Develops the theory of jet single-time Lagrange geometry and
presents modern-day applications
Jet Single-Time Lagrange Geometry and Its Applications
guides readers through the advantages of jet single-time Lagrange
geometry for geometrical modeling. With comprehensive chapters that
outline topics ranging in complexity from basic to advanced, the
book explores current and emerging applications across a broad
range of fields, including mathematics, theoretical and atmospheric
physics, economics, and theoretical biology.
The authors begin by presenting basic theoretical concepts that
serve as the foundation for understanding how and why the discussed
theory works. Subusequent chapters compare the geometrical and
physical aspects of jet relativistic time-dependent Lagrange
geometry to the classical time-dependent Lagrange geometry. A
collection of jet geometrical objects are also examined such as
d-tensors, relativistic time-dependent semisprays, harmonic curves,
and nonlinear connections. Numerous applications, including the
gravitational theory developed by both the Berwald-Moór metric
and the Chernov metric, are also presented.
Throughout the book, the authors offer numerous examples that
illustrate how the theory is put into practice, and they also
present numerous applications in which the solutions of first-order
ordinary differential equation systems are regarded as harmonic
curves on 1-jet spaces. In addition, numerous opportunities are
provided for readers to gain skill in applying jet single-time
Lagrange geometry to solve a wide range of problems.
Extensively classroom-tested to ensure an accessible
presentation, Jet Single-Time Lagrange Geometry and Its
Applications is an excellent book for courses on differential
geometry, relativity theory, and mathematical models at the
graduate level. The book also serves as an excellent reference for
researchers, professionals, and academics in physics, biology,
mathematics, and economics who would like to learn more about
model-providing geometric structures.
Sobre el autor
VLADIMIR BALAN, Ph D, is Professor in the Department of
Mathematics and Informatics at the University Politehnica of
Bucharest, Romania. He has published extensively in his areas of
research interest, which include harmonic maps, variational
problems in fiber bundles, and generalized gauge theory and its
applications in mechanics and mathematical physics.
MIRCEA NEAGU, Ph D, is Assistant Professor in the
Department of Algebra, Geometry, and Differential Equations at the
Transilvania University of Bra¿¿ov, Romania. He is the
author of more than thirty-five journal articles on jet
Riemann-Lagrange geometry and its applications.
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