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Shhh (Hardcover)
Wanda E. White
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R837
Discovery Miles 8 370
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Ships in 12 - 17 working days
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This volume in the acclaimed series Modern Aspects of
Electrochemistry starts with a dedication to the late Professor
Brian Conway who for 50 years helped to guide this series to its
current prominence. The remainder of the volume is then devoted to
the following topics: PEM fuel cells; the use of graphs in
electrochemical reaction newtworks; nanomaterials in Lithium-ion
batteries; direct methanolf fuel cells (two chapters); fuel cell
catalyst layers. The book is for electrochemists, electrochemical
engineers, fuel cell workers and energy generation workers.
Contributors to this volume examine structures and processes that
school boards have in place directly relating to the process of
principal or vice-principal succession. As well, they consider the
effect that these structures and processes have upon staff and
administrators themselves. These contributors investigate policies,
procedures and practices that school boards employ in terms of
leadership succession, and explore implications of these constructs
for the sustainability of school improvement. This volume presents
an overview of the process of principal or vice-principal
succession, descriptions of school district practices surrounding
this process and discussions regarding how succession procedures
affect individuals and groups of individuals. This volume also
highlights those board policies that incorporate practices used to
develop models that support and allow administrators to succeed. It
articulates how school leaders and staff members deal with change
and improvement efforts in successive schools, as well as how board
policies and practices support principals and vice-principals at
any stage in the succession process. This volume is useful as a
reference guide relating to transfer and rotation procedures in
school systems across the nation.
This volume of Modern Aspects contains a remarkable spread of
topics covered in an authoritative manner by some internationally
renowned specialists. In a seminal chapter Drs. Babu, Oldfield and
Wieckowski demonstrate eloquently the strength of electrochemical
nuclear magnetic resonance (EC-NMR) to study in situ both sides of
the electrochemical interface via the simultaneous use of and This
powerful non-invasive technique brings new insights to both
fundamental and practical key aspects of electrocatalysis,
including the design of better anodes for PEM fuel cells. The
recent impressive advances in the use of rigorous ab initio quantum
chemical calculations in electrochemistry are described in a
remarkable chapter by Marc Koper, one of the leading protagonists
in this fascinating area. This lucid chapter is addressed to all
electrochemists, including those with very little prior exposure to
quantum chemistry, and demonstrates the usefulness of ab initio
calculations, including density functional theory (DFT) methods, to
understand several key aspects of fuel cell electrocatalysis at the
molecular level. The most important macroscopic and statistical
thermodynamic models developed to describe adsorption phenomena on
electrodes are presented critically in a concise and authoritative
chapter by Panos Nikitas. The reader is guided through the seminal
contributions of Frumkin, Butler, Bockris, Guidelli and others, to
the current state of the art adsorption isotherms, which are both
rigorous, and in good agreement with experiment.
This volume of Modern Aspects covers a wide spread of topics
presented in an authoritative, informative and instructive manner
by some internationally renowned specialists. Professors Politzer
and Dr. Murray provide a comprehensive description of the various
theoretical treatments of solute-solvent interactions, including
ion-solvent interactions. Both continuum and discrete molecular
models for the solvent molecules are discussed, including Monte
Carlo and molecular dynamics simulations. The advantages and
drawbacks of the resulting models and computational approaches are
discussed and the impressive progress made in predicting the
properties of molecular and ionic solutions is surveyed. The
fundamental and applied electrochemistry of the silicon/electrolyte
interface is presented in an authoritative review by Dr. Gregory
Zhang, with emphasis in the preparation of porous silicon, a
material of significant technological interest, via anodic
dissolution of monocrystalline Si. The chapter shows eloquently how
fundamental electrokinetic principles can be utilized to obtain the
desired product morphology. Markov chains theory provides a
powerful tool for modeling several important processes in
electrochemistry and electrochemical engineering, including
electrode kinetics, anodic deposit formation and deposit
dissolution processes, electrolyzer and electrochemical reactors
performance and even reliability of warning devices and repair of
failed cells. The way this can be done using the elegant Markov
chains theory is described in lucid manner by Professor Thomas
Fahidy in a concise chapter which gives to the reader only the
absolutely necessary mathematics and is rich in practical examples.
Critical pedagogy is a field of theory and practice which has the
potential to inspire thoughtful, committed teachers to make real
differences for their most vulnerable students and, by doing so,
extending social justice far beyond their students and into the
larger society.
This text is about being sensitive to, respecting and honouring
differences among individuals and groups of individuals. The
editors ask how one begins to connect the professional lives of
educators with a Critical democratic practice for the pluralistic
milieu of the twenty-first century. While the editors of this
volume come from different educational disciplines - that is,
literacy and educational administration - they share common
philosophies, common educational practices and common educational
goals premised upon a democratic Critical education. However
different these vantage points may appear, they are both rooted in
the desire for positive social change.
It is this critical component that continuously asks: Who
benefits? In whose interests are changes being effected? What are
the power differentials? Are there hidden agendas? Hidden
curriculums? Null curriculums? The book aims to address these
concerns, through lived experiences of those involved in creating
positive change. Through an integrated framework of Critical
literacy, Critical learning and Critical leadership, some of the
more prevalent and pernicious problems of humanity can be
identified, engaged and rectified. Through concrete examples, the
editors promote the concept that every educator, including
students, can become agents of change.
