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Introduction to Differentiable Manifolds (Hardcover, 2002 ed.): Serge Lang Introduction to Differentiable Manifolds (Hardcover, 2002 ed.)
Serge Lang
R2,554 Discovery Miles 25 540 Ships in 12 - 17 working days

This book contains essential material that every graduate student must know. Written with Serge Lang's inimitable wit and clarity, the volume introduces the reader to manifolds, differential forms, Darboux's theorem, Frobenius, and all the central features of the foundations of differential geometry. Lang lays the basis for further study in geometric analysis, and provides a solid resource in the techniques of differential topology. The book will have a key position on my shelf. -Steven Krantz, Washington University in St. Louis This is an elementary, finite dimensional version of the author's classic monograph, Introduction to Differentiable Manifolds (1962), which served as the standard reference for infinite dimensional manifolds. It provides a firm foundation for a beginner's entry into geometry, topology, and global analysis. The exposition is unencumbered by unnecessary formalism, notational or otherwise, which is a pitfall few writers of introductory texts of the subject manage to avoid. The author's hallmark characteristics of directness, conciseness, and structural clarity are everywhere in evidence. A nice touch is the inclusion of more advanced topics at the end of the book, including the computation of the top cohomology group of a manifolds, a generalized divergence theorem of Gauss, and an elementary residue theorem of several complex variables. If getting to the main point of an argument or having the key ideas of a subject laid bare is important to you, then you would find the reading of this book a satisfying experience.

Introduction to Arakelov Theory (Hardcover, 1988 ed.): Serge Lang Introduction to Arakelov Theory (Hardcover, 1988 ed.)
Serge Lang
R3,020 Discovery Miles 30 200 Ships in 12 - 17 working days

Arakelov introduced a component at infinity in arithmetic considerations, thus giving rise to global theorems similar to those of the theory of surfaces, but in an arithmetic context over the ring of integers of a number field. The book gives an introduction to this theory, including the analogues of the Hodge Index Theorem, the Arakelov adjunction formula, and the Faltings Riemann-Roch theorem. The book is intended for second year graduate students and researchers in the field who want a systematic introduction to the subject. The residue theorem, which forms the basis for the adjunction formula, is proved by a direct method due to Kunz and Waldi. The Faltings Riemann-Roch theorem is proved without assumptions of semistability. An effort has been made to include all necessary details, and as complete references as possible, especially to needed facts of analysis for Green's functions and the Faltings metrics.

Cyclotomic Fields I and II (Hardcover, 2nd ed. 1990): Karl Rubin Cyclotomic Fields I and II (Hardcover, 2nd ed. 1990)
Karl Rubin; Serge Lang
R2,599 Discovery Miles 25 990 Ships in 12 - 17 working days

Kummer's work on cyclotomic fields paved the way for the development of algebraic number theory in general by Dedekind, Weber, Hensel, Hilbert, Takagi, Artin and others. However, the success of this general theory has tended to obscure special facts proved by Kummer about cyclotomic fields which lie deeper than the general theory. For a long period in the 20th century this aspect of Kummer's work seems to have been largely forgotten, except for a few papers, among which are those by Pollaczek [Po], Artin-Hasse [A-H] and Vandiver [Va]. In the mid 1950's, the theory of cyclotomic fields was taken up again by Iwasawa and Leopoldt. Iwasawa viewed cyclotomic fields as being analogues for number fields of the constant field extensions of algebraic geometry, and wrote a great sequence of papers investigating towers of cyclotomic fields, and more generally, Galois extensions of number fields whose Galois group is isomorphic to the additive group of p-adic integers. Leopoldt concentrated on a fixed cyclotomic field, and established various p-adic analogues of the classical complex analytic class number formulas. In particular, this led him to introduce, with Kubota, p-adic analogues of the complex L-functions attached to cyclotomic extensions of the rationals. Finally, in the late 1960's, Iwasawa [Iw 11] made the fundamental discovery that there was a close connection between his work on towers of cyclotomic fields and these p-adic L-functions of Leopoldt - Kubota.

