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This collections of poems and inspirational thoughts explores
author Paulette D. Holmes's life struggles, revealing how God
always steps in, works things out in her life, and gives her the
strength to carry on. Her prayer is that all who read her work may
be encouraged. You are not alone God bless you
Collecting together contributed lectures and mini-courses, this
book details the research presented in a special semester titled
"Geometric mechanics - variational and stochastic methods" run in
the first half of 2015 at the Centre Interfacultaire Bernoulli
(CIB) of the Ecole Polytechnique Federale de Lausanne. The aim of
the semester was to develop a common language needed to handle the
wide variety of problems and phenomena occurring in stochastic
geometric mechanics. It gathered mathematicians and scientists from
several different areas of mathematics (from analysis, probability,
numerical analysis and statistics, to algebra, geometry, topology,
representation theory, and dynamical systems theory) and also areas
of mathematical physics, control theory, robotics, and the life
sciences, with the aim of developing the new research area in a
concentrated joint effort, both from the theoretical and applied
points of view. The lectures were given by leading specialists in
different areas of mathematics and its applications, building
bridges among the various communities involved and working jointly
on developing the envisaged new interdisciplinary subject of
stochastic geometric mechanics.
This book illustrates the broad range of Jerry Marsden's
mathematical legacy in areas of geometry, mechanics, and dynamics,
from very pure mathematics to very applied, but always with a
geometric perspective. Each contribution develops its material from
the viewpoint of geometric mechanics beginning at the very
foundations, introducing readers to modern issues via illustrations
in a wide range of topics. The twenty refereed papers contained in
this volume are based on lectures and research performed during the
month of July 2012 at the Fields Institute for Research in
Mathematical Sciences, in a program in honor of Marsden's legacy.
The unified treatment of the wide breadth of topics treated in this
book will be of interest to both experts and novices in geometric
mechanics. Experts will recognize applications of their own
familiar concepts and methods in a wide variety of fields, some of
which they may never have approached from a geometric viewpoint.
Novices may choose topics that interest them among the various
fields and learn about geometric approaches and perspectives toward
those topics that will be new for them as well.
Effective management is as much an art as a science. Without it,
organizations flounder and fail; with it, people excel and
organizations succeed. That's simple in concept, yet difficult to
achieve, despite the plethora of writings on the topic and the best
practices that have accumulated through decades of example. As the
authors demonstrate, the key to success is the integration of
strategic concepts and front-line applications-which have, to date,
been treated separately in both theory and practice. Employing the
Strategic Management Model, developed by Huffmire, and applied as
both an analytical tool and a practical framework for improving
performance, the authors provide a comprehensive approach to
management and supervision that will contribute to individual,
team, and organization-wide success. Illustrating their principles
through numerous real-life experiences, from organizations as
diverse as Ford Motor Company, Johnsonville Foods, and Emerson
Electric, the authors eschew fads and superficial palliatives in
favor of basic skills and qualities. Focusing on such skills as
delegation, prioritization, motivation, and decision making,
Huffmire and Holmes show managers how to deliver results through
their employees. The net effect is the development of people and
organizations that are able to adapt to a constantly changing
environment, set and achieve goals, conduct effective performance
appraisals, retain the best people and develop successors, reduce
costs, and increase profits. Featuring diagnostic tools,
checklists, and an appendix with in-depth case studies, the
Handbook of Effective Management is an essential resource for
managers and supervisors in all types oforganizations, as well as
for professors and students of management and human resource and
training professionals.
This volume, Why Europe? Problems of Culture and Identity: Media,
Film, Gender, Youth and Education , addresses a range of issues
which underlie the notions of European identity. Among them are:
what does it mean to be a European? What ideologies have shaped the
political debate over the last two centuries? What place will
minorities find in the Europe of the twenty-first century? What
roles will women play in the future communities? Will Europe become
more open to diversity, or become increasingly introspective, a
'fortress Europe'?
