Reduction of Nonlinear Dynamic Systems By Phase Space Analysis (1994)
this paper is to show that the concept of phase space in connection with interactive computer graphics [1] can be used to perform the second step even if nonlinearities prevail. Instead of a formal...
We look directly into multidimensional phase spaces. This is useful if little is known about suitable observables and underlying laws. The dynamical system we examine is the human body, in particular...
We look directly into multidimensional phase spaces. This is useful if little is known about suitable observables and underlying laws. The dynamical system we examine is the human body, in particular...
We look directly into multidimensional phase spaces. This is useful if little is known about suitable observables and underlying laws. The dynamical system we examine is the human body, in particular...
We look directly into multidimensional phase spaces. This is useful if little is known about suitable observables and underlying laws. The dynamical system we examine is the human body, in particular...
We look directly into multidimensional phase spaces. This is useful if little is known about suitable observables and underlying laws. The dynamical system we examine is the human body, in particular...
We look directly into multidimensional phase spaces. This is useful if little is known about suitable observables and underlying laws. The dynamical system we examine is the human body, in particular...
Direct simulation of a permeable membrane (1990)
Cellular automata are used to compute flow thru a permeable membrane. Scattering centers constitute the membrane. This is in marked contrast to the approach of classical hydrodynamics which...
Direct simulation of a permeable membrane (1990)
Cellular automata are used to compute flow thru a permeable membrane. Scattering centers constitute the membrane. This is in marked contrast to the approach of classical hydrodynamics which...
Direct simulation of a permeable membrane (1990)
Cellular automata are used to compute flow thru a permeable membrane. Scattering centers constitute the membrane. This is in marked contrast to the approach of classical hydrodynamics which...
Direct simulation of a permeable membrane (1990)
Cellular automata are used to compute flow thru a permeable membrane. Scattering centers constitute the membrane. This is in marked contrast to the approach of classical hydrodynamics which...
Direct simulation of a permeable membrane (1990)
Cellular automata are used to compute flow thru a permeable membrane. Scattering centers constitute the membrane. This is in marked contrast to the approach of classical hydrodynamics which...
Direct simulation of a permeable membrane (1990)
Cellular automata are used to compute flow thru a permeable membrane. Scattering centers constitute the membrane. This is in marked contrast to the approach of classical hydrodynamics which...
FLUCTUATIONS IN THE NUCLEAR DYNAMICS OF FISSION (1984)
First steps towards a dynamical theory of random neck rupture are described. Gaussian curvature is used to examine the dynamical behaviour of the fissioning nucleus.
FLUCTUATIONS IN THE NUCLEAR DYNAMICS OF FISSION (1984)
First steps towards a dynamical theory of random neck rupture are described. Gaussian curvature is used to examine the dynamical behaviour of the fissioning nucleus.
FLUCTUATIONS IN THE NUCLEAR DYNAMICS OF FISSION (1984)
First steps towards a dynamical theory of random neck rupture are described. Gaussian curvature is used to examine the dynamical behaviour of the fissioning nucleus.
FLUCTUATIONS IN THE NUCLEAR DYNAMICS OF FISSION (1984)
First steps towards a dynamical theory of random neck rupture are described. Gaussian curvature is used to examine the dynamical behaviour of the fissioning nucleus.
FLUCTUATIONS IN THE NUCLEAR DYNAMICS OF FISSION (1984)
First steps towards a dynamical theory of random neck rupture are described. Gaussian curvature is used to examine the dynamical behaviour of the fissioning nucleus.
FLUCTUATIONS IN THE NUCLEAR DYNAMICS OF FISSION (1984)
First steps towards a dynamical theory of random neck rupture are described. Gaussian curvature is used to examine the dynamical behaviour of the fissioning nucleus.
ON THE DYNAMICS OF COLLIDING DROPLETS (1980)
For two fusing droplets of an ideal liquid the velocity field is calculated in toroidal coordinates. Since the approach via a boundary-value problem of the second kind for the velocity potential does...