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Balance control in dance positions
The purpose of this thesis is to develop and understand dance balance characteristics on various kinds of dance, related positions and shoe types which contribute to dance performance and to understand different balance controls in various groups. The first study was conducted to examine balance int...
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| Format: | Default Thesis |
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2016
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| Online Access: | https://hdl.handle.net/2134/23054 |
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| _version_ | 1818171640678187008 |
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| author | Ravina |
| author_facet | Ravina |
| author_sort | Ravina (Eunhye) Huh (7238195) |
| collection | Figshare |
| description | The purpose of this thesis is to develop and understand dance balance characteristics on various kinds of dance, related positions and shoe types which contribute to dance performance and to understand different balance controls in various groups. The first study was conducted to examine balance into ballet 2nd position between Ballet shoes and Pointe shoes. Eight dancers performed five different conditions in ballet 2nd position (Ballet Flat, Ballet Demi, Pointe Flat, Pointe Demi, and Pointe Toe) and Centre of Pressure (COP) was used to assess balance. The second study was testing balance control and response to perturbations whilst standing on double leg stance dance positions using a moving platform. Four dance positions were performed by eight subjects (Normal Flat, Turnout Flat, Normal Demi and Turnout Demi) and the platform was moved in two different directions (Forward and Backward) at two different speeds (slow and fast). Kinetics, Kinematics and EMG data was taken from this study. The third study was taken to compare balance control and response to perturbations in single leg standing dance positions between eight dancers and eight gymnasts. The subjects performed static single leg balance in Normal Flat, Turnout Flat, Normal Demi and Turnout Demi. Also, perturbed stance trials were collected in anterior, posterior, right and left directions for two dance positions (Normal Flat and Turnout Flat) at two different speeds (slow and fast) on the moving platform. The results from the studies indicate that dancers move in Medial - Lateral direction more than in Anterior - Posterior direction on Demi-pointe and Toe standing by performing plantar flexion during ballet 2nd position. Demi-pointe position may cause longer delay of EMG latencies because CNS is probably sending information already to keep correcting balance on Demi-pointe. Dancers and Gymnasts have different balance controls due to their ways of training in their performance. Dancers generally reacted faster with slow perturbation in Turnout stance than Gymnasts because this is the particular condition which Dancers are training in. |
| format | Default Thesis |
| id | rr-article-9610178 |
| institution | Loughborough University |
| publishDate | 2016 |
| record_format | Figshare |
| spelling | rr-article-96101782016-01-01T00:00:00Z Balance control in dance positions Ravina (Eunhye) Huh (7238195) Other health sciences not elsewhere classified Dance balance Ballet EMG latencies Torque response time Foot positions Static balance Dynamic balance Moving platform Medical and Health Sciences not elsewhere classified The purpose of this thesis is to develop and understand dance balance characteristics on various kinds of dance, related positions and shoe types which contribute to dance performance and to understand different balance controls in various groups. The first study was conducted to examine balance into ballet 2nd position between Ballet shoes and Pointe shoes. Eight dancers performed five different conditions in ballet 2nd position (Ballet Flat, Ballet Demi, Pointe Flat, Pointe Demi, and Pointe Toe) and Centre of Pressure (COP) was used to assess balance. The second study was testing balance control and response to perturbations whilst standing on double leg stance dance positions using a moving platform. Four dance positions were performed by eight subjects (Normal Flat, Turnout Flat, Normal Demi and Turnout Demi) and the platform was moved in two different directions (Forward and Backward) at two different speeds (slow and fast). Kinetics, Kinematics and EMG data was taken from this study. The third study was taken to compare balance control and response to perturbations in single leg standing dance positions between eight dancers and eight gymnasts. The subjects performed static single leg balance in Normal Flat, Turnout Flat, Normal Demi and Turnout Demi. Also, perturbed stance trials were collected in anterior, posterior, right and left directions for two dance positions (Normal Flat and Turnout Flat) at two different speeds (slow and fast) on the moving platform. The results from the studies indicate that dancers move in Medial - Lateral direction more than in Anterior - Posterior direction on Demi-pointe and Toe standing by performing plantar flexion during ballet 2nd position. Demi-pointe position may cause longer delay of EMG latencies because CNS is probably sending information already to keep correcting balance on Demi-pointe. Dancers and Gymnasts have different balance controls due to their ways of training in their performance. Dancers generally reacted faster with slow perturbation in Turnout stance than Gymnasts because this is the particular condition which Dancers are training in. 2016-01-01T00:00:00Z Text Thesis 2134/23054 https://figshare.com/articles/thesis/Balance_control_in_dance_positions/9610178 CC BY-NC-ND 4.0 |
| spellingShingle | Other health sciences not elsewhere classified Dance balance Ballet EMG latencies Torque response time Foot positions Static balance Dynamic balance Moving platform Medical and Health Sciences not elsewhere classified Ravina Balance control in dance positions |
| title | Balance control in dance positions |
| title_full | Balance control in dance positions |
| title_fullStr | Balance control in dance positions |
| title_full_unstemmed | Balance control in dance positions |
| title_short | Balance control in dance positions |
| title_sort | balance control in dance positions |
| topic | Other health sciences not elsewhere classified Dance balance Ballet EMG latencies Torque response time Foot positions Static balance Dynamic balance Moving platform Medical and Health Sciences not elsewhere classified |
| url | https://hdl.handle.net/2134/23054 |