Introduction to Diophantine Approximations - New Expanded Edition (Hardcover, 2nd expanded ed. 1995): Serge Lang Introduction to Diophantine Approximations - New Expanded Edition (Hardcover, 2nd expanded ed. 1995)
Serge Lang
R2,868 Discovery Miles 28 680 Ships in 10 - 15 working days

The aim of this book is to illustrate by significant special examples three aspects of the theory of Diophantine approximations: the formal relationships that exist between counting processes and the functions entering the theory; the determination of these functions for numbers given as classical numbers; and certain asymptotic estimates holding almost everywhere.Each chapter works out a special case of a much broader general theory, as yet unknown. Indications for this are given throughout the book, together with reference to current publications. The book may be used in a course in number theory, whose students will thus be put in contact with interesting but accessible problems on the ground floor of mathematics.

Math Talks for Undergraduates (Hardcover, 1999 ed.): Serge Lang Math Talks for Undergraduates (Hardcover, 1999 ed.)
Serge Lang
R2,858 Discovery Miles 28 580 Ships in 10 - 15 working days

For many years Serge Lang has given talks to undergraduates on selected items in mathematics which could be extracted at a level understandable by students who have had calculus. Written in a conversational tone, Lang now presents a collection of those talks as a book. The talks could be given by faculty, but even better, they may be given by students in seminars run by the students themselves. Undergraduates, and even some high school students, will enjoy the talks which cover prime numbers, the abc conjecture, approximation theorems of analysis, Bruhat-Tits spaces, harmonic and symmetric polynomials, and more in a lively and informal style.

The Heat Kernel and Theta Inversion on SL2(C) (Hardcover, 2008 ed.): Jay Jorgenson, Serge Lang The Heat Kernel and Theta Inversion on SL2(C) (Hardcover, 2008 ed.)
Jay Jorgenson, Serge Lang
R2,830 Discovery Miles 28 300 Ships in 10 - 15 working days

The worthy purpose of this text is to provide a complete, self-contained development of the trace formula and theta inversion formula for SL(2, Z i])\SL(2, C). Unlike other treatments of the theory, the approach taken here is to begin with the heat kernel on SL(2, C) associated to the invariant Laplacian, which is derived using spherical inversion. The heat kernel on the quotient space SL(2, Z i])\SL(2, C) is arrived at through periodization, and further expanded in an eigenfunction expansion. A theta inversion formula is obtained by studying the trace of the heat kernel. Following the author's previous work, the inversion formula then leads to zeta functions through the Gauss transform.

Introduction to Modular Forms (Hardcover, 1st ed. 1976. Corr. 3rd printing 2001): Serge Lang Introduction to Modular Forms (Hardcover, 1st ed. 1976. Corr. 3rd printing 2001)
Serge Lang
R3,667 Discovery Miles 36 670 Ships in 10 - 15 working days

From the reviews: "This book gives a thorough introduction to several theories that are fundamental to research on modular forms. Most of the material, despite its importance, had previously been unavailable in textbook form. Complete and readable proofs are given... In conclusion, this book is a welcome addition to the literature for the growing number of students and mathematicians in other fields who want to understand the recent developments in the theory of modular forms." #Mathematical Reviews#"This book will certainly be indispensable to all those wishing to get an up-to-date initiation to the theory of modular forms."#Publicationes Mathematicae#

Introduction to Complex Hyperbolic Spaces (Hardcover, 1987 ed.): Serge Lang Introduction to Complex Hyperbolic Spaces (Hardcover, 1987 ed.)
Serge Lang
R2,949 Discovery Miles 29 490 Ships in 10 - 15 working days

Since the appearance of Kobayashi's book, there have been several re sults at the basic level of hyperbolic spaces, for instance Brody's theorem, and results of Green, Kiernan, Kobayashi, Noguchi, etc. which make it worthwhile to have a systematic exposition. Although of necessity I re produce some theorems from Kobayashi, I take a different direction, with different applications in mind, so the present book does not super sede Kobayashi's. My interest in these matters stems from their relations with diophan tine geometry. Indeed, if X is a projective variety over the complex numbers, then I conjecture that X is hyperbolic if and only if X has only a finite number of rational points in every finitely generated field over the rational numbers. There are also a number of subsidiary conjectures related to this one. These conjectures are qualitative. Vojta has made quantitative conjectures by relating the Second Main Theorem of Nevan linna theory to the theory of heights, and he has conjectured bounds on heights stemming from inequalities having to do with diophantine approximations and implying both classical and modern conjectures. Noguchi has looked at the function field case and made substantial progress, after the line started by Grauert and Grauert-Reckziegel and continued by a recent paper of Riebesehl. The book is divided into three main parts: the basic complex analytic theory, differential geometric aspects, and Nevanlinna theory. Several chapters of this book are logically independent of each other."

