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Nonlinear Hydrodynamic Modeling: A Mathematical Introduction
Overview of attention for book
Table of Contents
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Book Overview
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Chapter 1
Modeling: A strategy for understanding
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Chapter 2
A simple nonlinear model of convection
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Chapter 3
From the equations of motion to spectral models
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Chapter 4
Linear stability analysis
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Chapter 5
Bifurcation analysis of stationary solutions
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Chapter 6
Typical branching forms: Stationary solutions
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Chapter 7
The expected branching solution: Preferred wavelengths
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Chapter 8
Identifying crucial parameters with contact catastrophe theory
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Chapter 9
Hierarchies of transitions: Secondary branching
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Chapter 10
Alexander-Yorke Continuation: Numerically finding all the stationary solutions in a spectral model
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Chapter 11
Typical branching forms: Periodic solutions
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Chapter 12
The expected branching solution: Preferred wavelengths and orientations
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Chapter 13
On computing the branching direction of bifurcating periodic solutions
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Chapter 14
Bifurcation analysis of periodic solutions
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Chapter 15
The transition to turbulence
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Chapter 16
Diagnosing the structures of attractors
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Chapter 17
Introduction to topological hydrodynamics
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Chapter 18
Modeling and metamodeling
Overall attention for this book and its chapters
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Mentioned by
syllabi
1
institution with syllabi
Book overview
1. Modeling: A strategy for understanding
2. A simple nonlinear model of convection
3. From the equations of motion to spectral models
4. Linear stability analysis
5. Bifurcation analysis of stationary solutions
6. Typical branching forms: Stationary solutions
7. The expected branching solution: Preferred wavelengths
8. Identifying crucial parameters with contact catastrophe theory
9. Hierarchies of transitions: Secondary branching
10. Alexander-Yorke Continuation: Numerically finding all the stationary solutions in a spectral model
11. Typical branching forms: Periodic solutions
12. The expected branching solution: Preferred wavelengths and orientations
13. On computing the branching direction of bifurcating periodic solutions
14. Bifurcation analysis of periodic solutions
15. The transition to turbulence
16. Diagnosing the structures of attractors
17. Introduction to topological hydrodynamics
18. Modeling and metamodeling
Summary
Syllabi
This data is correct as of December 2015 - for more up to date information, please visit
https://opensyllabus.org/
So far, Altmetric has seen this research output assigned in
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syllabus from an institution on Open Syllabus Project.
Institution
Syllabi count
Course subject areas covered
Unknown
1
Linguistics, Area and Ethnic Studies