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Take advantage of your C# skills to build UI components and
client-side experiences with .NET. With this practical guide,
you'll learn how to use Blazor WebAssembly to develop
next-generation web experiences. Built on top of ASP.NET Core,
Blazor represents the future of .NET single-page applications (SPA)
investments. Author David Pine, who focuses on .NET and Azure
content development at Microsoft, explains how WebAssembly enables
many non-JavaScript-based programming languages to run on the
client browser. In this book, you'll learn about real-time web
functionality with ASP.NET Core SignalR. You'll learn strategies
for bidirectional JavaScript interop. David covers component data
binding, hierarchical event-driven communications, in-memory state
management, and local storage. This book shows you how to: Create a
feature-rich Blazor app that looks beautiful Localize an
enterprise-scale app as the sole developer using GitHub Actions and
Azure Cognitive Services Translator service Create advanced
validation scenarios for input-based components with forms
Automatically deploy and host to Azure Static Web Apps, and rely on
HTTP services Utilize geolocation service native to the browser, as
well as native speech synthesis and recognition Author a custom
modal verification mechanism for validating a user Determine the
best approach for building reliable, architecturally sound websites
The Santa Fe Institute, as key element in its founding activities,
sponsored two workshops on 'Emerging Syntheses in Science.' There
was unanimous agreement among the participants that Professor
Gell-Mann's keynote address and the ensuing talks were of such high
quality and general interest that it would be highly desirable to
publish these for bro
This text continues to fill the need to communicate the present
view of a solid as a system of interacting particles which, under
suitable circumstances, behaves like a collection of nearly
independent elementary excitations. In addition to introducing
basic concepts, the author frequently refers to experimental data.
Usually, both the basic theory and the applications discussed deal
with the behavior of '`'simple' metals, rather than the
'`'complicated' metals, such as the transition metals and the rare
earths. Problems have been included for most of the chapters.
This book is concerned with a single group of quantum liquids,
normal Fermi liqztids, discussing the nature of elementary
excitations, the central concept of response functions. It is
intended as a text for a graduate course in quantum statistical
mechanics or low temperature theory.
Over the past thirty years, urban economic theory has been one of
the most active areas of urban and regional economic research. Just
as static general equilibrium theory is at the core of modern
microeconomics, so is the topic of this book - the static
allocation of resources within a city and between cities - at the
core of urban economic theory. An Essay on Urban Economic Theory
well reflects the state of the field. Part I provides an elegant,
coherent, and rigorous presentation of several variants of the
monocentric (city) model - as the centerpiece of urban economic
theory - treating equilibrium, optimum, and comparative statistics.
Part II explores less familiar and even some uncharted territory.
The monocentric model looks at a single city in isolation, taking
as given a central business district surrounded by residences. Part
II, in contrast, makes the intra-urban location of residential and
non-residential activity the outcome of the fundamental tradeoff
between the propensity to interact and the aversion to crowding;
the resulting pattern of agglomeration may be polycentric. Part II
also develops models of an urbanized economy with trade between
specialized cities and examines how the market-determined size
distribution of cities differs from the optimum. This book launches
a new series, Advances in Urban and Regional Economics. The series
aims to provide an outlet for longer scholarly works dealing with
topics in urban and regional economics.
Some twenty-three years after the discovery of pulsars and their
identification as rotating neutron stars, neutron star physics may
be regarded as comingofage. Pul sars and accreting neutron stars
have now been studied at every wavelength, from the initial radio
observations, through optical, X-, and "{-ray, up to the very
recent observations in the TeV region, while theorists have studied
in some detail relevant physical processes both outside and inside
neutron stars. As a result, comparisonof theory with observation
provides a test ofour theoretical ideas in fields as diverse as
neutron and nuclear matter, superfluidity and superconductivity,
the acceleration of high energy particles, and the generation and
maintenance of intense magnetic fields. For example, through
observations of glitches and post glitch behavior of pulsars, it
has become possible to establish the presence ofsuperfluid neutron
mat ter in the inner crust of neutron stars, and to determine some
of its properties, while neutron stars in compact binary systems
offer one ofthe most efficient energy generation mechanisms known.
It is in fact the interactive interpretation of these ,diverse
pieces of information that can lead to major advances in our
understanding of the physics of these exotic objects, and justifies
the characterization of neutron stars as hadron physics
laboratories.
Over the past thirty years, urban economic theory has been one of
the most active areas of urban and regional economic research. Just
as static general equilibrium theory is at the core of modern
microeconomics, so is the topic of this book - the static
allocation of resources within a city and between cities - at the
core of urban economic theory. An Essay on Urban Economic Theory
well reflects the state of the field. Part I provides an elegant,
coherent, and rigorous presentation of several variants of the
monocentric (city) model - as the centerpiece of urban economic
theory - treating equilibrium, optimum, and comparative statistics.
