Virtual stick balancing: skill development in Newtonian and Aristotelian dynamics
Abstrak
Human reaction delay significantly limits manual control of unstable systems. It is more difficult to balance a short stick on a fingertip than a long one, because a shorter stick falls faster and therefore requires faster reactions. In this study, a virtual stick balancing environment was developed where the reaction delay can be artificially modulated and the law of motion can be changed between second-order (Newtonian) and first-order (Aristotelian) dynamics. Twenty-four subjects were separated into two groups and asked to perform virtual stick balancing programmed according to either Newtonian or Aristotelian dynamics. The shortest stick length (critical length, L c ) was determined for different added delays in six sessions of balancing trials performed on different days. The observed relation between L c and the overall reaction delay τ reflected the feature of the underlying mathematical models: (i) for the Newtonian dynamics L c is proportional to τ 2 ; (ii) for the Aristotelian dynamics L c is proportional to τ . Deviation of the measured L c ( τ ) function from the theoretical one was larger for the Newtonian dynamics for all sessions, which suggests that, at least in virtually controlled tasks, it is more difficult to adopt second-order dynamics than first-order dynamics.
Penulis (2)
Balazs A. Kovacs
Tamas Insperger
Akses Cepat
- Tahun Terbit
- 2022
- Bahasa
- en
- Total Sitasi
- 4×
- Sumber Database
- CrossRef
- DOI
- 10.1098/rsif.2021.0854
- Akses
- Open Access ✓