Browse Items (42 total)
- Collection: 1988 - Dyn. Pattern Form. in Chem. and Math.
Sort by:
C24b - Anthropomorphoses
C24 a, b, Pictures with the classical BZ-reaction. They just look like a face – awake and sleeping
C24a - Anthropomorphoses
C24 a, b, Pictures with the classical BZ-reaction. They just look like a face – awake and sleeping.
C23 - Anthropomorphoses
C23, This is a drop experiment, where by chance, the result resembles an embryo.
C22 - Symmetry through synergy of enzymic turnover and surface forces
The dynamics of pattern formation reaches a higher level of complexity as soon as convective flow joins diffusion as a transport mechanism. If, e. g., surface forces, as they are caused by gradients in concentration and/ or temperature (mostly…
C21 - Cytoplasmic painting by surface forces
The dynamics of pattern formation reaches a higher level of complexity as soon as convective flow joins diffusion as a transport mechanism. If, e. g., surface forces, as they are caused by gradients in concentration and/ or temperature (mostly…
C20 - Rosette in 3D (cytoplasm)
The dynamics of pattern formation reaches a higher level of complexity as soon as convective flow joins diffusion as a transport mechanism. If, e. g., surface forces, as they are caused by gradients in concentration and/ or temperature (mostly…
C19 - Convectionland (BZ)
The dynamics of pattern formation reaches a higher level of complexity as soon as convective flow joins diffusion as a transport mechanism. If, e. g., surface forces, as they are caused by gradients in concentration and/ or temperature (mostly…
C18 - Reactive excitation by convection (BZ)
The dynamics of pattern formation reaches a higher level of complexity as soon as convective flow joins diffusion as a transport mechanism. If, e. g., surface forces, as they are caused by gradients in concentration and/ or temperature (mostly…
C17 - Boundaries of convective flow across waves (BZ)
The dynamics of pattern formation reaches a higher level of complexity as soon as convective flow joins diffusion as a transport mechanism. If, e. g., surface forces, as they are caused by gradients in concentration and/ or temperature (mostly…