Differential and Riemannian Manifolds (Hardcover, 3rd ed. 1995. Corr. 2nd printing 1996): Serge Lang Differential and Riemannian Manifolds (Hardcover, 3rd ed. 1995. Corr. 2nd printing 1996)
Serge Lang
R2,582 Discovery Miles 25 820 Ships in 12 - 17 working days

This is the third version of a book on differential manifolds. The first version appeared in 1962, and was written at the very beginning of a period of great expansion of the subject. At the time, I found no satisfactory book for the foundations of the subject, for multiple reasons. I expanded the book in 1971, and I expand it still further today. Specifically, I have added three chapters on Riemannian and pseudo Riemannian geometry, that is, covariant derivatives, curvature, and some applications up to the Hopf-Rinow and Hadamard-Cartan theorems, as well as some calculus of variations and applications to volume forms. I have rewritten the sections on sprays, and I have given more examples of the use of Stokes' theorem. I have also given many more references to the literature, all of this to broaden the perspective of the book, which I hope can be used among things for a general course leading into many directions. The present book still meets the old needs, but fulfills new ones. At the most basic level, the book gives an introduction to the basic concepts which are used in differential topology, differential geometry, and differential equations. In differential topology, one studies for instance homotopy classes of maps and the possibility of finding suitable differentiable maps in them (immersions, embeddings, isomorphisms, etc.).

Undergraduate Algebra (Hardcover, 3rd ed. 2005): Serge Lang Undergraduate Algebra (Hardcover, 3rd ed. 2005)
Serge Lang
R1,717 Discovery Miles 17 170 Ships in 12 - 17 working days

The companion title, Linear Algebra, has sold over 8,000 copies

The writing style is very accessible

The material can be covered easily in a one-year or one-term course

Includes Noah Snyder's proof of the Mason-Stothers polynomial abc theorem

New material included on product structure for matrices including descriptions of the conjugation representation of the diagonal group

Algebraic Number Theory (Hardcover, 2nd ed. 1994. Corr. 3rd printing 2000): Serge Lang Algebraic Number Theory (Hardcover, 2nd ed. 1994. Corr. 3rd printing 2000)
Serge Lang
R1,907 Discovery Miles 19 070 Ships in 12 - 17 working days

This is a corrected printing of the second edition of Lang's well-known textbook. It covers all of the basic material of classical algebraic number theory, giving the student the background necessary for the study of further topics in algebraic number theory, such as cyclotomic fields, or modular forms. Part I introduces some of the basic ideas of the theory: number fields, ideal classes, ideles and adeles, and zeta functions. It also contains a version of a Riemann-Roch theorem in number fields, proved by Lang in the very first version of the book in the sixties. This version can now be seen as a precursor of Arakelov theory. Part II covers class field theory, and Part III is devoted to analytic methods, including an exposition of Tate's thesis, the Brauer-Siegel theorem, and Weil's explicit formulas. The second edition contains corrections, as well as several additions to the previous edition, and the last chapter on explicit formulas has been rewritten.

Spherical Inversion on SLn(R) (Hardcover, 2001 ed.): Jay Jorgenson, Serge Lang Spherical Inversion on SLn(R) (Hardcover, 2001 ed.)
Jay Jorgenson, Serge Lang
R2,873 Discovery Miles 28 730 Ships in 10 - 15 working days

Harish-Chandra¿s general Plancherel inversion theorem admits a much shorter presentation for spherical functions. Previous expositions have dealt with a general, wide class of Lie groups. This has made access to the subject difficult for outsiders, who may wish to connect some aspects with several if not all other parts of mathematics. In this book, the essential features of Harish-Chandra theory are exhibited on SLn(R), but hundreds of pages of background are replaced by short direct verifications. The material is accessible to graduate students with no background in Lie groups and representation theory.

