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Full Description
Modeling with differential equations is an effective tool to provide methodical and quantitative solutions to real-world phenomena including investigating measurable features, consolidation and processing of data, and designing and developing complex engineering systems. This book describes differential equations correlation with qualitative and quantitative analysis, and mathematical modeling in the engineering and applied sciences. Given equations are explained from multidimensional characterizations with MATLAB® codes.
Features:
Addresses differential equation-based approaches to solve varied engineering problems
Discusses derivation and solution of major equations of engineering and applied science
Reviews qualitative and quantitative (numerical) analysis and mathematical modelling
Includes mathematical models of the discussed problems
Discusses MATLAB® codes
Features: code and online materials related to the differential equations.
This book is aimed at researchers graduate students in electrical and electronics engineering, control systems, electron devices society, applied physics, and engineering design.
Contents
1. Introduction. 2. Application of Differential Equation in a Flexible Production of Deteriorating Item under Trade-Credit Policy. 3. Explosion in a Spherical Cavity Expanding with Decelerated Velocity. 4. Importance of Differential Equations in a Retailing Strategy under Credit Period Consideration. 5. Existence Results for the Positive Solutions of a Third-Order Boundary-Value Problem & Numerical Algorithm Based on Bernoulli Polynomials. 6. An Interred, Inclined Long Strike-Slip Fault in a Striped Elastic/Viscoelastic Medium. 7. Combined Study on Time-Dependent Deterioration and Carbon Emission for Fixed Lifetime Substitutable/Complementary Product in a Sustainable Supply Chain Management. 8. Framing the Slip Flow Of TiO2 Nanofluid Past an Inclined Porous Plate Coexistence of Solar Radiation: An Application of Differential Equation. 9. Advection Diffusion Equations and Its Applications in Sciences and Engineering. 10. Differential Equation-Based Analytical Modeling of the Characteristics Parameters of the Junctionless MOSFET-Based Label-Free Biosensors. 11. Application of Differential Equation in Inventory Control. 12. The Behavior of Interacting Faults under Increasing Tectonic Forces. 13. Applications of Fixed-Point Theory in Differential Equations. 14. Differential Equation-Based Compact 2-D Modeling of Asymmetric Gate Oxide Heterojunction Tunnel FET.
