Fabian Tatai scite author profile

While interacting with objects during every-day activities, e.g. when sliding a glass on a counter top, people obtain constant feedback whether they are acting in accordance with physical laws. However, classical research on intuitive physics has revealed that people’s judgements systematically deviate from predictions of Newtonian physics. Recent research has explained at least some of these deviations not as consequence of misconceptions about physics but instead as the consequence of the probabilistic interaction between inevitable perceptual uncertainties and prior beliefs. How intuitive physical reasoning relates to visuomotor actions is much less known. Here, we present an experiment in which participants had to slide pucks under the influence of naturalistic friction in a simulated virtual environment. The puck was controlled by the duration of a button press, which needed to be scaled linearly with the puck’s mass and with the square-root of initial distance to reach a target. Over four phases of the experiment, uncertainties were manipulated by altering the availability of sensory feedback and providing different degrees of knowledge about the physical properties of pucks. A hierarchical Bayesian model of the visuomotor interaction task incorporating perceptual uncertainty and press-time variability found substantial evidence that subjects adjusted their button-presses so that the sliding was in accordance with Newtonian physics. After observing collisions between pucks, which were analyzed with a hierarchical Bayesian model of the perceptual observation task, subjects transferred the relative masses inferred perceptually to adjust subsequent sliding actions. Crucial in the modeling was the inclusion of a cost function, which quantitatively captures participants’ implicit sensitivity to errors due to their motor variability. Taken together, in the present experiment we find evidence that our participants transferred their intuitive physical reasoning to a subsequent visuomotor control task consistent with Newtonian physics and weighed potential outcomes with a cost functions based on their knowledge about their own variability.

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Intuitive physical reasoning about objects’ masses transfers to a visuomotor decision task consistent with Newtonian physics

Neupaertl

Tatai

Rothkopf

2020

Preprint

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While interacting with objects during every-day activities, e.g. when sliding a glass on a counter top, people obtain constant feedback whether they are acting in accordance with physical laws. However, classical research on intuitive physics has revealed that people's judgements systematically deviate from predictions of Newtonian physics. Recent research has explained these deviations not as consequence of misconceptions about physics but instead as the consequence of the probabilistic interaction between inevitable perceptual uncertainties and prior beliefs. How intuitive physical reasoning relates to visuomotor actions is much less known. Here, we present an experiment in which participants had to slide pucks under the influence of naturalistic friction in a simulated virtual environment. The puck was controlled by the duration of a button press, which needed to be scaled linearly with the puck's mass and with the square-root of initial distance to reach a target. Over four phases of the experiment, uncertainties were manipulated by altering the availability of sensory feedback and providing different degrees of knowledge about the physical properties of pucks. A hierarchical Bayesian model of the visuomotor sliding task incorporating perceptual uncertainty and press-time variability found substantial evidence that subjects adjusted their button-presses so that the sliding was in accordance with Newtonian physics. After observing collisions between pucks, subjects transferred the relative masses inferred perceptually to adjust subsequent sliding actions. Crucial in the modeling was the inclusion of a cost function, which quantitatively captures participants' implicit sensitivity to errors due to their motor variability. Taken together, in the present experiment we find evidence that our participants transferred their intuitive physical reasoning to a subsequent visuomotor control task in accordance with Newtonian physics and weigh potential outcomes with cost functions based on their knowledge about their own variability. Author summaryDuring our daily lives we interact with objects around us governed by Newtonian 1 physics. While people are known to show multiple systematic errors when reasoning 2 about Newtonian physics, recent research has provided evidence that this is the 3 February 10, 2020 1/32 consequence of perceptual uncertainties and partial knowledge about object properties. 4Here, we carried out an experiment to investigate whether people transfer their intuitive 5 physical reasoning to how they interact with objects. Using a simulated virtual 6 environment in which participants had to slide different pucks into a target region by 7 the length of a button press, we found evidence that they could do so in accordance 8 with the underlying physical laws. Moreover, our participants watched movies of 9 colliding pucks and subsequently transferred their beliefs about the relative masses of 10 the observed pucks to the sliding task. Remarkably, this transfer was consistent with 11 Newtonian physics and ...

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Naturalistic embodied interactions elicit intuitive physical behaviour in accordance with Newtonian physics

Neupärtl

Tatai

Rothkopf

2021

Cognitive Neuropsychology

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Fabian Tatai

Intuitive physical reasoning about objects’ masses transfers to a visuomotor decision task consistent with Newtonian physics

Intuitive physical reasoning about objects’ masses transfers to a visuomotor decision task consistent with Newtonian physics

Naturalistic embodied interactions elicit intuitive physical behaviour in accordance with Newtonian physics

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