Animal locomotion on the water surface

http://dbpedia.org/resource/Animal_locomotion_on_the_water_surface an entity of type: Book

Animal locomotion on the surface layer of water is the study of animal locomotion in the case of small animals that live on the surface layer of water, relying on surface tension to stay afloat. There are two types of animal locomotion on water, determined by the ratio of the animal's weight to the water's surface tension: those whose weight is supported by the surface tension at rest, and can therefore easily remain on the water's surface without much exertion, and those whose weight is not supported by the water's surface tension at rest, and must therefore exert additional motion in a direction parallel to the water's surface in order to remain above it. A creature such as the basilisk lizard, often dubbed the 'Jesus lizard', has a weight which is larger than the surface tension can sup rdf:langString
Le déplacement animal à la surface de l'eau est un mode de locomotion pratiqué par des animaux suffisamment petits (araignées d'eau) pour pouvoir rester en surface en s'appuyant sur la tension superficielle ou suffisamment rapides (basilics appelés « lézards Jésus-Christ ») pour produire une traînée hydrodynamique importante. rdf:langString
rdf:langString Animal locomotion on the water surface
rdf:langString Déplacement animal à la surface de l'eau
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rdf:langString Animal locomotion on the surface layer of water is the study of animal locomotion in the case of small animals that live on the surface layer of water, relying on surface tension to stay afloat. There are two types of animal locomotion on water, determined by the ratio of the animal's weight to the water's surface tension: those whose weight is supported by the surface tension at rest, and can therefore easily remain on the water's surface without much exertion, and those whose weight is not supported by the water's surface tension at rest, and must therefore exert additional motion in a direction parallel to the water's surface in order to remain above it. A creature such as the basilisk lizard, often dubbed the 'Jesus lizard', has a weight which is larger than the surface tension can support, and is widely known for running across the surface of water. Another example, the western grebe, performs a mating ritual that includes running across the surface of water. Surface living animals such as the water strider typically have hydrophobic feet covered in small hairs that prevent the feet from breaking the surface and becoming wet. Another insect known to walk on the water surface is the ant species Polyrhachis sokolova. The pygmy gecko (Coleodactylus amazonicus), due to its small size and hydrophobic skin, is also able to walk on the water surface. According to biophysicist , there are at least 342 species of water striders. As striders increase in size, their legs become proportionately longer, with Gigantometra gigas having a length of over 20 cm requiring a surface tension force of about 40 millinewtons. Water striders generate thrust by shedding vortices in the water: a series of "U"-shaped vortex filaments is created during the power stroke. The two free ends of the "U" are attached to the water surface. These vortices transfer enough (backward) momentum to the water to propel the animal forwards (note that some momentum is transferred by capillary waves; see Denny's paradox for a more detailed discussion.)
rdf:langString Le déplacement animal à la surface de l'eau est un mode de locomotion pratiqué par des animaux suffisamment petits (araignées d'eau) pour pouvoir rester en surface en s'appuyant sur la tension superficielle ou suffisamment rapides (basilics appelés « lézards Jésus-Christ ») pour produire une traînée hydrodynamique importante. L'homme peut aussi « marcher » sur l'eau, en courant à plus de 30m/s pour produire une traînée hydrodynamique suffisante, ou en marchand rapidement sur un bain de farine de maïs (ajout dans de l'eau de deux tiers de Maïzena), mélange qui donne une substance appelée fluide non-newtonien dont la viscosité varie en fonction de la contrainte mécanique appliquée (il se comporte comme un solide lorsqu'une violente pression est exercée dessus).
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