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Fills a gap in the field of second language teaching, especially in
the Chinese as a second language teaching field. includes both
research and pedagogical aspects that would attract both
practitioners and researchers exploring pedagogical approaches to
teaching Chinese listening based on a comparative view of Chinese
listening and that of other languages.
Fills a gap in the field of second language teaching, especially in
the Chinese as a second language teaching field. includes both
research and pedagogical aspects that would attract both
practitioners and researchers exploring pedagogical approaches to
teaching Chinese listening based on a comparative view of Chinese
listening and that of other languages.
This book introduces the fundamental concepts, methods, and
applications of Hausdorff calculus, with a focus on its
applications in fractal systems. Topics such as the Hausdorff
diffusion equation, Hausdorff radial basis function, Hausdorff
derivative nonlinear systems, PDE modeling, statistics on fractals,
etc. are discussed in detail. It is an essential reference for
researchers in mathematics, physics, geomechanics, and mechanics.
A unique and comprehensive graduate text and reference on numerical
methods for electromagnetic phenomena, from atomistic to continuum
scales, in biology, optical-to-micro waves, photonics,
nanoelectronics and plasmas. The state-of-the-art numerical methods
described include: * Statistical fluctuation formulae for the
dielectric constant * Particle-Mesh-Ewald, Fast-Multipole-Method
and image-based reaction field method for long-range interactions *
High-order singular/hypersingular (Nystrom collocation/Galerkin)
boundary and volume integral methods in layered media for
Poisson-Boltzmann electrostatics, electromagnetic wave scattering
and electron density waves in quantum dots * Absorbing and UPML
boundary conditions * High-order hierarchical Nedelec edge elements
* High-order discontinuous Galerkin (DG) and Yee finite difference
time-domain methods * Finite element and plane wave
frequency-domain methods for periodic structures * Generalized DG
beam propagation method for optical waveguides *
NEGF(Non-equilibrium Green's function) and Wigner kinetic methods
for quantum transport * High-order WENO and Godunov and central
schemes for hydrodynamic transport * Vlasov-Fokker-Planck and PIC
and constrained MHD transport in plasmas"
This textbook provides students with a complete working knowledge
of the properties of imperfections in crystalline solids. Readers
will learn how to apply the fundamental principles of mechanics and
thermodynamics to defect properties in materials science, gaining
all the knowledge and tools needed to put this into practice in
their own research. Beginning with an introduction to defects and a
brief review of basic elasticity theory and statistical
thermodynamics, the authors go on to guide the reader in a
step-by-step way through point, line, and planar defects, with an
emphasis on their structural, thermodynamic, and kinetic
properties. Numerous end-of-chapter exercises enable students to
put their knowledge into practice, and with solutions for
instructors and MATLAB (R) programs available online, this is an
essential text for advanced undergraduate and introductory graduate
courses in crystal defects, as well as being ideal for self-study.
A compilation of articles and photos by Ng Wai Choy, a Singaporean
journalist who was living in Beijing shared his life experience in
Beijing.
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