helper-T-cells
发表于 2025-3-27 00:01:46
Analysis of the Relation between Skin Morphology and Local Flow Conditions for a Fast-Swimming Dolph of the dolphin skin structure appears to be associated with the streamlined body geometry and corresponding gradients of the velocity and pressure rather than with specific local Re numbers. The hypotheses on different optimal conditions for potential drag-reducing properties of dolphin skin are proposed.
dictator
发表于 2025-3-27 01:44:09
Hydrodynamic Perception in Pinnipedsfeatures with natural hydrodynamic stimuli. Biomechanical studies of isolated vibrissae in a flow tank show different signal-to noise ratios for the two species that are consistent with their different performance in behavioral experiments, and can be explained by fluid-structure interactions.
纠缠,缠绕
发表于 2025-3-27 05:38:10
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佛刊
发表于 2025-3-27 13:12:30
Nature-Inspired Fluid Mechanics978-3-642-28302-4Series ISSN 1612-2909 Series E-ISSN 1860-0824
Confound
发表于 2025-3-27 15:34:22
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现晕光
发表于 2025-3-27 20:33:01
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标准
发表于 2025-3-28 01:31:58
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Headstrong
发表于 2025-3-28 04:17:56
Theoretical and Experimental Investigations of Amoeboid Movement and First Steps of Technical Realisiation of the contour of the amoeba with optical flow measurement techniques like particle image velocimetry (PIV) we found characteristic velocity fields and motions of the center of mass. Furthermore a peripheral cell model is developed, in which a contractile backward flow of actin-myosin in the
anaerobic
发表于 2025-3-28 08:36:59
Swimming at Low Reynolds Number: From Sheets to the African Trypanosomee implement and investigate three swimmer models, the Taylor sheet, a constanttorque swimmer, and a model for the African trypanosome. The first two swimmers are based on a semi-flexible sheet and the third is a full three-dimensional model. We simulate the viscous fluid environment of the swimmers
索赔
发表于 2025-3-28 12:20:01
African Trypanosomes as Model System for Functional Analyses of Microbial Motilityphenomenon in life science. Nature offers clever and inspiring strategies for self-propelling in an environment of no inertia. The flagellate African trypanosome, which causes African sleeping sickness, moves with help of a flagellum, which is firmly attached to its cell body. The beating flagellum