Introduction to Algebraic and Abelian Functions (Hardcover, 2nd ed. 1982. Corr. 2nd printing 1995): Serge Lang Introduction to Algebraic and Abelian Functions (Hardcover, 2nd ed. 1982. Corr. 2nd printing 1995)
Serge Lang
R2,376 Discovery Miles 23 760 Ships in 12 - 17 working days

Introduction to Algebraic and Abelian Functions is a self-contained presentation of a fundamental subject in algebraic geometry and number theory. For this revised edition, the material on theta functions has been expanded, and the example of the Fermat curves is carried throughout the text. This volume is geared toward a second-year graduate course, but it leads naturally to the study of more advanced books listed in the bibliography.

Elliptic Functions (Hardcover, 2nd ed. 1987): Serge Lang Elliptic Functions (Hardcover, 2nd ed. 1987)
Serge Lang
R3,226 Discovery Miles 32 260 Ships in 10 - 15 working days

Elliptic functions parametrize elliptic curves, and the intermingling of the analytic and algebraic-arithmetic theory has been at the center of mathematics since the early part of the nineteenth century. The book is divided into four parts. In the first, Lang presents the general analytic theory starting from scratch. Most of this can be read by a student with a basic knowledge of complex analysis. The next part treats complex multiplication, including a discussion of Deuring's theory of l-adic and p-adic representations, and elliptic curves with singular invariants. Part three covers curves with non-integral invariants, and applies the Tate parametrization to give Serre's results on division points. The last part covers theta functions and the Kronecker Limit Formula. Also included is an appendix by Tate on algebraic formulas in arbitrary charactistic.

Number Theory III - Diophantine Geometry (Hardcover, 1991 ed.): Serge Lang Number Theory III - Diophantine Geometry (Hardcover, 1991 ed.)
Serge Lang; Serge Lang
R2,969 Discovery Miles 29 690 Ships in 10 - 15 working days

In 1988 Shafarevich asked me to write a volume for the Encyclopaedia of Mathematical Sciences on Diophantine Geometry. I said yes, and here is the volume. By definition, diophantine problems concern the solutions of equations in integers, or rational numbers, or various generalizations, such as finitely generated rings over Z or finitely generated fields over Q. The word Geometry is tacked on to suggest geometric methods. This means that the present volume is not elementary. For a survey of some basic problems with a much more elementary approach, see La 9Oc]. The field of diophantine geometry is now moving quite rapidly. Out standing conjectures ranging from decades back are being proved. I have tried to give the book some sort of coherence and permanence by em phasizing structural conjectures as much as results, so that one has a clear picture of the field. On the whole, I omit proofs, according to the boundary conditions of the encyclopedia. On some occasions I do give some ideas for the proofs when these are especially important. In any case, a lengthy bibliography refers to papers and books where proofs may be found. I have also followed Shafarevich's suggestion to give examples, and I have especially chosen these examples which show how some classical problems do or do not get solved by contemporary in sights. Fermat's last theorem occupies an intermediate position. Al though it is not proved, it is not an isolated problem any more."

Complex Analysis (Hardcover, 4th ed. 1999. Corr. 3rd printing 2003): Serge Lang Complex Analysis (Hardcover, 4th ed. 1999. Corr. 3rd printing 2003)
Serge Lang
R2,049 Discovery Miles 20 490 Ships in 12 - 17 working days

Now in its fourth edition, the first part of this book is devoted to the basic material of complex analysis, while the second covers many special topics, such as the Riemann Mapping Theorem, the gamma function, and analytic continuation. Power series methods are used more systematically than is found in other texts, and the resulting proofs often shed more light on the results than the standard proofs. While the first part is suitable for an introductory course at undergraduate level, the additional topics covered in the second part give the instructor of a gradute course a great deal of flexibility in structuring a more advanced course.

