Nonlinear Hydrodynamic Modeling: A Mathematical Introduction
Nonlinear Hydrodynamic Modeling: A Mathematical Introduction [electronic resource] /
edited by Hampton N. Shirer.
- XVI, 548 p. 21 illus. online resource.
- Lecture Notes in Physics, 271 0075-8450 ; .
- Lecture Notes in Physics, 271 .
Modeling: A strategy for understanding -- A simple nonlinear model of convection -- From the equations of motion to spectral models -- Linear stability analysis -- Bifurcation analysis of stationary solutions -- Typical branching forms: Stationary solutions -- The expected branching solution: Preferred wavelengths -- Identifying crucial parameters with contact catastrophe theory -- Hierarchies of transitions: Secondary branching -- Alexander-Yorke Continuation: Numerically finding all the stationary solutions in a spectral model -- Typical branching forms: Periodic solutions -- The expected branching solution: Preferred wavelengths and orientations -- On computing the branching direction of bifurcating periodic solutions -- Bifurcation analysis of periodic solutions -- The transition to turbulence -- Diagnosing the structures of attractors -- to topological hydrodynamics -- Modeling and metamodeling.
9783540474562
10.1007/3-540-17557-1 doi
Physics.
Fluids.
Physics.
Fluid- and Aerodynamics.
QC138-168.86 QA930
532 533.62
Modeling: A strategy for understanding -- A simple nonlinear model of convection -- From the equations of motion to spectral models -- Linear stability analysis -- Bifurcation analysis of stationary solutions -- Typical branching forms: Stationary solutions -- The expected branching solution: Preferred wavelengths -- Identifying crucial parameters with contact catastrophe theory -- Hierarchies of transitions: Secondary branching -- Alexander-Yorke Continuation: Numerically finding all the stationary solutions in a spectral model -- Typical branching forms: Periodic solutions -- The expected branching solution: Preferred wavelengths and orientations -- On computing the branching direction of bifurcating periodic solutions -- Bifurcation analysis of periodic solutions -- The transition to turbulence -- Diagnosing the structures of attractors -- to topological hydrodynamics -- Modeling and metamodeling.
9783540474562
10.1007/3-540-17557-1 doi
Physics.
Fluids.
Physics.
Fluid- and Aerodynamics.
QC138-168.86 QA930
532 533.62