Introduction to Vector and Tensor Analysis

Nonfiction, Science & Nature, Mathematics, Vector Analysis
Cover of the book Introduction to Vector and Tensor Analysis by Robert C. Wrede, Dover Publications
View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart
Author: Robert C. Wrede ISBN: 9780486137117
Publisher: Dover Publications Publication: January 30, 2013
Imprint: Dover Publications Language: English
Author: Robert C. Wrede
ISBN: 9780486137117
Publisher: Dover Publications
Publication: January 30, 2013
Imprint: Dover Publications
Language: English

This broad introduction to vector and tensor analysis is designed for the advanced undergraduate or graduate student in mathematics, physics, and engineering as well as for the practicing engineer or physicist who needs a theoretical understanding of these essential mathematical tools. In recent years, the vector approach has found its way even into writings on aspects of biology, economics, and other sciences.
The many and various topics covered include: the algebra of vectors — linear dependence and independence, transformation equations, the inner product, the cross product, and the algebra of matrixes; the differentiation of vectors — geometry of space curves, kinematics, moving frames of reference, Newtonian orbits and special relativity theory; partial differentiation of vectors — geometry of space curves, kinematics, moving frames of reference, Newtonian orbits and special relativity theory; partial differentiation and associated concepts — surface representations, bases in general coordinate systems, and maxima and minima of functions of two variables; the integration of vectors — line integrals, surface integrals, surface tensors and volume integrals; tensor algebra and analysis — fundamental notions of  n-space, transformations and tensors, Riemannian geometry, tensor processes of differentiation, geodesics, the curvature tensor and its algebraic properties, and general relativity theory.
Throughout, Professor Wrede stresses the interrelationships between algebra and geometry, and moves frequently from one to the other. As he points out, vector and tensor analysis provides a kind of bridge between elementary aspects of linear algebra, geometry and analysis. He uses the classical notation for vector analysis, but introduces a more appropriate new notation for tensors, which he correlates with the common vector notation. He stresses proofs and concludes each section with a set of problems designed to help the student get a solid grasp of the ideas, and explore them more thoroughly on his own. His approach features a combination of important historical material with up-to-date developments in both fields. The knowledge of vector and tensor analysis gained in this way is excellent preparation for further studies in differential geometry, applied mathematics, and theoretical physics.

View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

This broad introduction to vector and tensor analysis is designed for the advanced undergraduate or graduate student in mathematics, physics, and engineering as well as for the practicing engineer or physicist who needs a theoretical understanding of these essential mathematical tools. In recent years, the vector approach has found its way even into writings on aspects of biology, economics, and other sciences.
The many and various topics covered include: the algebra of vectors — linear dependence and independence, transformation equations, the inner product, the cross product, and the algebra of matrixes; the differentiation of vectors — geometry of space curves, kinematics, moving frames of reference, Newtonian orbits and special relativity theory; partial differentiation of vectors — geometry of space curves, kinematics, moving frames of reference, Newtonian orbits and special relativity theory; partial differentiation and associated concepts — surface representations, bases in general coordinate systems, and maxima and minima of functions of two variables; the integration of vectors — line integrals, surface integrals, surface tensors and volume integrals; tensor algebra and analysis — fundamental notions of  n-space, transformations and tensors, Riemannian geometry, tensor processes of differentiation, geodesics, the curvature tensor and its algebraic properties, and general relativity theory.
Throughout, Professor Wrede stresses the interrelationships between algebra and geometry, and moves frequently from one to the other. As he points out, vector and tensor analysis provides a kind of bridge between elementary aspects of linear algebra, geometry and analysis. He uses the classical notation for vector analysis, but introduces a more appropriate new notation for tensors, which he correlates with the common vector notation. He stresses proofs and concludes each section with a set of problems designed to help the student get a solid grasp of the ideas, and explore them more thoroughly on his own. His approach features a combination of important historical material with up-to-date developments in both fields. The knowledge of vector and tensor analysis gained in this way is excellent preparation for further studies in differential geometry, applied mathematics, and theoretical physics.

More books from Dover Publications

Cover of the book Ordinary Differential Equations by Robert C. Wrede
Cover of the book The Painter in Oil by Robert C. Wrede
Cover of the book Sketches of Early American Architecture by Robert C. Wrede
Cover of the book Designs and Patterns for Embroiderers and Craftspeople by Robert C. Wrede
Cover of the book Riddles in Mathematics by Robert C. Wrede
Cover of the book On Reading the Bible by Robert C. Wrede
Cover of the book Julius Caesar Thrift Study Edition by Robert C. Wrede
Cover of the book Tragic Sense of Life by Robert C. Wrede
Cover of the book Mathematics of the Incas by Robert C. Wrede
Cover of the book A History of Greek Mathematics, Volume I by Robert C. Wrede
Cover of the book Oscar Wilde's Wit and Wisdom by Robert C. Wrede
Cover of the book Groundwater and Seepage by Robert C. Wrede
Cover of the book Traditional Japanese Stencil Designs by Robert C. Wrede
Cover of the book Ascent of Mount Carmel by Robert C. Wrede
Cover of the book Eight Lectures on Theoretical Physics by Robert C. Wrede
We use our own "cookies" and third party cookies to improve services and to see statistical information. By using this website, you agree to our Privacy Policy