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NONLINEAR EQUATIONS: ANALYTICAL METHODS AND
APPLICATIONS
S.H. Hashemi Kachapi and D.D. Ganji, Iran
ISBN-13: 978-1-907343-81-0; approx. 400 pages, hardback, July 2014; £95.00/$155.00
This book is relecting the growth in the literature on nonlinear systems has been included, whilst retaining the basic style
and structure of the textbook. The wide applicability of the subject to the mathematical, physical, engineering, and applied
sciences continues to generate a supply of new problems of practical and theoretical interest.
The book was developed from problems on nonlinear differential equations given over several years in nonlinear dynamics
team in the Mechanical Department of Babol Noshirvani University of Technology. It presents an introduction to systems
in the context of nonlinear differential equations.



NONLINEAR ANALYSIS IN ENGINEERING AND SCIENCES
S.H. Hashemi Kachapi and D.D. Ganji (Iran)
ISBN-13: 978-1-907343-88-9; approx. 440 pages, hardback, August 2014; £105.00/$170.00
In this book, by the use of the latest analytic, numeric laboratorial methods and using more than 300 references like books,
papers and the researches done by the authors and by considering almost all possible processes and situation, new theories
are proposed to encounter applied problems in engineering and applied sciences. In this way, the user (bachelor, master and
PhD students, university teachers and even in research centers in different ields of mechanical, civil, aerospace, electrical,
chemical, applied mathematics, physics, and etc.) can encounter such systems conidently. Individual chapters of the book,
discuss not only linear and nonlinear problems but also applied examples are practically solved by the proposed methodol -
ogy. Abundant numbers of examples and homework problems are provided.


SIMILARITY AND MODELING IN SCIENCE AND ENGINEERING
J. Kuneš, West Bohemian University, Plzen, Czech Republic
ISBN 978-1-907343-77-3; 410 pages, hardback, 2012; £95.00/$155.00
The present text sets itself in relief to other titles on the subject in that it addresses the means and methodologies versus
a narrow speciic-task oriented approach. Concepts and their developments which evolved to meet the changing needs of
applications are addressed. This approach provides the reader with a general tool-box to apply to their speciic needs. Two
important tools are presented: dimensional analysis and the similarity analysis methods. The fundamental point of view,
enabling one to sort all models, is that of information lux between a model and an original expressed by the similarity
and abstraction. Each chapter includes original examples and applications. In this respect, the models can be divided into
several groups. The following models are dealt with separately by chapter; mathematical and physical models, physical
analogues, deterministic, stochastic, and cybernetic computer models. The mathematical models are divided into asymp-
totic and phenomenological models.

STUDY OF ANALYTIC NUMBER THEORY: RIEMANN’S

HYPOTHESIS AND PRIME NUMBER THEOREM WITH
ADDENDUM ON INTEGER PARTITIONS
L.A. Glinka, Poland
ISBN-13: 978-1-907343-98-8; 105 pages, January 2013; £25.00/$40.00
This monograph explores several classical issues of modern mathematics, and discusses both the historical and research
aspects. The brief historical part is focused on Riemann’s zeta function and few related problems. The research part starts
from direct formulation of simple proofs of both the prime number theorem and Riemann’s hypothesis, two intriguing prob-
lems of modern mathematics, which applies the concept of Mertens’s function and is based on Apostol’s and Littlewood’s
criterions of equivalence.


FLUID POWER CONTROL: HYDRAULICS AND

PNEUMATICS
Ahmed Abu Hanieh, Birzeit University, Palestine
ISBN-13: 978-1-907343-14-8; 215 pages, softback, 2013; £35.00/$55.00
The idea of this book came out after ive years of teaching the luid power control course in Birzeit University besides to the
long experience of the author in the real hydraulic and pneumatic systems which is relected on the different applications of
the discussed circuits. Most of the existing books in this ield discuss the hydraulic and pneumatic systems in concentrating
on the design and components of the system without going deep enough into the problem of dynamic modelling and control
of these systems. This book attempts to compromise between theoretical modelling and practical understanding of luid
power systems by using modern control theory based on implementing Newton’s second law in second order differential
equations transformed into direct relationships between inputs and outputs via transfer functions.
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