Part II explores less familiar and even some uncharted territory.
The monocentric model looks at a single city in isolation, taking
as given a central business district surrounded by residences. Part
II, in contrast, makes the intra-urban location of residential and
non-residential activity the outcome of the fundamental tradeoff
between the propensity to interact and the aversion to crowding;
the resulting pattern of agglomeration may be polycentric. Part II
also develops models of an urbanized economy with trade between
specialized cities and examines how the market-determined size
distribution of cities differs from the optimum. This book launches
a new series, Advances in Urban and Regional Economics. The series
aims to provide an outlet for longer scholarly works dealing with
topics in urban and regional economics.
This text continues to fill the need to communicate the present
view of a solid as a system of interacting particles which, under
suitable circumstances, behaves like a collection of nearly
independent elementary excitations. In addition to introducing
basic concepts, the author frequently refers to experimental data.
Usually, both the basic theory and the applications discussed deal
with the behavior of '`'simple' metals, rather than the
'`'complicated' metals, such as the transition metals and the rare
earths. Problems have been included for most of the chapters.
Some twenty-three years after the discovery of pulsars and their
identification as rotating neutron stars, neutron star physics may
be regarded as comingofage. Pul sars and accreting neutron stars
have now been studied at every wavelength, from the initial radio
observations, through optical, X-, and "{-ray, up to the very
recent observations in the TeV region, while theorists have studied
in some detail relevant physical processes both outside and inside
neutron stars. As a result, comparisonof theory with observation
provides a test ofour theoretical ideas in fields as diverse as
neutron and nuclear matter, superfluidity and superconductivity,
the acceleration of high energy particles, and the generation and
maintenance of intense magnetic fields. For example, through
observations of glitches and post glitch behavior of pulsars, it
has become possible to establish the presence ofsuperfluid neutron
mat ter in the inner crust of neutron stars, and to determine some
of its properties, while neutron stars in compact binary systems
offer one ofthe most efficient energy generation mechanisms known.
It is in fact the interactive interpretation of these, diverse
pieces of information that can lead to major advances in our
understanding of the physics of these exotic objects, and justifies
the characterization of neutron stars as hadron physics
laboratories."
Originally published as two separate volumes, The Theory of Quantum
Liquids is a classic text that attempts to describe the qualitative
and unifying aspects of an extremely broad and diversified field.
Volume I deals with 'normal' Fremi liquids, such as 3He and
electrons in metals. Volume II consists of a detailed treatment of
Bose condensation and liquid 4He, including the development of a
Bose liquid theory and a microscopic basis for the two-fluid model,
and the description of the elementary excitations of liquid HeII.
Evolution of self-replicating macromolecules through natural
selection is a dynamically ordered process. Two concepts are
introduced to describe the physical regularity of macromolecular
evolution: sequence space and quasi-species. Natural selection
means localization of a mutant distribution in sequence space. This
localized distribution, called the quasi-species, is centered
around a master sequence (or a degenerate set), that the biologist
would call the wild-type. The self-ordering of such a system is an
essential consequence of its formation through self-reproduction of
its macromolecular consti tuents, a process that in the dynamical
equations expresses itself by positive diagonal coefficients called
selective values. The theory describes how population numbers of
wild type and mutants are related to the distribution of selective
values, that is to say, how value topography maps into population
topography. For selectively (nearly) neutral mutants appearing in
the quasi- species distribution, population numbers are greatly
enhanced as compared to those of disadvantageous mutants, even more
so in continuous domains of such selectively valuable mutants. As a
consequence, mutants far distant from the wild type may occur
because they are produced with the help of highly populated, less
distant precursors. Since values are cohesively distributed, like
mountains on earth, and since their positions are multiply
connected in the high-dimensional sequence space, the
overpopulation of (nearly) neural mutants provides guidance for the
evolutionary process. Localization in sequence space, subject to a
threshold in the fidelity of reproduction, is steadily challenged
until an optimal state is reached. The model has been designed
according to experimentally determined properties of
self-replicating molecules. The conclusions reached from the
theoretical models can be used to construct machines that provide
optimal conditions for the evolution of functional macromolecules.
Notes By K. Datta, G. Carmi, And V. L. Teplitz. Foreword By K. W.
Ford.
Frontiers In Physics, A Lecture Note And Reprint Series.
A Collection Of Reprints With An Introduction.
A Collection Of Reprints With An Introduction.
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