Special Functions and Analysis of Differential Equations

 
 
CRC Press
  • 1. Auflage
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  • erscheint ca. am 30. Juni 2020
 
  • Buch
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  • Hardcover
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  • 296 Seiten
978-0-367-33472-7 (ISBN)
 
Differential Equations are very important tool in Mathematical Analysis. These are widely found in mathematics itself and in its applications to Statistics, computing, electrical circuit analysis, dynamical systems, economics, biology and so on. Recently there has been an increasing interest in and widely extended use of differential equations and systems of fractional order (that is, of arbitrary order), as better models of phenomena of various physics, engineering, automatization, biology and biomedicine, chemistry, earth science, economics, nature and so on. Now, new unified presentation and extensive development of special functions associated with fractional calculus are necessary tools, being related to the theory of differentiation and integration of arbitrary order (i.e., fractional calculus) and to the fractional order (or multi-order) differential and integral equations.

This book provides learners with the opportunity to develop an understanding of advancements of special functions and the skills needed to apply advanced mathematical techniques to solve complex differential equations and PDE's problems. Subject matters should be strongly related to special functions involving mathematical analysis and its numerous applications. The main objective of this book is to highlight the importance of fundamental results and techniques of the theory of complex analysis for differential equations and PDE's, and emphasizes articles devoted to the mathematical treatment of questions arising in physics, chemistry, biology, and engineering, particularly those that stress analytical aspects and novel problems and their solutions.

Specific topics include but are not limited to:

Partial differential equations

Least-squares on First-Order system

Sequence and series in functional analysis

Special functions related to fractional (non-integer) order control systems and equations

Various special functions related to generalized fractional calculus

Operational method in fractional calculus

Functional analysis and operator theory

Mathematical physics

Applications of numerical analysis and applied mathematics

Computational mathematics

Mathematical modeling

This book provide the recent developments in Special functions and Differential Equations and publishing high quality peer-reviewed book chapters in the area of nonlinear analysis, ordinary differential equations, partial differential equations and related applications.
  • Englisch
  • London
  • |
  • Großbritannien
Taylor & Francis Ltd
  • Für höhere Schule und Studium
  • 82
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  • 82 s/w Abbildungen
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  • 82 b/w images
  • Höhe: 254 mm
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  • Breite: 178 mm
978-0-367-33472-7 (9780367334727)
weitere Ausgaben werden ermittelt
Praveen Agarwal is Professor at the Department of Mathematics, Anand International College of Engineering, Jaipur, India. On the editorial boards of several journals of repute and conducted, Professor Agarwal has conducted and attended a number of conferences. Recently, he has received the Most Outstanding Researcher 2018 award for his contribution to mathematics by the Union Minister of Human Resource Development of India. He has received numerous international research grants. He has published over 250 articles related to special functions, fractional calculus and mathematical physics in several leading mathematics journals. His latest research has focused on partial differential equations, fixed point theory and fractional differential equations.
Ravi P. Agarwal received his Ph.D. in mathematics from the Indian Institute of Technology, Madras, India. He is a professor of mathematics at the Florida Institute of Technology. His research interests include numerical analysis, inequalities, fixed point theorems, and differential and difference equations. He is the author/co-author of over 1000 journal articles and more than 25 books, and actively contributes to over 500 journals and book series in various capacities.
Michael Ruzhansky is a professor at the Department of Mathematics, Imperial College London. He has published over 100 research articles in several leading international journals. He has also published five books and memoirs and nine edited volumes. He has researched topics related to pseudo-differential operators, harmonic analysis and partial differential equations. More recently, he has worked on boundary value problems and their applications. He has been on the editorial board of many respected international journals and served as the President of the International Society of Analysis, Applications, and Computations (ISAAC) in the period 2009-2013.
Chapter 1 A Chebyshev Spatial Discretization Method for Solving Fractional Fokker-Planck Equation with Riesz Derivatives
Arman Dabiri, Behrouz Parsa Moghadam, J. A. Tenreiro Machado
Chapter 2: Exact curvature's effects on the redundant reactions: the case of a Euler-Bernoulli heavy cantilever
Giovanni Mingari Scarpello, Daniele Ritelli
Chapter 3: Second kind Chebyshev wavelets for solving variable-order space-time fractional telegraph equation
M. H. Heydari, A.Shakiba, Z. Avazzadeh, C. Cattani
Chapter 4: Hyers-Ulam And Hyers-Ulam-Rassias Stability For A Class Of Fractional Integro-Differential Equations
J.E. Restrepo, R. A. Higuita, Shilpi Jain
Chapter5: Applications of Fractional Derivatives to Heat Transfer in Channel Flow of CMC Based CNTs Nanofluid
Muhammad Saqib, Ilyas Khan, Sharidan Shafie
Chapter 6: The hyperbolic maximum principle approach to the construction of generalized convolutions
R´uben Sousa, Manuel Guerra, Semyon Yakubovich
Chapter 7: Elements of Aomoto's generalized hypergeometric functions and a novel perspective on Gauss' hypergeometric differential equation
Yasuhiro Abe
Chapter 8: Around boundary functions of the right half-plane and the unit disc
F.-H. Li, S. Kanemitsu
Chapter 9: On the B. Stankovich integral transforms
Arsen Pskhu
Chapter 10 Electric current as a continuous flow
Yusuke Kamatay, Tingli Ma, Yong Sun, Shigeru Kanemitsu
Chapter 11: On New Integral Inequalities Involving Generalized Fractional Integral Operators
M. Emin Özdemir, Ahmet Ocak Akdemir, Erhan Set, Alper Ekinci
Chapter 12: Alternative approach to Miller-Paris transformations for the generalized hypergeometric functions
Dmitrii B. Karp, Elena G. Prilepkina, D.B. Karp

Chapter 13: Fractional Dynamics, Riemann Zeta Functions and Self-Similarity, through Category Theory
Philippe Riot, Alain Le Méhauté, Dmitrii Tayurskii
Chapter 14: New Contour Surfaces to the (2+1)-Dimensional Boussinesq Dynamical Equation
Haci Mehmet Baskonus, Carlo Cattani, Armando Ciancio
Chapter 15: Statistical approch of mixed convective flow of third grade fluid towards an exponentially stretching surface with convective boundary condition
Anum Shafiqa, Zakia Hammouch, Tabassum Naz Sindhu, Dumitru Baleanu
Chapter 16: Solvability of the boundary-value problem for a third-order linear loaded differential equation with the Caputo fractional derivative
Praveen Agarwal, Umida Baltaeva, Jessada Tariboon
Chapter 17: Chaotic systems and synchronization involving fractional conformable operators of Riemann-Liouville type
J.E. Sol´is-P´ereza, J.F. G´omez-Aguilar, R.F. Escobar-Jim´enez, J. Reyes-Reyes

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