Since the controversy began, Homes's restudy has been criticized
by Freeman. Now Holmes has published his dissertation findings
along with more recent observations on the controversy. Because he
conducted the only explicit restudy of the Manu'a group, and
because of his own extensive research in the islands over three
decades, Holmes's "Quest for the Real Samoa" is worth reading.
While the book will not resolve the controversy, it does provide an
interesting perspective, some new data, and useful insights into
the controversy. . . . Holmes concludes that Mead's work will
endure, not because it was flawless or because it is a model for
contemporary research, but precisely because it was pioneering and
controversial. He sees the tragedy of the controversy in Freeman's
almost exclusive focus on Mead, which could obscure Freeman's
potential contribution to Samoan ethnography. This is where Freeman
and Holmes differe fundamentally. For Freeman, the ultimate issue
is the refutation of Mead's ideas on Samoan adolescence. For
Holmes, it is a deeper appreciation of the possibilities of Samoan
ethnography. To get beyond the Mead/Freeman controversy, it is this
latter path that should be explored. "American Anthropologist"
Holmes has a special claim to be heard, for in 1954 he did a
restudy of Tau, the same village Mead had worked in 29 years
before. While Mr. Holmes disagrees with her on various points, he
does not find the truth' to be midway between Mead and Mr. Freeman.
His work showed the quality of Mead's Samoan research to be
remarkably high, ' while Mr. Freeman's refuation was, in Mr.
Holmes's opinion, both methodologically shoddy and uncorroborated
by the evidence. "New York Times Book RevieW"
Wind forces from extreme wind events are the dominant loading for
many parts of the world, exacerbated by climate change and the
continued construction of tall buildings and structures. This
authoritative source, for practising and academic structural
engineers and graduate students, ties the principles of wind loads
on structures to the relevant aspects of meteorology, bluff-body
aerodynamics, probability and statistics, and structural dynamics.
This new edition covers: Climate change effects on extreme winds -
particularly those from tropical cyclones, hurricanes and typhoons
Modelling of potential wind vulnerability and damage Developments
in extreme value probability analysis of extreme wind speeds and
directions Explanation of the difference between 'return period'
and 'average recurrence interval', as well as 'bootstrapping'
techniques for deriving confidence limits Wind over water, and
profiles and turbulence in non-synoptic winds An expanded chapter
on internal pressures produced by wind for various opening and
permeability scenarios Aerodynamic shaping of high- and low-rise
buildings Recent developments in five major wind codes and
standards A new chapter on computational fluid dynamics (CFD), as
applied to wind engineering A greatly expanded appendix providing
the basic information on extreme wind climates for over 140
countries and territories Additional examples for many chapters in
this book
The annotations in this volume, originally published in 1996,
intend to assist the reader of Faulkner's The Hamlet to understand
obscure or difficult words and passages, including literary
allusions, dialect, and historical events that Faulkner uses or
alludes to. This title will be of great interest to students of
literature.
The annotations in this volume, originally published in 1996,
intend to assist the reader of Faulkner's The Hamlet to understand
obscure or difficult words and passages, including literary
allusions, dialect, and historical events that Faulkner uses or
alludes to. This title will be of great interest to students of
literature.
Mathematics of Planet Earth (MPE) was started and continues to be
consolidated as a collaboration of mathematical science
organisations around the world. These organisations work together
to tackle global environmental, social and economic problems using
mathematics.This textbook introduces the fundamental topics of MPE
to advanced undergraduate and graduate students in mathematics,
physics and engineering while explaining their modern usages and
operational connections. In particular, it discusses the links
between partial differential equations, data assimilation,
dynamical systems, mathematical modelling and numerical simulations
and applies them to insightful examples.The text also complements
advanced courses in geophysical fluid dynamics (GFD) for
meteorology, atmospheric science and oceanography. It links the
fundamental scientific topics of GFD with their potential usage in
applications of climate change and weather variability. The
immediacy of examples provides an excellent introduction for
experienced researchers interested in learning the scope and
primary concepts of MPE.
