about
Effect of chainring ovality on joint power during cycling at different workloads and cadencesThe mechanics of American football cleats on natural grass and infill-type artificial playing surfaces with loads relevant to elite athletes.The mechanical interactions between an American football cleat and playing surfaces in-situ at loads and rates generated by elite athletes: a comparison of playing surfaces.Effects of target distance on select biomechanical parameters in taekwondo roundhouse kick.Using micro-sensor data to quantify macro kinematics of classical cross-country skiing during on-snow training.Functional data analysis of knee joint kinematics in the vertical jump.Functional data analysis of joint coordination in the development of vertical jump performance.A regression model to determine load for maximum power output.A computational method for analysis of underwater dolphin kick hydrodynamics in human swimming.Effect of a Fast-skin 'body' suit on drag during front crawl swimming.Identifying the optimal resistive load for complex training in male rugby players.Training principles: evaluation of modes and methods of resistance training--a coaching perspective.Cadence and exercise: physiological and biomechanical determinants of optimal cadences--practical applications.Do Golgi tendon organs really inhibit muscle activity at high force levels to save muscles from injury, and adapt with strength training?Re-examination of the possible role of Golgi tendon organ and muscle spindle reflexes in proprioceptive neuromuscular facilitation muscle stretching.Effects of light refraction on the accuracy of camera calibration and reconstruction in underwater motion analysis.Biomechanical research in artistic gymnastics: a review.Techniques and considerations for determining isoinertial upper-body power.Laboratory versus field testing in cricket bowling: a review of current and past practice in modelling techniques.Is movement variability important for sports biomechanists?Biomechanics of Tai Chi: a review.Biomechanics research in ski jumping, 1991-2006.Can fast-twitch muscle fibres be selectively recruited during lengthening contractions? Review and applications to sport movements.Force-velocity property of leg muscles in individuals of different level of physical fitness.Significant and meaningful effects in sports biomechanics research.Determinants of kayak paddling performance.Hydrodynamics of undulatory underwater swimming: a review.Mechanics of pole vaulting: a review.Use of deterministic models in sports and exercise biomechanics research.Paralympic sport: an emerging area for research and consultancy in sports biomechanics.Common errors in textbook descriptions of muscle fiber size in nontrained humans.Enhancing cricket batting skill: implications for biomechanics and skill acquisition research and practice.Biomechanics and visual-motor control: how it has, is, and will be used to reveal the secrets of hitting a cricket ball.Review of tennis serve motion analysis and the biomechanics of three serve types with implications for injury.Movement variability in the golf swing.Evidence for biomechanics and motor learning research improving golf performance.Are current coaching recommendations for cricket batting technique supported by biomechanical research?Biomechanical approaches to identify and quantify injury mechanisms and risk factors in women's artistic gymnastics.An observational model for biomechanical assessment of sprint kayaking technique.Movement variability and skills monitoring in sports.
P1433
Q28245928-18DFBA3F-9A8A-47C4-8AEE-0CBC618137ECQ30279105-88844C4E-BAA6-4523-B395-AB4BFD4334FFQ30300147-660DA0B5-7179-479C-8E24-00C8757F4491Q30560512-3A53B05A-7CCA-454E-80AB-5A656FC29C43Q31024297-15F06610-AA28-4E3F-ADA4-53CD763F9DA7Q31033795-ADFDB7E4-754D-4D0B-B253-F4925D90FA2AQ33300120-90CC72F4-7C59-4970-846E-4AE3A0318586Q33381310-2CDCB465-CB74-4F6E-8724-3FAC09CE9472Q33434656-6BB288C8-DE19-49FE-98C2-39FD15FA0A80Q34281461-2FF5BCAD-275B-4865-9F35-E6266257CA89Q34633396-0FCAC594-EEE5-49EE-A803-8896D58F3CBFQ35601288-82D0555E-BA18-47F1-87B7-5BA395E19B84Q35601316-710B0FDF-209E-47A9-AAC2-6D6B769F284DQ35601326-098581B4-5A96-49D8-B835-A92B82F6C8B7Q35744155-06D39184-94E7-453A-9BB7-555A90866C0EQ36415572-A0C5C80D-D6A9-4C67-AB3E-3CEBA59E558CQ36580513-4C63816D-8DC3-4D1F-B1BE-0DCB5FF862F0Q36580519-0F4302CC-01C8-4605-9E54-EB812CBE2111Q36836884-8BBA9262-6AF3-46A5-9212-72BD24E926CAQ36950217-350B5A41-DC9A-4C2E-9730-0A8CD0397727Q36969350-5588BEF3-5DD5-4198-9E1C-882AD65657E7Q37110090-F4B6EFAB-D8EF-4E8E-9CAE-65CABF9A0A73Q37110093-C138A5F5-4DDC-4AED-9ED3-9C4E490B1011Q37179479-1384ECE7-4E29-4246-8026-7155C397AEFBQ37458749-E3CE158D-912C-4192-B70E-FBF33D1D6273Q37586432-1778C027-7982-4D57-8743-58619060ED12Q37695221-6D750558-FB21-4CCE-9657-C7881996B990Q37784197-B5A57353-FD71-433C-8274-681802AD4985Q37936400-0FC2E9F6-34A1-424E-89C4-CDECAF6C5CC7Q37936401-0DA4D1FB-0C5E-4F6C-9742-C8DD2ABF0453Q37936403-A3A42949-C4D9-4608-899C-A7132A5FDB7AQ37981202-F3CDEE9E-A726-40CE-B934-79AD709E1A98Q37981203-213BBD35-829F-4990-9E58-E8AA8DBDEAF0Q37981204-251C6B04-7836-4B37-AF31-F7EAA4C28D38Q38035329-1ED27F55-54F1-42A3-A888-473DA762BB0BQ38035330-FBCCBA4B-E941-4A1A-A263-8FE872121574Q38052560-0B7450EE-CD60-4E04-9B78-CAB68CBDCF3BQ38052563-A149DAC5-379A-4E39-BC1F-B2948FF20C11Q38069169-360AE1A3-F316-47F5-AC2B-EF745D7C463BQ38125208-96C3A056-D7D2-445D-85CC-6C01FD86F4DA
P1433
description
journal
@en
revista científica
@es
rivista scientifica
@it
vědecký časopis
@cs
wetenschappelijk tijdschrift van Taylor & Francis
@nl
wissenschaftliche Fachzeitschrift
@de
مجلة
@ar
name
Sports Biomechanics
@ast
Sports Biomechanics
@da
Sports Biomechanics
@en
Sports Biomechanics
@es
Sports Biomechanics
@fi
Sports Biomechanics
@fr
Sports Biomechanics
@it
Sports Biomechanics
@nb
Sports Biomechanics
@nl
Sports Biomechanics
@nn
type
label
Sports Biomechanics
@ast
Sports Biomechanics
@da
Sports Biomechanics
@en
Sports Biomechanics
@es
Sports Biomechanics
@fi
Sports Biomechanics
@fr
Sports Biomechanics
@it
Sports Biomechanics
@nb
Sports Biomechanics
@nl
Sports Biomechanics
@nn
prefLabel
Sports Biomechanics
@ast
Sports Biomechanics
@da
Sports Biomechanics
@en
Sports Biomechanics
@es
Sports Biomechanics
@fi
Sports Biomechanics
@fr
Sports Biomechanics
@it
Sports Biomechanics
@nb
Sports Biomechanics
@nl
Sports Biomechanics
@nn
P3181
P1055
P1156
P123
P1250
P1277
P1476
Sport Biomechanics
@und