Directionally compensated mechanical work provided by the shoulder leads to similar racket velocities during open and square stance forehand groundstrokes in tennis
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| Deutscher übersetzter Titel: | Die richtungskompensierte mechanische Arbeit der Schulter führt während Tennis-Vorhandgrundschlägen in offener und seitlicher Schlagstellung zu ähnlichen Schlägergeschwindigkeiten |
|---|---|
| Autor: | Kawamoto, Yuta; Iino, Yoichi; Yoshioka, Shinsuke; Fukashiro, Senshi |
| Erschienen in: | European journal of sport science |
| Veröffentlicht: | 19 (2019), 7, S. 902-912, Lit. |
| Format: | Literatur (SPOLIT) |
| Publikationstyp: | Zeitschriftenartikel |
| Medienart: | Elektronische Ressource (online) Gedruckte Ressource |
| Sprache: | Englisch |
| ISSN: | 1746-1391, 1536-7290 |
| DOI: | 10.1080/17461391.2018.1552720 |
| Schlagworte: | |
| Online Zugang: | |
| Erfassungsnummer: | PU202002001147 |
| Quelle: | BISp |
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PU202002001147 |
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db |
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Literatur |
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2020-03-23T08:20:56Z |
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JO00000100401 |
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European journal of sport science |
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European journal of sport science, 2019, 7 |
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PU202002001147 |
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Directionally compensated mechanical work provided by the shoulder leads to similar racket velocities during open and square stance forehand groundstrokes in tennis |
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0902 |
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bisparticle |
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2019 |
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2019 |
| language |
eng |
| title |
Directionally compensated mechanical work provided by the shoulder leads to similar racket velocities during open and square stance forehand groundstrokes in tennis |
| spellingShingle |
Directionally compensated mechanical work provided by the shoulder leads to similar racket velocities during open and square stance forehand groundstrokes in tennis Analyse, biomechanische Armbewegung Beschleunigung Biomechanik Drehmoment Energie, mechanische Energieübertragung Flexion Fußstellung Gewichtsverlagerung Kinematik Kinetik Kompensation Oberkörper Rotation Schlagbewegung Schläger Schultergelenk Standtechnik Technik, sportliche Tennis Translation Untersuchung, vergleichende Vorhandschlag Winkelgeschwindigkeit |
| title_sort |
directionally compensated mechanical work provided by the shoulder leads to similar racket velocities during open and square stance forehand groundstrokes in tennis |
| title_short |
Directionally compensated mechanical work provided by the shoulder leads to similar racket velocities during open and square stance forehand groundstrokes in tennis |
| title_alt |
Die richtungskompensierte mechanische Arbeit der Schulter führt während Tennis-Vorhandgrundschlägen in offener und seitlicher Schlagstellung zu ähnlichen Schlägergeschwindigkeiten |
| title_alt_lang |
deu |
| media_type |
Elektronische Ressource (online) Gedruckte Ressource |
| city |
Abingdon |
| abstract |
The differences between the racket-arm acceleration mechanisms during open and square stance forehand groundstrokes in tennis were examined by quantifying the mechanical work done on the racket arm. We studied 13 advanced tennis players as they performed these strokes at maximum effort and calculated the work using inverse dynamics. The racket head speed was similar between the open and square stances. In the open stance, the lack of weight shifting towards the hitting direction resulted in a lower velocity for the shoulder joint centre in the hitting direction than in the square stance, and less work was done by the shoulder joint force in the hitting direction in the open stance than in the square stance (0.30 ± 0.11 J·kg-1 vs. 0.38 ± 0.16 J·kg-1; p = 0.005). However, in the open stance, the torso rotated more towards the hitting direction and had more upward acceleration, which resulted in more work done by the sideways and upward shoulder joint forces than in the square stance (sideways: 0.07 ± 0.09 J·kg-1 vs. 0.05 ± 0.09 J·kg-1, p = 0.046; upward: 0.08 ± 0.09 J·kg-1 vs. 0.04 ± 0.07 J·kg-1, p = 0.002). Thus, the greater work done by the sideways and upward shoulder joint forces compensated for the lesser work done by the shoulder joint force in the hitting direction in the open stance. In both stances, mainly the horizontal flexion torque and internal rotation torque at the shoulder increased the energy of the racket arm. |
| abstract_lang |
eng |
| abstract_type |
author |
| author2 |
Kawamoto, Yuta Iino, Yoichi Yoshioka, Shinsuke Fukashiro, Senshi |
| author_facet |
Kawamoto, Yuta Iino, Yoichi Yoshioka, Shinsuke Fukashiro, Senshi |
| author2-role |
Autor Autor Autor Autor |
| author2-authorityid |
|
| author_author_facet |
Kawamoto, Yuta Iino, Yoichi Yoshioka, Shinsuke Fukashiro, Senshi |
| author2-synonym |
|
| author2_hierarchy_facet |
0/Autor/ 1/Autor/Kawamoto, Yuta/ 0/Autor/ 1/Autor/Iino, Yoichi/ 0/Autor/ 1/Autor/Yoshioka, Shinsuke/ 0/Autor/ 1/Autor/Fukashiro, Senshi/ |
| doi |
10.1080/17461391.2018.1552720 |