Mathematics of Planet Earth (MPE) was started and continues to be
consolidated as a collaboration of mathematical science
organisations around the world. These organisations work together
to tackle global environmental, social and economic problems using
mathematics.This textbook introduces the fundamental topics of MPE
to advanced undergraduate and graduate students in mathematics,
physics and engineering while explaining their modern usages and
operational connections. In particular, it discusses the links
between partial differential equations, data assimilation,
dynamical systems, mathematical modelling and numerical simulations
and applies them to insightful examples.The text also complements
advanced courses in geophysical fluid dynamics (GFD) for
meteorology, atmospheric science and oceanography. It links the
fundamental scientific topics of GFD with their potential usage in
applications of climate change and weather variability. The
immediacy of examples provides an excellent introduction for
experienced researchers interested in learning the scope and
primary concepts of MPE.
See also GEOMETRIC MECHANICS - Part I: Dynamics and Symmetry (2nd
Edition) This textbook introduces modern geometric mechanics to
advanced undergraduates and beginning graduate students in
mathematics, physics and engineering. In particular, it explains
the dynamics of rotating, spinning and rolling rigid bodies from a
geometric viewpoint by formulating their solutions as coadjoint
motions generated by Lie groups. The only prerequisites are linear
algebra, multivariable calculus and some familiarity with
Euler-Lagrange variational principles and canonical Poisson
brackets in classical mechanics at the beginning undergraduate
level.The book uses familiar concrete examples to explain
variational calculus on tangent spaces of Lie groups. Through these
examples, the student develops skills in performing computational
manipulations, starting from vectors and matrices, working through
the theory of quaternions to understand rotations, then
transferring these skills to the computation of more abstract
adjoint and coadjoint motions, Lie-Poisson Hamiltonian
formulations, momentum maps and finally dynamics with nonholonomic
constraints.The organisation of the first edition has been
preserved in the second edition. However, the substance of the text
has been rewritten throughout to improve the flow and to enrich the
development of the material. Many worked examples of adjoint and
coadjoint actions of Lie groups on smooth manifolds have also been
added and the enhanced coursework examples have been expanded. The
second edition is ideal for classroom use, student projects and
self-study.
See also GEOMETRIC MECHANICS - Part I: Dynamics and Symmetry (2nd
Edition) This textbook introduces modern geometric mechanics to
advanced undergraduates and beginning graduate students in
mathematics, physics and engineering. In particular, it explains
the dynamics of rotating, spinning and rolling rigid bodies from a
geometric viewpoint by formulating their solutions as coadjoint
motions generated by Lie groups. The only prerequisites are linear
algebra, multivariable calculus and some familiarity with
Euler-Lagrange variational principles and canonical Poisson
brackets in classical mechanics at the beginning undergraduate
level.The book uses familiar concrete examples to explain
variational calculus on tangent spaces of Lie groups. Through these
examples, the student develops skills in performing computational
manipulations, starting from vectors and matrices, working through
the theory of quaternions to understand rotations, then
transferring these skills to the computation of more abstract
adjoint and coadjoint motions, Lie-Poisson Hamiltonian
formulations, momentum maps and finally dynamics with nonholonomic
constraints.The organisation of the first edition has been
preserved in the second edition. However, the substance of the text
has been rewritten throughout to improve the flow and to enrich the
development of the material. Many worked examples of adjoint and
coadjoint actions of Lie groups on smooth manifolds have also been
added and the enhanced coursework examples have been expanded. The
second edition is ideal for classroom use, student projects and
self-study.
