Humans have a remarkable ability to learn by watching others, whether learning to tie an elaborate knot or play the piano. However, the mechanisms that translate visual input into motor skill execution remain unclear. It has been proposed that common cognitive and neural mechanisms underpin learning motor skills by physical and observational practice. Here we provide a novel test of the common mechanism hypothesis by testing the extent to which certain individual differences predict observational as well as physical learning. Participants (N = 92 per group) either physically practiced a five-element key-press sequence or watched videos of similar sequences before physically performing trained and untrained sequences in a test phase. We also...
Fluid inteliigence has been defined as an innate ability to reason which is measured commonly by th...
Learning new skills by watching others is important for social and motor development throughout the ...
SummaryThe human brain contains specialized circuits for observing and understanding actions [1–3]. ...
Humans have a remarkable ability to learn by watching others, whether learning to tie an elaborate k...
Humans have a remarkable ability to learn by watching others, whether learning to tie an elaborate k...
SummaryLearning complex motor behaviors like riding a bicycle or swinging a golf club is based on ac...
Computerized working-memory training (WM), despite typically yielding large practice effects in the ...
The exploits of Martina Navratilova and Roger Federer represent the pinnacle of motor learning. Howe...
Human motor skills can be acquired by observation without the benefit of immediate physical practice...
Recent evidence suggests that neural representations of novel movement dynamics can be acquired by o...
Human motor skills can be acquired by observation without the benefit of immediate physical practice...
Learning a new motor skill typically requires converting actions observed from a third-person perspe...
Computerized working-memory training (WM), despite typically yielding large practice effects in the ...
Learning new skills by watching others is important for social and motor development throughout the ...
International audienceThere is evidence indicating that an individual can learn a motor skill by obs...
Fluid inteliigence has been defined as an innate ability to reason which is measured commonly by th...
Learning new skills by watching others is important for social and motor development throughout the ...
SummaryThe human brain contains specialized circuits for observing and understanding actions [1–3]. ...
Humans have a remarkable ability to learn by watching others, whether learning to tie an elaborate k...
Humans have a remarkable ability to learn by watching others, whether learning to tie an elaborate k...
SummaryLearning complex motor behaviors like riding a bicycle or swinging a golf club is based on ac...
Computerized working-memory training (WM), despite typically yielding large practice effects in the ...
The exploits of Martina Navratilova and Roger Federer represent the pinnacle of motor learning. Howe...
Human motor skills can be acquired by observation without the benefit of immediate physical practice...
Recent evidence suggests that neural representations of novel movement dynamics can be acquired by o...
Human motor skills can be acquired by observation without the benefit of immediate physical practice...
Learning a new motor skill typically requires converting actions observed from a third-person perspe...
Computerized working-memory training (WM), despite typically yielding large practice effects in the ...
Learning new skills by watching others is important for social and motor development throughout the ...
International audienceThere is evidence indicating that an individual can learn a motor skill by obs...
Fluid inteliigence has been defined as an innate ability to reason which is measured commonly by th...
Learning new skills by watching others is important for social and motor development throughout the ...
SummaryThe human brain contains specialized circuits for observing and understanding actions [1–3]. ...