about
Morphological and kinematic basis of the hummingbird flight stroke: scaling of flight muscle transmission ratioIntegrating brain, behavior, and phylogeny to understand the evolution of sensory systems in birdsThree-dimensional simulation for fast forward flight of a calliope hummingbirdHeat dissipation during hovering and forward flight in hummingbirds.Power reduction and the radial limit of stall delay in revolving wings of different aspect ratioLocomotion and the Cost of Hunting in Large, Stealthy Marine CarnivoresHummingbird wing efficacy depends on aspect ratio and compares with helicopter rotors.The aerodynamic signature of running spidersBeyond robins: aerodynamic analyses of animal flight.Neuromuscular control of wingbeat kinematics in Anna's hummingbirds (Calypte anna).Hovering performance of Anna's hummingbirds (Calypte anna) in ground effect.Three-dimensional flow and lift characteristics of a hovering ruby-throated hummingbird.Combined use of tri-axial accelerometers and GPS reveals the flexible foraging strategy of a bird in relation to weather conditionsMuscle function in avian flight: achieving power and control.Pigeons steer like helicopters and generate down- and upstroke lift during low speed turnsField Flight Dynamics of Hummingbirds during Territory Encroachment and Defense.On the Estimation of Time Dependent Lift of a European Starling (Sturnus vulgaris) during Flapping Flight.The wake of hovering flight in bats.Enhanced flight performance by genetic manipulation of wing shape in Drosophila.The role of the leading edge vortex in lift augmentation of steadily revolving wings: a change in perspective.Shape-Shifting Azo Dye Polymers: Towards Sunlight-Driven Molecular Devices.Limitations of rotational manoeuvrability in insects and hummingbirds: evaluating the effects of neuro-biomechanical delays and muscle mechanical power.Smart wing rotation and trailing-edge vortices enable high frequency mosquito flight.Evolution of avian flight: muscles and constraints on performance.A quantitative comparison of bird and bat wakes.Leading-edge vortex improves lift in slow-flying bats.Vortex wake, downwash distribution, aerodynamic performance and wingbeat kinematics in slow-flying pied flycatchers.Time-resolved vortex wake of a common swift flying over a range of flight speeds.Outperforming hummingbirds' load-lifting capability with a lightweight hummingbird-like flapping-wing mechanism.Hovering hummingbird wing aerodynamics during the annual cycle. I. Complete wing.Leading edge vortex in a slow-flying passerine.In vivo recording of aerodynamic force with an aerodynamic force platform: from drones to birds.Quantifying the dynamic wing morphing of hovering hummingbird.Visual Sensory Signals Dominate Tactile Cues during Docked Feeding in Hummingbirds.Design of polarization-dependent, flexural-torsional deformation in photo responsive liquid crystalline polymer networks.Mechanical power curve measured in the wake of pied flycatchers indicates modulation of parasite power across flight speeds.The power-speed relationship is U-shaped in two free-flying hawkmoths (Manducasexta).Hovering hummingbird wing aerodynamics during the annual cycle. II. Implications of wing feather moult.Applications of particle image velocimetry for seed release studies.Leading-edge vortices elevate lift of autorotating plant seeds.
P2860
Q24610435-E885D028-4D46-42F3-ACB6-A602DBB7B4E9Q26796246-8CABBFE4-D28D-4849-AF7C-C5B1CD1A7C7DQ27334084-49CC4824-C4C7-4430-B271-052F9A5BC037Q27334815-797E3BA3-6375-452C-9790-A4A1B38D12BDQ27342711-8C88A02C-7D33-48B0-B63E-069B851BD22BQ28081303-023C402E-42BC-4D7E-83FA-89C1523FC8A9Q28652123-C6BA4245-A0C6-4DF3-8F4F-2527F3C1E4D2Q28754796-DFCBD562-29E5-43D7-BB30-C09237ADA447Q30488469-7C7B0DA3-0290-45AE-B4DD-36FB669EC5C5Q30495138-CCBB09E4-BFCB-47E3-9B9B-986C230DF77DQ30598412-7260CED6-A9EF-449F-8269-D84F498FB9C7Q30598430-1280759D-1AEF-4DB9-B381-4DB1BF529B0FQ33772955-C7AE032F-DDB5-4B91-9975-4CED78A364DFQ35088605-B6F5ECF0-F14A-4242-B510-BEC1CF515377Q35647608-CC903B20-53E7-4495-BBE6-1381586CD102Q35651122-F9524135-2F8C-44A6-93FC-3A97326B514BQ35783600-2D81D675-F1F0-4108-BB78-808A2BA5A116Q35950032-4CF54D4D-05AB-4C4F-AE72-0A446E5F2758Q36637440-04080093-F4CB-4357-B81F-8FF0E3DD06B3Q38659411-A4201579-8F57-4975-BF54-4AC2E2AD5CD9Q38660199-F22ACC3A-E926-425D-A5D6-E26225C65178Q38692364-FA932A55-913D-4AA0-9D1B-1AD46A0B50B1Q38869166-1644BEA8-77F8-4787-BDEE-DA8063439290Q38928623-6A916A6A-D323-4199-9EFC-2098EE77DC2BQ39643112-825F821C-6C4C-4F15-AD1D-BA366379D648Q39836947-22F76FCF-C05D-4F19-B54B-6E73C3E103C7Q39932684-647CA525-7208-45D0-8600-473316F3F627Q39961533-91D0AA30-E33E-407E-A0CF-76ADF1915027Q40973874-02781802-36E1-4109-8B1D-5E0FDFA71417Q41580510-9793332B-470C-4CBF-8B98-463252A4FD3EQ41839355-C15C14AC-B06A-4B02-B790-D47CF0F16C84Q41994358-393432F4-2F95-4D4E-A215-75BA72DC0D60Q42173017-F3015FE6-530C-447F-8ABB-2094ACC4FED3Q46401849-7855FDE2-1889-4961-BEBB-E3B63F844237Q47603348-16F97AB3-A600-4D82-9952-158DB702A995Q48042737-8B3755C7-384D-47DA-865D-D413D93D5385Q48052943-22578533-E2CF-4B59-8A59-9CA087137096Q50532095-F255B7BB-D489-4173-AD3E-BFDA35D2D027Q51620225-5C692528-D5FC-44EE-8AD6-AD59C36AC659Q52697803-DA345D11-29DF-491C-863C-D2AB99B36F17
P2860
description
2005 nî lūn-bûn
@nan
2005 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Aerodynamics of the hovering hummingbird.
@ast
Aerodynamics of the hovering hummingbird.
@en
Aerodynamics of the hovering hummingbird.
@nl
type
label
Aerodynamics of the hovering hummingbird.
@ast
Aerodynamics of the hovering hummingbird.
@en
Aerodynamics of the hovering hummingbird.
@nl
prefLabel
Aerodynamics of the hovering hummingbird.
@ast
Aerodynamics of the hovering hummingbird.
@en
Aerodynamics of the hovering hummingbird.
@nl
P2093
P2860
P356
P1433
P1476
Aerodynamics of the hovering hummingbird.
@en
P2093
Bret W Tobalske
Donald R Powers
Douglas R Warrick
P2860
P2888
P304
P356
10.1038/NATURE03647
P407
P577
2005-06-01T00:00:00Z
P5875
P6179
1013111199