Electromagnetism for Electronic Engineers
This introduction to electromagnetic theory emphasises on applications in electronic engineering. The book explores the relationship between fundamental principles and the idealisations of electric circuit theory. Attention is drawn to the effects of parasitic capacitance and inductance, to electromagnetic screening and to the effects of propagation delay. The text includes numerical and approximate methods for calculating resistance capacitance and inductance. With its clear presentation of both theoretical and practical topics this is an ideal introductory text for degree students.
Computational Fluid
This book provides the basics of Computational Fluid Dynamics (CFD) appropriate to modern day undergraduate study. The aim is to bridge the gap between books focusing on detailed theoretical analysis and commercial software user�s guides which do not contain significant theory. The book provides the reader with the theoretical background of basic CFD methods without going into deep detail into the mathematics or numerical algorithms.
Heat Transfer: Exercises
This Heat Transfer exercise book contains examples and full solutions to go with the Heat Transfer theory book. In the theory book the basic modes of heat transfer were explained. Namely conduction, convection and radiation. Hopefully this Heat Transfer exercise book will help you to gain further understanding of this subject.
Chemical Thermodynamics
This study guide deals with the application of thermodynamics to the description of the properties of materials. It covers the qualitative behavior of single and multicomponent mixtures, including vapor-liquid, liquid-liquid, and solid-liquid phase equilibria. It also explains the use of activity coefficient models and equations of state for the quantitative prediction of phase behavior and chemical reaction equilibria. The guide assumes a prior basic understanding of first and second laws of thermodynamics and multivariate calculus.
Introductory Finite Difference Methods
This book presents finite difference methods for solving partial differential equations (PDEs) and also general concepts like stability, boundary conditions etc. Material is in order of increasing complexity (from elliptic PDEs to hyperbolic systems) with related theory included in appendices. Each chapter has written and computer exercises with web links to worked solutions, programs, A/V presentations and case studies. Emphasis is on the practical and students are encouraged to do numerical experiments. This book is intended for undergraduates who know Calculus and introductory programming.
Fundamentals of Reaction Engineering
The fundamentals of reaction engineering book covers the basic elements of chemical reactor design. Material and energy balances have been derived assuming simple flow patterns: perfect mixing and plug flow. Non-ideal flow is briefly discussed. Exothermic-reversible reactions have been discussed in the context of staged reactor systems. Heat and mass transfer to/from catalyst pellets has been introduced, emphasizing the formulation of global reaction rate expressions. Several different ways of modelling fixed bed catalytic reactors has been described. A companion volume presents worked examples.
Introductory Finite
This book will be useful to scientists and engineers who want a simple introduction to the finite volume method. A series of computer codes are given on the companion website along with worked solutions to exercises. This book is a companion text to 'Introductory Finite Difference Methods for PDEs'.
Engineering Thermodynamics Solutions
Thermodynamics is an essential subject in the study of the behaviour of gases and vapours in real engineering applications.
Fundamentals of Reaction Engineering
This is the companion volume for the introductory text �Fundamentals of Reaction Engineering�, which covers the basic elements of chemical reactor design. The solved problems cover material and energy balances in simple flow systems and non-ideal flow. Exothermic-reversible reactions have been handled with solutions involving staged reactor systems. Problems on heat and mass transfer to/from catalyst pellets have been included, with emphasis on the formulation of global reaction rate expressions and different ways of modelling fixed bed catalytic reactors.
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