| spelling |
10.1080/17461391.2018.1552720 1746-1391 1536-7290 2190842-4 Analyse, biomechanische Armbewegung Beschleunigung Biomechanik Drehmoment Energie, mechanische Energieübertragung Flexion Fußstellung Gewichtsverlagerung Kinematik Kinetik Kompensation Oberkörper Rotation Schlagbewegung Schläger Schultergelenk Standtechnik Technik, sportliche Tennis Translation Untersuchung, vergleichende Vorhandschlag Winkelgeschwindigkeit acceleration angular velocity arm movement biomechanical analysis biomechanics comparative study compensation energy transfer flexion foot position forehand stroke hitting movement kinematics kinetics mechanical energy racket (BADMI; RACQT; SQASH; TENNS) rotation shoulder joint sport technique standing technique (JUDO) tennis torque translation (BIOME) upper body weight shift Tennisspiel Tennisspieler Passierschlag Rollstuhltennis Tennisnetz Tennisschläger Tenniskleidung Squashschläger Beschleunigungsphase Beschleunigungsverhalten Beschleunigungsprozess Armeinsatz Armführung Armschwung Vorhand Vorhandgriff Vorhandspiel Drehung Körperdrehung Beugung Ausgleich Biokinetik Bewegung, physikalische Merkmal, biomechanisches Biokinematik Prinzip, biomechanisches Analyse, methodische Aufzeichnung, biomechanische Untersuchung, biomechanische Bewegungstechnik Fertigkeit, technische Technik, spezielle Technik, spezifische Technik, sportartspezifische Gewichthilfe Vergleich stick (FHOCK; IHOCK) paddle (TATEN) bat (BASEB; CRICK; SOFTB) forehand shot motive torque moment of rotation moment of force rotary momentum weighting (SKIDH) displacement of weight (EQUES) stroke movement shooting movement punching movement blow movement beating movement comparative investigation Directionally compensated mechanical work provided by the shoulder leads to similar racket velocities during open and square stance forehand groundstrokes in tennis PU202002001147 202002001147 |
| url |
https://dx.doi.org/10.1080/17461391.2018.1552720 |
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fulltext |
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0 |
| issn |
1746-1391 1536-7290 |
| zdb |
2190842-4 |
| location_hierarchy_facet |
0/Großbritannien/ 1/Großbritannien/England/ 0/Großbritannien/ 1/Großbritannien/England/ 0/Großbritannien/ 1/Großbritannien/England/ 0/Großbritannien/ 1/Großbritannien/England/ 0/Großbritannien/ 1/Großbritannien/England/ |
| topic |
Analyse, biomechanische Armbewegung Beschleunigung Biomechanik Drehmoment Energie, mechanische Energieübertragung Flexion Fußstellung Gewichtsverlagerung Kinematik Kinetik Kompensation Oberkörper Rotation Schlagbewegung Schläger Schultergelenk Standtechnik Technik, sportliche Tennis Translation Untersuchung, vergleichende Vorhandschlag Winkelgeschwindigkeit |
| topic_facet |
Analyse, biomechanische Armbewegung Beschleunigung Biomechanik Drehmoment Energie, mechanische Energieübertragung Flexion Fußstellung Gewichtsverlagerung Kinematik Kinetik Kompensation Oberkörper Rotation Schlagbewegung Schläger Schultergelenk Standtechnik Technik, sportliche Tennis Translation Untersuchung, vergleichende Vorhandschlag Winkelgeschwindigkeit |
| topic_en |
acceleration angular velocity arm movement biomechanical analysis biomechanics comparative study compensation energy transfer flexion foot position forehand stroke hitting movement kinematics kinetics mechanical energy racket (BADMI; RACQT; SQASH; TENNS) rotation shoulder joint sport technique standing technique (JUDO) tennis torque translation (BIOME) upper body weight shift |
| topic_en_facet |
acceleration angular velocity arm movement biomechanical analysis biomechanics comparative study compensation energy transfer flexion foot position forehand stroke hitting movement kinematics kinetics mechanical energy racket (BADMI; RACQT; SQASH; TENNS) rotation shoulder joint sport technique standing technique (JUDO) tennis torque translation (BIOME) upper body weight shift |
| synonym |
Tennisspiel Tennisspieler Passierschlag Rollstuhltennis Tennisnetz Tennisschläger Tenniskleidung Squashschläger Beschleunigungsphase Beschleunigungsverhalten Beschleunigungsprozess Armeinsatz Armführung Armschwung Vorhand Vorhandgriff Vorhandspiel Drehung Körperdrehung Beugung Ausgleich Biokinetik Bewegung, physikalische Merkmal, biomechanisches Biokinematik Prinzip, biomechanisches Analyse, methodische Aufzeichnung, biomechanische Untersuchung, biomechanische Bewegungstechnik Fertigkeit, technische Technik, spezielle Technik, spezifische Technik, sportartspezifische Gewichthilfe Vergleich |
| synonym_en |
stick (FHOCK; IHOCK) paddle (TATEN) bat (BASEB; CRICK; SOFTB) forehand shot motive torque moment of rotation moment of force rotary momentum weighting (SKIDH) displacement of weight (EQUES) stroke movement shooting movement punching movement blow movement beating movement comparative investigation |
| journal_facet |
European journal of sport science |
| container_title |
European journal of sport science |
| container_volume |
19 |
| container_issue |
7 |
| container_start_page |
S. 902-912 |
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1 |
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BISp |
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JO00000100401 |
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2019 |
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7 |
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1791509373463298048 |
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13,546012 |