Miriam Chang Yi Lee scite author profile

Learning a sports skill is a complex process in which practitioners are challenged to cater for individual differences. The main purpose of this study was to explore the effectiveness of a Nonlinear Pedagogy approach for learning a sports skill. Twenty-four 10-year-old females participated in a 4-week intervention involving either a Nonlinear Pedagogy (i.e.,manipulation of task constraints including equipment and rules) or a Linear Pedagogy (i.e., prescriptive, repetitive drills) approach to learn a tennis forehand stroke. Performance accuracy scores, movement criterion scores and kinematic data were measured during pre-intervention, post-intervention and retention tests. While both groups showed improvements in performance accuracy scores over time, the Nonlinear Pedagogy group displayed a greater number of movement clusters at post-test indicating the presence of degeneracy (i.e., many ways to achieve the same outcome). The results suggest that degeneracy is effective for learning a sports skill facilitated by a Nonlinear Pedagogy approach. These findings challenge the common misconception that there must be only one ideal movement solution for a task and thus have implications for coaches and educators when designing instructions for skill acquisition.

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SNAREs support atlastin-mediated homotypic ER fusion in Saccharomyces cerevisiae

Lee

Moon

et al. 2015

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A dynamical system perspective to understanding badminton singles game play

Chow

Seifert

Hérault

et al. 2014

Human Movement Science

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Nonlinear Pedagogy and its role in encouraging twenty-first century competencies through physical education: a Singapore experience

Lee

Chow

Button

et al. 2017

Asia Pacific Journal of Education

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Possibilities and implications of using a motion-tracking system in physical education

Chow

Tan

Lee

et al. 2014

European Physical Education Review

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Advances in technology have created new opportunities for enhanced delivery of teaching to improve the acquisition of game skills in physical education (PE). The availability of a motion-tracking system (i.e. the A-Eye), which determines positional information of students in a practice context, might offer a suitable technology to support pedagogical approaches in the teaching of movement skills in game situations. This paper explores the possibility and potential of using this technology to augment pedagogical practices in PE. Using examples from its implementation in sports science investigations and pilot work in a Singapore school, we discuss how such motion-tracking systems can be incorporated in schools, assisting practitioners in refining pedagogical practices. The implications of its wider use in a PE context will also be discussed.

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