Add to ORKGThe structure of the wake behind a continuously swimming mullet was analysed qualitatively and quantitatively by applying two-dimensional particle image velocimetry. A detailed analysis of the flow pattern and of the swimming movements of the fish allowed us to derive a kinematic explanation of the flow pattern as well as an estimate of the relative contributions of the body and the tail to thrust production. During active propulsion, the undulatory swimming fish shed a wake consisting in the medio-frontal plane of a rearward, zigzagging jet flow between alternating vortices. The fish shed one vortex per half tailbeat when the tail reached its most lateral position, Part of the circulation shed in the vortices had been generated previously ...
This paper deals with the hydrodynamics and internal dynamics of fish swimming. Our analysis starts ...
The fluid dynamics of animal locomotion, such as that of an undulating fish, are of great interest t...
Undulatory swimmers generate thrust by passing a transverse wave down their body. Thrust is generate...
The structure of the wake behind a continuously swimming mullet was analysed qualitatively and quant...
The structure of the wake behind a continuously swimming mullet was analysed qualitatively and quant...
Vertebrates swimming with undulations of the body and tail have inflection points where the curvatur...
Undulatory swimmers generate thrust by passing a transverse wave down their body. Thrust is generate...
SYNOPSIS. Despite enormous progress during the last twenty years in understanding the mechanistic ba...
A continuously swimming mullet modulates its thrust production by changing slip-the ratio between it...
A continuously swimming mullet modulates its thrust production by changing slip-the ratio between it...
Straight, forward, unrestrained swimming behaviour, with periodic lateral oscillations of body and t...
Zebra danios (Brachydanio rerio) swim in a burst-and-coast mode. Most swimming bouts consist of a si...
Most fish species swim with lateral body undulations running from head to tail, These waves run more...
This paper deals with the hydrodynamics and internal dynamics of fish swimming. Our analysis starts ...
The fluid dynamics of animal locomotion, such as that of an undulating fish, are of great interest t...
Undulatory swimmers generate thrust by passing a transverse wave down their body. Thrust is generate...
The structure of the wake behind a continuously swimming mullet was analysed qualitatively and quant...
The structure of the wake behind a continuously swimming mullet was analysed qualitatively and quant...
Vertebrates swimming with undulations of the body and tail have inflection points where the curvatur...
Undulatory swimmers generate thrust by passing a transverse wave down their body. Thrust is generate...
SYNOPSIS. Despite enormous progress during the last twenty years in understanding the mechanistic ba...
A continuously swimming mullet modulates its thrust production by changing slip-the ratio between it...
A continuously swimming mullet modulates its thrust production by changing slip-the ratio between it...
Straight, forward, unrestrained swimming behaviour, with periodic lateral oscillations of body and t...
Zebra danios (Brachydanio rerio) swim in a burst-and-coast mode. Most swimming bouts consist of a si...
Most fish species swim with lateral body undulations running from head to tail, These waves run more...
This paper deals with the hydrodynamics and internal dynamics of fish swimming. Our analysis starts ...
The fluid dynamics of animal locomotion, such as that of an undulating fish, are of great interest t...
Undulatory swimmers generate thrust by passing a transverse wave down their body. Thrust is generate...