating a oneparameter family of variations of some function. The critical points of the functional are related to the solutions of the associated EulerLagrange equation. These differential equations are at the heart of the calculus of variations and its applications to other subjects. Some of the topics addressed in this book are Morse theory, wave mechanics, minimal surfaces, soap bubbles, and modeling traffic flow. All are readily accessible to advanced undergraduates.
This book is derived from a workshop sponsored by Rice University. It is suitable for advanced undergraduates, graduate students and research mathematicians interested in the calculus of variations and its applications to other subjects.ReadershipUndergraduates, graduate students and research mathematicians interested in the calculus of variations and its applications to other subjects.

Table of Contents

Articles

Frank Jones  1. Calculus of variations: What does “variations” mean?

Robin Forman  2. How many equilibria are there? An introduction to Morse theory

Steven J. Cox  3. Aye, there’s the rub. An inquiry into why a plucked string comes to rest

Frank Morgan  4. Proof of the double bubble conjecture

Michael Wolf  5. Minimal surfaces, flat cone spheres and moduli spaces of staircases

Barbara Lee Keyfitz  6. Hold that light! Modeling of traffic flow by differential equations


Additional Material

Reviews

This is a nice little book on many levels. The exposition is entertaining, the interplay between the mathematics and the applications is interesting, and the idea of 'advertising' higher mathematics to undergraduates and graduate students seems exciting and productive.
MAA Reviews 
The book is recommended to an audience of undergraduate students as well as to teachers looking for inspiration for their own lectures.
EMS Newsletter 
This work is a beautiful collection of six papers written by well known specialists in the Calculus of Variations. ... All these papers are very well written and they illustrate the fruitful interplay between pure and applied mathematics.
Zentralblatt MATH


RequestsReview Copy – for publishers of book reviewsPermission – for use of book, eBook, or Journal contentAccessibility – to request an alternate format of an AMS title
 Book Details
 Table of Contents
 Additional Material
 Reviews
 Requests
The calculus of variations is a beautiful subject with a rich history and with origins in the minimization problems of calculus. Although it is now at the core of many modern mathematical fields, it does not have a welldefined place in most undergraduate mathematics curricula. This volume should nevertheless give the undergraduate reader a sense of its great character and importance.
Interesting functionals, such as area or energy, often give rise to problems for which the most natural solution occurs by differentiating a oneparameter family of variations of some function. The critical points of the functional are related to the solutions of the associated EulerLagrange equation. These differential equations are at the heart of the calculus of variations and its applications to other subjects. Some of the topics addressed in this book are Morse theory, wave mechanics, minimal surfaces, soap bubbles, and modeling traffic flow. All are readily accessible to advanced undergraduates.
This book is derived from a workshop sponsored by Rice University. It is suitable for advanced undergraduates, graduate students and research mathematicians interested in the calculus of variations and its applications to other subjects.
Undergraduates, graduate students and research mathematicians interested in the calculus of variations and its applications to other subjects.

Articles

Frank Jones  1. Calculus of variations: What does “variations” mean?

Robin Forman  2. How many equilibria are there? An introduction to Morse theory

Steven J. Cox  3. Aye, there’s the rub. An inquiry into why a plucked string comes to rest

Frank Morgan  4. Proof of the double bubble conjecture

Michael Wolf  5. Minimal surfaces, flat cone spheres and moduli spaces of staircases

Barbara Lee Keyfitz  6. Hold that light! Modeling of traffic flow by differential equations

This is a nice little book on many levels. The exposition is entertaining, the interplay between the mathematics and the applications is interesting, and the idea of 'advertising' higher mathematics to undergraduates and graduate students seems exciting and productive.
MAA Reviews 
The book is recommended to an audience of undergraduate students as well as to teachers looking for inspiration for their own lectures.
EMS Newsletter 
This work is a beautiful collection of six papers written by well known specialists in the Calculus of Variations. ... All these papers are very well written and they illustrate the fruitful interplay between pure and applied mathematics.
Zentralblatt MATH