See also GEOMETRIC MECHANICS - Part II: Rotating, Translating and
Rolling (2nd Edition) This textbook introduces the tools and
language of modern geometric mechanics to advanced undergraduates
and beginning graduate students in mathematics, physics and
engineering. It treats the fundamental problems of dynamical
systems from the viewpoint of Lie group symmetry in variational
principles. The only prerequisites are linear algebra, calculus and
some familiarity with Hamilton's principle and canonical Poisson
brackets in classical mechanics at the beginning undergraduate
level.The ideas and concepts of geometric mechanics are explained
in the context of explicit examples. Through these examples, the
student develops skills in performing computational manipulations,
starting from Fermat's principle, working through the theory of
differential forms on manifolds and transferring these ideas to the
applications of reduction by symmetry to reveal Lie-Poisson
Hamiltonian formulations and momentum maps in physical
applications.The many Exercises and Worked Answers in the text
enable the student to grasp the essential aspects of the subject.
In addition, the modern language and application of differential
forms is explained in the context of geometric mechanics, so that
the importance of Lie derivatives and their flows is clear. All
theorems are stated and proved explicitly.The organisation of the
first edition has been preserved in the second edition. However,
the substance of the text has been rewritten throughout to improve
the flow and to enrich the development of the material. In
particular, the role of Noether's theorem about the implications of
Lie group symmetries for conservation laws of dynamical systems has
been emphasised throughout, with many applications.
See also GEOMETRIC MECHANICS - Part II: Rotating, Translating and
Rolling (2nd Edition) This textbook introduces the tools and
language of modern geometric mechanics to advanced undergraduates
and beginning graduate students in mathematics, physics and
engineering. It treats the fundamental problems of dynamical
systems from the viewpoint of Lie group symmetry in variational
principles. The only prerequisites are linear algebra, calculus and
some familiarity with Hamilton's principle and canonical Poisson
brackets in classical mechanics at the beginning undergraduate
level.The ideas and concepts of geometric mechanics are explained
in the context of explicit examples. Through these examples, the
student develops skills in performing computational manipulations,
starting from Fermat's principle, working through the theory of
differential forms on manifolds and transferring these ideas to the
applications of reduction by symmetry to reveal Lie-Poisson
Hamiltonian formulations and momentum maps in physical
applications.The many Exercises and Worked Answers in the text
enable the student to grasp the essential aspects of the subject.
In addition, the modern language and application of differential
forms is explained in the context of geometric mechanics, so that
the importance of Lie derivatives and their flows is clear. All
theorems are stated and proved explicitly.The organisation of the
first edition has been preserved in the second edition. However,
the substance of the text has been rewritten throughout to improve
the flow and to enrich the development of the material. In
particular, the role of Noether's theorem about the implications of
Lie group symmetries for conservation laws of dynamical systems has
been emphasised throughout, with many applications.
Wind forces from extreme wind events are the dominant loading for
many parts of the world, exacerbated by climate change and the
continued construction of tall buildings and structures. This
authoritative source, for practising and academic structural
engineers and graduate students, ties the principles of wind loads
on structures to the relevant aspects of meteorology, bluff-body
aerodynamics, probability and statistics, and structural dynamics.
This new edition covers: Climate change effects on extreme winds -
particularly those from tropical cyclones, hurricanes and typhoons
Modelling of potential wind vulnerability and damage Developments
in extreme value probability analysis of extreme wind speeds and
directions Explanation of the difference between 'return period'
and 'average recurrence interval', as well as 'bootstrapping'
techniques for deriving confidence limits Wind over water, and
profiles and turbulence in non-synoptic winds An expanded chapter
on internal pressures produced by wind for various opening and
permeability scenarios Aerodynamic shaping of high- and low-rise
buildings Recent developments in five major wind codes and
standards A new chapter on computational fluid dynamics (CFD), as
applied to wind engineering A greatly expanded appendix providing
the basic information on extreme wind climates for over 140
countries and territories Additional examples for many chapters in
this book
We consider quantum dynamical systems (in general, these could be
either Hamiltonian or dissipative, but in this review we shall be
interested only in quantum Hamiltonian systems) that have, at least
formally, a classical limit. This means, in particular, that each
time-dependent quantum-mechanical expectation value X (t) has as i
cl Ii -+ 0 a limit Xi(t) -+ x1 )(t) of the corresponding classical
sys- tem. Quantum-mechanical considerations include an additional
di- mensionless parameter f = iiiconst. connected with the Planck
constant Ii. Even in the quasiclassical region where f~ 1, the dy-
namics of the quantum and classicalfunctions Xi(t) and XiCcl)(t)
will be different, in general, and quantum dynamics for expectation
val- ues may coincide with classical dynamics only for some finite
time. This characteristic time-scale, TIi., could depend on several
factors which will be discussed below, including: choice of
expectation val- ues, initial state, physical parameters and so on.
