Dynamical Theory of Crystal Lattices was created on 2007-08-30.
Dynamical Theory of Crystal Lattices has 432 pages.
Edward R. Scheinerman has written: 'Fractional graph theory' -- subject(s): MATHEMATICS / Graphic Methods, Graph theory 'Invitation to dynamical systems' -- subject(s): Differentiable dynamical systems 'Invitation to dynamical systems' -- subject(s): Differentiable dynamical systems
Luc Pronzato has written: 'Dynamical search' -- subject(s): Differentiable dynamical systems, Search theory
Pei-Dong Liu has written: 'Smooth ergodic theory of random dynamical systems' -- subject(s): Random dynamical systems, Ergodic theory, Stochastic differential equations
K. Alhumaizi has written: 'Surveying a dynamical system' -- subject(s): Bifurcation theory, Differentiable dynamical systems, Chaotic behavior in systems
Kunihiko Kaneko has written: 'Theory and applications of coupled map lattices' -- subject(s): Coupled map lattices, Spatial analysis (Mathematics) 'Life'
water, water is the liquid crystal theory
Klaus Schmidt has written: 'Algebraic ideas in ergodic theory' -- subject(s): Congresses, Ergodic theory, Markov processes, Operator algebras 'Cocycles on ergodic transformation groups' -- subject(s): Cocycles, Ergodic theory, Transformation groups 'Dynamical systems of algebraic origin' -- subject(s): Abelian groups, Automorphisms, Differentiable dynamical systems, Ergodic theory
Francis K. Fong has written: 'Radiationless Processes in Molecules and Crystals (Topics in applied physics ; v. 15)' -- subject(s): Molecular theory, Crystal lattices, Relaxation (Nuclear physics), Radiationless transitions
Derong Liu has written: 'Dynamical systems with saturation nonlinearities' -- subject(s): Control theory, Neural networks (Computer science), Nonlinear theories, Digital filters (Mathematics), Differentiable dynamical systems
Arithmetic · Logic · Set theory · Category theory · Algebra (elementary - linear - abstract) ·Number theory · Analysis (calculus) · Geometry · Trigonometry · Topology · Dynamical systems · Combinatorics ·
The basic tenet of the chaos theory is to identify the dynamical system behavior that are highly sensitive to starting conditions. This is usually is best explained as the "butterfly effect."