
Mathematical Modeling of Physical Systems provides a concise and lucid introduction to mathematical modeling for students and professionals approaching the topic for the first time. It is based on the premise that modeling is as much an art as it is a science--an art that can be mastered only by sustained practice. To provide that practice, the text contains approximately 100 worked examples and numerous practice problems drawn from civil and biomedical engineering, as well as from economics, physics, and chemistry. Problems range from classical examples, such as Euler's treatment of the buckling of the strut, to contemporary topics such as silicon chip manufacturing and the dynamics of the human immunodeficiency virus (HIV). The required mathematics are confined to simple treatments of vector algebra, matrix operations, and ordinary differential equations. Both analytical and numerical methods are explained in enough detail to function as learning tools for the beginner or as refreshers for the more informed reader. Ideal for third-year engineering, mathematics, physics, and chemistry students, Mathematical Modeling of Physical Systems will also be a welcome addition to the libraries of practicing professionals.
This text investigates the fundamental methodologies and practical applications of mathematical modeling across diverse physical and technical systems. Diran Basmadjian, drawing on his expertise in engineering, presents a framework that treats modeling as a skill requiring both scientific rigor and iterative practice. The book utilizes a structured approach, balancing theoretical explanations with applied examples to guide the reader through the transition from physical phenomena to mathematical representation.
What You Will Find
This book is widely regarded as a foundational resource for undergraduate students in engineering and the physical sciences. Readers frequently note the clarity of the prose and the utility of the diverse problem sets for developing technical proficiency.
Page Count:
368
Publication Date:
2002-12-19
Publisher:
Oxford University Press
ISBN-10:
0195153146
ISBN-13:
9780195153149
No comments yet. Be the first to share your thoughts!