Thus, the problem arises in this connection: How to estimate the
characteristic time- scale TIi. of the validity of the
quasiclassical approximation and how to measure it in an
experiment? For rather simple integrable quan- tum systems in the
stable regions of motion of their corresponding classical phase
space, this time-scale T" usually is of order (see, for example,
[2]) const TIi. = p,li , (1.1) Q where p, is the dimensionless
parameter of nonlinearity (discussed below) and a is a constant of
the order of unity.
Classical mechanics, one of the oldest branches of science, has
undergone a long evolution, developing hand in hand with many areas
of mathematics, including calculus, differential geometry, and the
theory of Lie groups and Lie algebras. The modern formulations of
Lagrangian and Hamiltonian mechanics, in the coordinate-free
language of differential geometry, are elegant and general. They
provide a unifying framework for many seemingly disparate physical
systems, such as n-particle systems, rigid bodies, fluids and other
continua, and electromagnetic and quantum systems.
Geometric Mechanics and Symmetry is a friendly and fast-paced
introduction to the geometric approach to classical mechanics,
suitable for a one- or two- semester course for beginning graduate
students or advanced undergraduates. It fills a gap between
traditional classical mechanics texts and advanced modern
mathematical treatments of the subject. After a summary of the
necessary elements of calculus on smooth manifolds and basic Lie
group theory, the main body of the text considers how symmetry
reduction of Hamilton's principle allows one to derive and analyze
the Euler-Poincare equations for dynamics on Lie groups.
Additional topics deal with rigid and pseudo-rigid bodies, the
heavy top, shallow water waves, geophysical fluid dynamics and
computational anatomy. The text ends with a discussion of the
semidirect-product Euler-Poincare reduction theorem for ideal fluid
dynamics.
A variety of examples and figures illustrate the material, while
the many exercises, both solved and unsolved, make the book a
valuable class text."
Contributors: Madeleine Brainerd, Joe Conway, Fraser Easton,
Christopher GoGwilt, Shari Goldberg, Melanie D. Holm, Sarah Kay,
Kaori T. Kitao, Holt V. Meyer, Isabel A. Moore, Fawzia Mustafa,
Gavin Sourgen. Mocking Bird Technologies brings together a range of
perspectives to offer an extended meditation on bird mimicry in
literature: the way birds mimic humans, the way humans mimic birds,
and the way mimicry of any kind involves technologies that extend
across as well as beyond languages and species. The essays examine
the historical, poetic, and semiotic problem of mimesis exemplified
both by the imitative behavior of parrots, starlings, and other
mocking birds, and by the poetic trope of such birds in a range of
literary and philological traditions. Drawing from a cross-section
of traditional periods and fields in literary studies (18th-century
studies, romantic studies, early American studies, 20th-century
studies, and postcolonial studies), the collection offers new
models for combining comparative and global studies of literature
and culture. Editors Christopher GoGwilt is Professor of English
and Comparative Literature at Fordham University. He is the author
of The Passage of Literature: Genealogies of Modernism in Conrad,
Rhys, and Pramoedya (Oxford, 2011), The Fiction of Geopolitics:
Afterimages of Culture from Wilkie Collins to Alfred Hitchcock
(Stanford, 2000), and The Invention of the West: Joseph Conrad and
the Double-Mapping of Europe and Empire (Stanford, 1995). Melanie
D. Holm is Assistant Professor of the English Department and
Graduate Program of Literature and Criticism at Indiana University
of Pennsylvania. She also teaches in the university's Women's and
Gender Studies program. Her scholarly focus is on
eighteenth-century literature and skepticism. Contributors
Madeleine Brainerd taught at Washington University in St. Louis and
at Excelsior College. Since 2004 she has taught therapeutic yoga
and medical qi gong in New York City, at the Integral Yoga
Institute, Kenshikai Dojo, Gouverneur Hospital, and other venues.
