Mathematical Methods in Engineering and Applied Sciences

Mathematical Methods in Engineering and Applied Sciences

Book Description
This book covers tools and techniques used for developing mathematical methods and modelling related to real-life situations. It brings forward significant aspects of mathematical research by using different mathematical methods such as analytical, computational, and numerical with relevance or applications in engineering and applied sciences.
  • Presents theory, methods, and applications in a balanced manner
  • Includes the basic developments with full details
  • Contains the most recent advances and offers enough references for further study
  • Written in a self-contained style and provides proof of necessary results
  • Offers research problems to help early career researchers prepare research proposals
Mathematical Methods in Engineering and Applied Sciences makes available for the audience, several relevant topics in one place necessary for crucial understanding of research problems of an applied nature. This should attract the attention of general readers, mathematicians, and engineers interested in new tools and techniques required for developing more accurate mathematical methods and modelling corresponding to real-life situations.


Chapter 1. Semi-Analytical Source (SAS) Method for Heat Conduction Problems with Moving Heat Source
Chapter 2. Complete Synchronization of a Time-Fractional Reaction–Diffusion System with Lorenz Nonlinearities
Chapter 3. Oblique Scattering by Thin Vertical Barriers in Water of Finite Depth
Chapter 4. Existence of Periodic Solutions for First-Order Difference Equations Subjected to Allee Effects
Chapter 5. Numerical Investigation of Heat Flow and Fluid Flow in a Solar Water Heater with an Evacuated-Tube Collector
Chapter 6. Point Potential in Wave Scattering
Chapter 7. Complete Synchronization of Hybrid Spatio-temporal Chaotic Systems
Chapter 8. Statistical and Exact Analysis of MHD Flow Due to Hybrid Nanoparticles Suspended in C2H6O2-H2O Hybrid Base Fluid
Chapter 9. Lyapunov Functionals and Stochastic Stability Analyses for Highly Random Nonlinear Functional Epidemic Dynamical Systems with Multiple Distributed Delays
Chapter 10. Linear Multistep Method with Application to Chaotic Processes

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