Take-off Flight of the Butterfly Colias erate Esper

スポンサーリンク

概要

• 論文の詳細を見る

• This paper describes the details of the movement of wings and body in take-off flight of a butterfly Colias erate Esper. The mechanism of lift generation in take-off flight of the butterfly is considered from the experimental view point. The butterfly generates a rising force even in the upstroke of wing flapping. The butterfly generates not only the vortex-wing interaction but also the lift force based on the usual blade-element theory.

• 日本実験力学会の論文

著者

• Shirai Atsushi

  Institute Of Fluid Science Tohoku University

• Hayase Toshiyuki

  Institute Of Fluid Science Tohoku University

• Sudo Seiichi

  Department of Machine Intelligence and Systems Engineering, Akita Prefectural University

• SUDO SEIICHI

  Department of Chemical Engineering, University of Tokyo

• KITADERA Kohei

  Graduate School of Systems Science and Technology, Akita Prefectural University

関連論文

• A Study on the Surface Shape of Fish Scales(Reviewed Papers Accepted for Publication in this Special Issue)(Special Issue on Bioengineering)
• A Study on the Wing Structure and Flapping Behavior of a Dragonfly
• Transit Characteristics of a Neutrophil Passing through Two Moderate Constrictions in a Cylindrical Capillary Vessel : Effect of Cell Deformation on Transit through the Second Constriction(Bioengineering)
• Transit Characteristics of a Neutrophil Passing Through a Circular Constriction in a Cylindrical Capillary Vessel : Effect of Mechanical Properties of the Cell and Constriction Geometry(Reviewed Papers Accepted for Publication in this Special Issue)(Speci
• 直動型ポペット弁回路の局所安定性(長い管路の場合)
• Brownian Motion Captured with a Self-Mixing Laser(SCHOOL OF INFORMATION TECHNOLOGY AND ELECTRONICS)
• Theoretical Consideration of Heat Flux Distribution of Arc Driven by AC Magnetic Field
• Numerical Study on Variation of Feedback Methods in Ultrasonic-Measurement-Integrated Simulation of Blood Flow in the Aneurysmal Aorta
• Two-Dimensional Computational Flow Analysis and Frictional Characteristics Model for Red Blood Cell under Inclined Centrifuge Microscopy(Bioengineering)
• Suppression of T-S Wave Using Wall Motion Actuator
• The Wing Apparatus and Flapping Behavior of Hymenoptera
• Dynamic Characteristics of Collapsible Tube Flow
• Dynamic Behavior of Dragonfly Wings
• Numerical Analysis of Transient Flow through a Pipe Orifice : Time Constant for Settling Flow
• Fundamental Study of Hybrid Wind Tunnel Integrating Numerical Simulation and Experiment in Analysis of Flow Field
• Fundamental Study of Aerodynamic Drag Reduction for Vehicle with Feedback Flow Control
• Axisymmetric Interfacial Oscillations of a Magnetic Liquid Column
• Local Stability of Direct-Acting Poppet Valve Circuit
• Magnetic Fluid Devices for Driving Micro Machines(Advanced Fusion of Functional Fluids Engineering)
• B22-033 A STUDY OF MICRO MOVING MECHANISM FOR MEDICAL APPLICATION
• Measurements of Dynamic Viscoelasticity of Poly (vinyl alcohol) Hydrogel for the Development of Blood Vessel Biomodeling
• Implementation of visual data mining for unsteady blood flow field in an aortic aneurysm
• Experimental Assessment on Gas/Liquid Transport Performance of Rotating Porous Disc
• Observations on the Springtail Leaping Organ and Jumping Mechanism Worked by a Spring
• The Kinematics of Jumping of Globular Springtail
• Analysis of Flow Characteristics of Turbulent Plane Jets Based on Velocity and Scalar Fields Using DNS
• The effect of volatile content of fuels on nitric oxide emission of fluidized bed combustor for carbonaceous materials.
• Numerical Experiment for Ultrasonic-Measurement-Integrated Simulation of Developed Laminar Pipe Flow Using Axisymmetric Model
• Preface
• Take-off Flight of the Butterfly Colias erate Esper

もっと見る 閉じる

スポンサーリンク