She studies histories of yoga's intersections with ecological
in/justice, animality, and affect theory. Joe Conway is an
Assistant Professor of American Literature at the University of
Alabama in Huntsville. His articles have appeared or are scheduled
to appear in the journals Women's Studies, Early American
Literature, and Nineteenth-Century Contexts. He is currently at
work on a monograph about the social life of antebellum money that
charts how discourses of noneconomic phenomena such as medicine,
race, nationalism, and aesthetics informed nineteenth-century
debates about what constitutes good money. Fraser Easton is
Associate Professor of English, University of Waterloo, Canada. A
specialist in eighteenth-century literature, he has published on
Jane Austen, Daniel Defoe, Maria Edgeworth, and Christopher Smart,
as well as on newspaper records and historical accounts of passing
women in the eighteenth century. Shari Goldberg is Assistant
Professor of English at Franklin & Marshall College in
Lancaster, Pennsylvania. She is the author of Quiet Testimony: A
Theory of Witnessing from Nineteenth-Century American Literature
(Fordham, 2013). She has also published essays on silence,
politics, and personhood in American literature. Her current
research focuses on late-nineteenth-century models of mind and
person in narrative and psychological writing. Sarah Kay teaches
French and Medieval Studies at New York University. She has written
widely on medieval literature across languages, genres, and
periods; her work combines the study of medieval texts, especially
troubadour songs, with philosophical and theoretical inquiry. Her
two most recent books are Parrots and Nightingales: Troubadour
Quotations and the Development of European Poetry (2013) and Animal
Skins and the Reading Self in Medieval Latin and French Bestiaries
(2017). Kaori Kitao (William R. Kenan Jr. Professor of Art History,
Emerita, Swarthmore College) taught art history at Swarthmore
College from 1966 to 2001. She was born in Tokyo and studied
architecture at UC Berkeley and art history at Harvard. Her main
specialization is Italian renaissance and baroque art; she has also
taught courses in cinema history, material culture, urban studies,
and Japanese architecture. Holt V. Meyer is Professor of Slavic
Studies at Erfurt University. He is the author of Romantische
Orientierung (1995) and numerous articles and has co-edited the
collections Juden und Judentum in Literatur und Film des slavischen
Sprachraumes. Die geniale Epoche (1999), Inventing Slavia (2005),
Schiller: Gedenken-Vergessen-Lesen (2010), and Gagarin als
Archivkoerper und Erinnerungsfigur (2014). He is co-editor of the
new book series Spatio-Temporality. Practices-Concepts- Media (De
Gruyter). He is currently working on a book about the official
Stalinist Pushkin celebrations of 1949. Isabel (Annie) Moore
completed her Ph.D. in comparative literature at the University of
California-Irvine. From 2011 to 2013, she held a postdoctoral
fellowship in English at the University of Victoria. She has
published on Contemporary Irish and Canadian poetry, and her book
project is titled The Ends of Lyric Life: A Theory of Biopoetics.
Fawzia Mustafa is Professor of English and African and African
American Studies at Fordham University. She also teaches in the
university's Comparative Literature and Women's, Gender and
Sexuality Studies Programs. The author of V. S. Naipaul (1995), she
has published numerous articles on postcolonial literature and
development. Gavin Sourgen is Visiting Assistant Professor of
English at the Harriet L. Wilkes Honors College of Florida Atlantic
University. He completed his D.Phil. at Balliol College (Oxford) in
2013, concentrating on the transitional poetics of Lord Byron's
verse, and has published on Byron, Coleridge, and romantic
aesthetics in general.
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