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Pulling Rabbits Out of Hats

David Wollkind | Bonni J. Dichone
€61.50
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A01=Bonni J. Dichone
A01=David Wollkind
advanced mathematical methods
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Amplitude Equation
applied mathematics modeling
Author_Bonni J. Dichone
Author_David Wollkind
automatic-update
Bifurcation Diagram
Category1=Non-Fiction
Category=PB
COP=United Kingdom
Cross-diffusive Effect
Delivery_Pre-order
Diffusive Instability
ecological pattern theory
eq_isMigrated=2
eq_nobargain
Equilibrium Point
fluid instability analysis
Landau Coefficients
Language_English
Linear Stability
Linear Stability Analysis
Linear Stability Theory
Long Time Asymptotic Behavior
Marginal Stability Curve
mathematical modeling in physical sciences
Model Evolution Equation
nonlinear dynamics
Nonlinear Stability
Nonlinear Stability Analysis
Ordinary Differential Equations
PA=Not yet available
Partial Differential Evolution Equation
Pattern Formation Study
Price_€50 to €100
PS=Forthcoming
Pseudo Gaps
Quantum Dots
reaction diffusion systems
Rhombic Patterns
softlaunch
Straight Forward Manner
Thin Liquid Films
Turing Pattern
Vegetative Patterns
Viral RNA Copy

Product details

  • ISBN 9781032050072
  • Weight: 1020g
  • Dimensions: 178 x 254mm
  • Publication Date: 04 Oct 2024
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Paperback
  • Language: English
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Description

Pulling Rabbits Out of Hats: Using Mathematical Modeling in the Material, Biophysical, Fluid Mechanical, and Chemical Sciences focuses on those assumptions made during applied mathematical modeling in which the phenomenological data and the model predictions are self-consistent. This comprehensive reference demonstrates how to employ a variety of mathematical techniques to quantify a number of problems from the material, biophysical, fluid mechanical, and chemical sciences. In doing so, methodology of modelling, analysis, and result generation are all covered.

Key Features:

    • Includes examples on such cases as solidification of alloys, chemically-driven convection of dissociating gases, temperature-dependent predator-prey mite systems, multi-layer and two-phase fluid phenomena, viral-target cell interactions, diffusive and gravitational instabilities, and chemical, material science, optical, and ecological Turing patterns.
    • Aims to make the process of quantification of scientific phenomena transparent.
    • Is a hybrid semi-autobiographical account of research results and a monograph on pattern formation.

This book is for everyone with an interest in how both scientific contributions are made and mathematical modelling is developed from first principles in STEM fields.

For errata, please visit the author's website.
About Bonni J. Dichone | David Wollkind

David J. Wollkind is Professor Emeritus at Washington State University, USA. Bonni Dichone is a retired Full Professor of Applied Mathematics, formerly at Gonzaga University, USA.

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