12/04/2011

Differential Equations: A Modeling Approach (Quantitative Applications in the Social Sciences) Review

Differential Equations: A Modeling Approach (Quantitative Applications in the Social Sciences)
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This a book about applications of two-dimensional ordinary linear (mainly) and non-linear differential equations for graduate students and researchers in the field of political sciences, sociology and other social sciences. Some working knowledge of calculus is required. The exposition of ideas is very clear and the flow of the material is excellent. The author knows very well to handle appropriately the language of the text, given that it is a mathematical book intended for non-mathematically strong scientists. Because of this fact, emphasis is given in the intuition, the uses and the interpretation of differential equations in theoretical problems and issues in social sciences.
This book is a perfect motivation for social scientists in order to discover the power and the clarity (and also the limitations) of dynamical systems in their disciplines. A must for the serious researcher seeking to develop the theoretical / analytical thought beyond the trivial and boringly descriptive narration.

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"A reader with a strong background in mathematics, at least two semesters of calculus, and interest in the social sciences will find the book helpful in learning how this area of mathematics can be used in different applications."-S.L. Sullivan, Catawba CollegeDifferential Equations: A Modeling Approach introduces differential equations and differential equation modeling to students and researchers in the social sciences. The text explains the mathematics and theory of differential equations. Graphical methods of analysis are emphasized over formal proofs, making the text even more accessible for newcomers to the subject matter. This volume introduces the subject of ordinary differential equations - as well as systems of such equations - to the social science audience. Social science examples are used extensively, and readers are guided through the most elementary models to much more advanced specifications. Emphasis is placed on easily applied and broadly applicable numerical methods for solving differential equations, thereby avoiding complicated mathematical 'tricks" that often do not even work with more interesting nonlinear models. Also, graphical methods of analysis are introduced that allow social scientists to rapidly access the power of sophisticated model specifications. This volume also describes in clear language how to evaluate the stability of a system of differential equations (linear or nonlinear) by using the system's eigenvalues. The mixture of nonlinearity with dynamical systems is a virtual trademark for this author's approach to modeling, and this theme comes through clearly throughout this volume. This volume's clarity of exposition encourages social science students of mathematical modeling to begin working with differential equation models that address complex and sophisticated social theories.Key Features:
The text is accessibly written, so that students with minimal mathematical training can understand all of the basic concepts and techniques presented.

The author uses social sciences examples to illustrate the relevance of differential equation modeling to readers.


Readers can use graphical methods to produce penetrating analysis of differential equation systems.


Linear and nonlinear model specifications are explained from a social science perspective. Most interesting differential equation models are nonlinear, and readers need to know how to specify and work with such models in the social sciences.



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