Recognized experts present incisive analyses of both fundamental
and applied problems in this continuation of a highly acclaimed
series. Topics in Number 35 include: Impedance spectroscopy with
specific applications to electrode processes involving hydrogen;
Fundamentals and contemporary applications of electroless metal
deposition; The development of computational electrochemistry and
its application to electrochemical kinetics; Analysis of
electrolyte solutions at high concentrations; Applications of the
Born theory to solvent polarization by ions and its extensions to
treatment of kinetics of ionic reactions. GBP/LISTGBP
This unique textbook presents a course on computational linear
algebra. Offers many unique applications. MATLAB is used
throughout.
Integrating both theoretical and applied aspects of
electrochemistry, this acclaimed monograph series presents a review
of the latest advances in the field. The current volume includes
chapters on the mechanism of nerve excitation from an
electrochemical standpoint, the electronic factor in the kinetics
of charge-transfer reaction, and five other subjects.
Recognized experts present incisive analysis of both fundamental
and applied problems in this continuation of a highly acclaimed
series. Topics discussed include: A review of the literature on the
potential-of-zero charge by Trasatti and Lust. A thorough review
and discussion of nonequilibrium fluctuations in corrosion
processes. A wide-ranging discussion of conducting polymers,
electrochemistry, and biomimicking processes. Microwave
(photo)electrochemistry, from its origins to today's research
opportunities, including its relation to electrochemistry. New
fluorine cell design, from model development through preliminary
engineering modeling, laboratory tests, and pilot plant tests. A
comprehensive account of the major and rapidly developing field of
the electrochemistry of electronically conducting polymers and
their applications. These authoritative studies will be invaluable
for researchers in engineering, electrochemistry, analytical
chemistry, materials science, physical chemistry, and corrosion
science.
Number 25 of this acclaimed series breaks new ground with articles
on charge transfer across liquid-liquid interfaces, electrochemical
techniques to study hydrogen ingress in metals, and electrical
breakdown of liquids. Also included are articles on the measurement
of corrosion and ellipsometry, bringing these older subjects up to
date.
Recognized experts present incisive analysis of both fundamental
and applied problems in this continuation of a highly acclaimed
series. Topics discussed include: A thorough and mathematical
treatment of periodic phenomena, with consideration of new theories
about the transition between `order' and `chaos'; Impedance
spectroscopy as applied to the study of kinetics and mechanisms of
electrode processes; The use of stoichiometric numbers in mechanism
analysis; The electro-osmotic dewatering of clays with important
implications for the processing of industrial waste and
geotechnical; stabilization; Magnetic effects in electrolytic
processes and the electrolytic Hall effect; and The computer
analysis and modeling of mass transfer and fluid flow. These
authoritative studies will be invaluable for researchers in
engineering, electrochemistry, analytical chemistry, materials
science, physical chemistry, and corrosion science.
Integrating both theoretical and applied aspects of
electrochemistry, this acclaimed monograph series presents a review
of the latest advances in the field. The current volume covers ion
and electron transfer across monolayers of organic surfactants,
determination of current distributions governed by Laplace's
equation, and three other subjects.
This volume explores the essence of German military
professionalism as exemplified by the nineteenth century Prussian
German Staff. The study focuses on the most important Prussian
military reformer--Gerhard Johann David von Scharnhorst, who in
1801 founded the Militarische Gesellschaft (Military Society) in
Berlin. The Gesellschaft became the focal point for the
transformation of the Prussian army from a robotic war machine into
a modern fighting force that was instrumental in defeating Napolean
in 1813 and in 1815. The author examines the following elements of
this military society: its membership; the specifics of its agenda;
the intellect, imagination, and habits of thought, reflection, and
objective analysis of its members; Scharnhorst's particular
contributions.
Focusing on the state of the art of electrode process chemistry,
the contributors discuss a wide range of applications and provide
coverage of advances in quantum mechanical theory of electron
transfer and the mechanism of electrical passage through nerves and
batteries for motor vehicles. Annotatio
Prof. Jerzy Sobkowski starts off this 31st volume of Modern Aspects
of Electrochemistry with a far-ranging discussion of experimental
results from the past 10 years of interfacial studies. It forms a
good background for the two succeeding chapters. The second chapter
is by S. U. M. Khan on quantum mechanical treatment of electrode
processes. Dr. Khan's experience in this area is a good basis for
this chapter, the contents of which will surprise some, but which
as been well refereed. Molecular dynamic simulation is now a
much-used technique in physical electrochemistry and in the third
chapter Ilan Benjamin has written an account that brings together
information from many recent publications, sometimes confirming
earlier modeling approaches and sometimes breaking new territory.
In Chapter 4, Akiko Aramata's experience in researching single
crystals is put to good advantage in her authoritative article on
under- tential deposition. Finally, in Chapter 5, the applied side
of electrochemistry is served by Bech-Neilsen et al. in the review
of recent techniques for automated measurement of corrosion. J.
O'M. Bockris, Texas A&M University B. E. Conway, University of
Ottawa R. E. White, University of South Carolina Contents Chapter 1
METAL/SOLUTION INTERFACE: AN EXPERIMENTAL APPROACH Jerzy Sobkowski
and Maria Jurkiewicz-Herbich I.
Introduction.............................................. 1 II.
Molecular Approach to the Metal/Solution Interface............. 3
1. Double-Layer Structure: General Considerations .......... 3 2.
Solid Metal/Electrolyte Interface.......................... 8 3.
Methods Used to Study Properties ofthe Metal/Solution Interface:
Role of the Solvent and the Metal............. 15 The Thermodynamic
Approach to the Metal/Solution Interface 35 III.
No. 28 of this highly regarded series explores the fundamental and
applied aspects of electrochemical science. This volume features
two detailed studies on the rapidly developing field of
electrochemical surface science.
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