Alexandra Stroescu - Academia.edu (original) (raw)
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Acrobatics is the oldest gymnastic activity and the balance beam apparatus, with its structure, i... more Acrobatics is the oldest gymnastic activity and the balance beam apparatus, with its structure, is part of it. For a very high level of preparation in women's balance beam, it is compulsory for them to have morphofunctional integrity of the musculoskeletal system, good joint mobility and muscle elasticity, and very good neuromuscular coordination. The element "Free (aerial) forward walkover, landing on one foot" (Forward Danilova) on balance beam is a dynamic acrobatic element classified in salto group, which is found in most integral exercises to the balance beam and/or floor exercise and can be presented in many forms. The biomechanical reason is that the gymnast can perform the elements in easier conditions. Thorough analysis of the biomechanical data allows outlining more detailed conclusions, such as those related to the kinematic and dynamic errors which lead to and cause other errors. Through these examples, we want to highlight the usefulness of kinematic biomechanical analysis, which covers both analytical interpretation for finding the errors and analytical mode to direct the gymnast, what to do to do it right.
Acrobatics is the oldest gymnastic activity and the balance beam apparatus, with its structure, i... more Acrobatics is the oldest gymnastic activity and the balance beam apparatus, with its structure, is part of it. For a very high level of preparation in women's balance beam, it is compulsory for them to have morphofunctional integrity of the musculoskeletal system, good joint mobility and muscle elasticity, and very good neuromuscular coordination. The element "Free (aerial) forward walkover, landing on one foot" (Forward Danilova) on balance beam is a dynamic acrobatic element classified in salto group, which is found in most integral exercises to the balance beam and/or floor exercise and can be presented in many forms. The biomechanical reason is that the gymnast can perform the elements in easier conditions. Thorough analysis of the biomechanical data allows outlining more detailed conclusions, such as those related to the kinematic and dynamic errors which lead to and cause other errors. Through these examples, we want to highlight the usefulness of kinematic biomechanical analysis, which covers both analytical interpretation for finding the errors and analytical mode to direct the gymnast, what to do to do it right.