Fundamentals of Differential Geometry (Hardcover, 1st ed. 1999. Corr. 2nd printing 2001): Serge Lang Fundamentals of Differential Geometry (Hardcover, 1st ed. 1999. Corr. 2nd printing 2001)
Serge Lang
R2,886 Discovery Miles 28 860 Ships in 10 - 15 working days

This text provides an introduction to basic concepts in differential topology, differential geometry, and differential equations, and some of the main basic theorems in all three areas: for instance, the existence, uniqueness, and smoothness theorems for differential equations and the flow of a vector field; the basic theory of vector bundles including the existence of tubular neighborhoods for a submanifold; the calculus of differential forms; basic notions of symplectic manifolds, including the canonical 2-form; sprays and covariant derivatives for Riemannian and pseudo-Riemannian manifolds; applications to the exponential map, including the Cartan-Hadamard theorem and the first basic theorem of calculus of variations. Although the book grew out of the author's earlier book "Differential and Riemannian Manifolds", the focus has now changed from the general theory of manifolds to general differential geometry, and includes new chapters on Jacobi lifts, tensorial splitting of the double tangent bundle, curvature and the variation formula, a generalization of the Cartan-Hadamard theorem, the semiparallelogram law of Bruhat-Tits and its equivalence with seminegative curvature and the exponential map distance increasing property, a major example of seminegative curvature (the space of positive definite symmetric real matrices), automorphisms and symmetries, and immersions and submersions. These are all covered for infinite-dimensional manifolds, modeled on Banach and Hilbert Spaces, at no cost in complications, and some gain in the elegance of the proofs. In the finite-dimensional case, differential forms of top degree are discussed, leading to Stokes' theorem (even for manifolds with singular boundary), and several of its applications to the differential or Riemannian case. Basic formulas concerning the Laplacian are given, exhibiting several of its features in immersions and submersions.

Geometry - A High School Course (Hardcover, 2nd ed. 1988. Corr. 6th printing 2000): Serge Lang, Gene Murrow Geometry - A High School Course (Hardcover, 2nd ed. 1988. Corr. 6th printing 2000)
Serge Lang, Gene Murrow
R1,617 Discovery Miles 16 170 Ships in 12 - 17 working days

This text presents geometry in an exemplary, accessible and attractive form. The book emphasizes both the intellectually stimulating parts of geometry and routine arguments or computations in concrete or classical cases, as well as practical and physical applications. The book also teaches the student fundamental concepts and the difference between important reults and minor technical routines. Altogether, the text presents a coherent high school curriculum for the geometry course. There are many examples and exercises.

Undergraduate Algebra (Paperback, Softcover reprint of hardcover 3rd ed. 2005): Serge Lang Undergraduate Algebra (Paperback, Softcover reprint of hardcover 3rd ed. 2005)
Serge Lang
R1,741 Discovery Miles 17 410 Ships in 10 - 15 working days

The companion title, Linear Algebra, has sold over 8,000 copies

The writing style is very accessible

The material can be covered easily in a one-year or one-term course

Includes Noah Snyder's proof of the Mason-Stothers polynomial abc theorem

New material included on product structure for matrices including descriptions of the conjugation representation of the diagonal group

Math! - Encounters with High School Students (Paperback, 1985 ed.): Serge Lang Math! - Encounters with High School Students (Paperback, 1985 ed.)
Serge Lang
R1,412 R1,120 Discovery Miles 11 200 Save R292 (21%) Ships in 10 - 15 working days

Dieses Buch enthalt eine Sammlung von Dialogen des bekannten Mathematikers Serge Lang mit Schulern. Serge Lang behandelt die Schuler als seinesgleichen und zeigt ihnen mit dem ihm eigenen lebendigen Stil etwas vom Wesen des mathematischen Denkens. Die Begegnungen zwischen Lang und den Schulern sind nach Bandaufnahmen aufgezeichnet worden und daher authentisch und lebendig. Das Buch stellt einen frischen und neuartigen Ansatz fur Lehren, Lernen und Genuss von Mathematik vor. Das Buch ist von grossem Interesse fur Lehrer und Schule

Collected Papers 1971-1977 (English, German, Paperback, 2000. Reprint 2013 of the 2000 edition): Serge Lang Collected Papers 1971-1977 (English, German, Paperback, 2000. Reprint 2013 of the 2000 edition)
Serge Lang
R1,920 Discovery Miles 19 200 Ships in 10 - 15 working days

Serge Lang is one of the top mathematicians of our time. Being an excellent writer, Lang has made innumerable contributions in diverse fields in mathematics and they are invaluable. He was honored with the Cole Prize by the American Mathematical Society as well as with the Prix Carriere by the French Academy of Sciences. In these four volumes 83 of his research papers are collected. They range over a variety of topics and will be of interest to many readers.

