james usherwood
james usherwood
Structure and Motion Lab., The Royal Veterinary College
Verified email at - Homepage
Cited by
Cited by
The aerodynamics of revolving wings I. Model hawkmoth wings
JR Usherwood, CP Ellington
Journal of Experimental biology 205 (11), 1547-1564, 2002
Upwash exploitation and downwash avoidance by flap phasing in ibis formation flight
SJ Portugal, TY Hubel, J Fritz, S Heese, D Trobe, B Voelkl, S Hailes, ...
Nature 505 (7483), 399-402, 2014
The aerodynamics of revolving wings II. Propeller force coefficients from mayfly to quail
JR Usherwood, CP Ellington
Journal of Experimental Biology 205 (11), 1565-1576, 2002
Running over rough terrain: guinea fowl maintain dynamic stability despite a large unexpected change in substrate height
MA Daley, JR Usherwood, G Felix, AA Biewener
Journal of experimental biology 209 (1), 171-187, 2006
Phasing of dragonfly wings can improve aerodynamic efficiency by removing swirl
JR Usherwood, FO Lehmann
Journal of The Royal Society Interface 5 (28), 1303-1307, 2008
Flying in a flock comes at a cost in pigeons
JR Usherwood, M Stavrou, JC Lowe, K Roskilly, AM Wilson
Nature 474 (7352), 494-497, 2011
Wing inertia and whole-body acceleration: an analysis of instantaneous aerodynamic force production in cockatiels (Nymphicus hollandicus)flying across a range …
TL Hedrick, JR Usherwood, AA Biewener
Journal of Experimental Biology 207 (10), 1689-1702, 2004
Matching times of leading and following suggest cooperation through direct reciprocity during V-formation flight in ibis
B Voelkl, SJ Portugal, M Unsöld, JR Usherwood, AM Wilson, J Fritz
Proceedings of the National Academy of Sciences 112 (7), 2115-2120, 2015
No force limit on greyhound sprint speed
JR Usherwood, AM Wilson
Nature 438 (7069), 753-754, 2005
Mechanical and anatomical adaptations in terrestrial and aquatic buttercups to their respective environments
JR Usherwood, AR Ennos, DJ Ball
Journal of Experimental Botany 48 (7), 1469-1475, 1997
Two explanations for the compliant running paradox: reduced work of bouncing viscera and increased stability in uneven terrain
MA Daley, JR Usherwood
Biology letters 6 (3), 418-421, 2010
Understanding brachiation: insight from a collisional perspective
JR Usherwood, JEA Bertram
Journal of Experimental Biology 206 (10), 1631-1642, 2003
High aerodynamic lift from the tail reduces drag in gliding raptors
JR Usherwood, JA Cheney, J Song, SP Windsor, JPJ Stevenson, ...
Journal of experimental biology 223 (3), jeb214809, 2020
Dynamic pressure maps for wings and tails of pigeons in slow, flapping flight, and their energetic implications
JR Usherwood, TL Hedrick, CP McGowan, AA Biewener
Journal of experimental biology 208 (2), 355-369, 2005
The aerodynamic forces and pressure distribution of a revolving pigeon wing
JR Usherwood
Experiments in fluids 46, 991-1003, 2009
The human foot and heel–sole–toe walking strategy: a mechanism enabling an inverted pendular gait with low isometric muscle force?
JR Usherwood, AJ Channon, JP Myatt, JW Rankin, TY Hubel
Journal of The Royal Society Interface 9 (75), 2396-2402, 2012
Accounting for elite indoor 200 m sprint results
JR Usherwood, AM Wilson
Biology Letters 2 (1), 47-50, 2006
Pitch then power: limitations to acceleration in quadrupeds
SB Williams, H Tan, JR Usherwood, AM Wilson
Biology letters 5 (5), 610-613, 2009
Exploring the mechanical basis for acceleration: pelvic limb locomotor function during accelerations in racing greyhounds (Canis familiaris)
SB Williams, JR Usherwood, K Jespers, AJ Channon, AM Wilson
Journal of Experimental Biology 212 (4), 550-565, 2009
Why not walk faster?
JR Usherwood
Biology letters 1 (3), 338-341, 2005
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