Collected Papers, I (English, French, Paperback, 2000. Reprint 2013 of the 2000 edition): Serge Lang Collected Papers, I (English, French, Paperback, 2000. Reprint 2013 of the 2000 edition)
Serge Lang
R1,904 Discovery Miles 19 040 Ships in 10 - 15 working days

Serge Lang is one of the top mathematicians of our time. Being an excellent writer, Lang has made innumerable contributions in diverse fields in mathematics and they are invaluable. He was honored with the Cole Prize by the American Mathematical Society as well as with the Prix Carriere by the French Academy of Sciences. In these four volumes 83 of his research papers are collected. They range over a variety of topics and will be of interest to many readers.

Collected Papers, IV (English, German, Paperback, 2000 ed.): Serge Lang Collected Papers, IV (English, German, Paperback, 2000 ed.)
Serge Lang
R1,885 Discovery Miles 18 850 Ships in 10 - 15 working days

Serge Lang (1927-2005) was one of the top mathematicians of our time. He was born in Paris in 1927, and moved with his family to California, where he graduated from Beverly Hills High School in 1943. He subsequently graduated from California Institute of Technology in 1946, and received a doctorate from Princeton University in 1951 before holding faculty positions at the University of Chicago and Columbia University (1955-1971). At the time of his death he was professor emeritus of Mathematics at Yale University.
An excellent writer, Lang has made innumerable and invaluable contributions in diverse fields of mathematics. He was perhaps best known for his work in number theory and for his mathematics textbooks, including the influential "Algebra." He was also a member of the Bourbaki group.
He was honored with the Cole Prize by the American Mathematical Society as well as with the Prix Carriere by the French Academy of Sciences. These five volumes collect the majority of his research papers, which range over a variety of topics."

Algebraic Number Theory (Paperback, 2nd ed. 1994. Softcover reprint of the original 2nd ed. 1994): Serge Lang Algebraic Number Theory (Paperback, 2nd ed. 1994. Softcover reprint of the original 2nd ed. 1994)
Serge Lang
R1,852 Discovery Miles 18 520 Ships in 10 - 15 working days

This is a second edition of Lang's well-known textbook. It covers all of the basic material of classical algebraic number theory, giving the student the background necessary for the study of further topics in algebraic number theory, such as cyclotomic fields, or modular forms.

"Lang's books are always of great value for the graduate student and the research mathematician. This updated edition of Algebraic number theory is no exception."--MATHEMATICAL REVIEWS

Collected Papers V - 1993-1999 (Paperback, 2001. Reprint 2013 of the 2001 edition): Jay Jorgensen Collected Papers V - 1993-1999 (Paperback, 2001. Reprint 2013 of the 2001 edition)
Jay Jorgensen; Serge Lang
R1,873 Discovery Miles 18 730 Ships in 10 - 15 working days

Serge Lang (1927-2005) was one of the top mathematicians of our time. He was born in Paris in 1927, and moved with his family to California, where he graduated from Beverly Hills High School in 1943. He subsequently graduated from California Institute of Technology in 1946, and received a doctorate from Princeton University in 1951 before holding faculty positions at the University of Chicago and Columbia University (1955-1971). At the time of his death he was professor emeritus of Mathematics at Yale University. An excellent writer, Lang has made innumerable and invaluable contributions in diverse fields of mathematics. He was perhaps best known for his work in number theory and for his mathematics textbooks, including the influential Algebra. He was also a member of the Bourbaki group. He was honored with the Cole Prize by the American Mathematical Society as well as with the Prix Carriere by the French Academy of Sciences. These five volumes collect the majority of his research papers, which range over a variety of topics.

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