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  1. Storing information in-the-world: Metacognition and cognitive offloading in a short-term memory task.Evan F. Risko & Timothy L. Dunn - 2015 - Consciousness and Cognition 36:61-74.
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  • Embodied cognition.A. Wilson Robert & Foglia Lucia - 2011 - Stanford Encyclopedia of Philosophy.
    Cognition is embodied when it is deeply dependent upon features of the physical body of an agent, that is, when aspects of the agent's body beyond the brain play a significant causal or physically constitutive role in cognitive processing. In general, dominant views in the philosophy of mind and cognitive science have considered the body as peripheral to understanding the nature of mind and cognition. Proponents of embodied cognitive science view this as a serious mistake. Sometimes the nature of the (...)
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  • The Education of Perception.Robert L. Goldstone, David H. Landy & Ji Y. Son - 2010 - Topics in Cognitive Science 2 (2):265-284.
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  • Rotating With Rotated Text: A Natural Behavior Approach to Investigating Cognitive Offloading.Evan F. Risko, Srdan Medimorec, Joseph Chisholm & Alan Kingstone - 2014 - Cognitive Science 38 (3):537-564.
    Determining how we use our body to support cognition represents an important part of understanding the embodied and embedded nature of cognition. In the present investigation, we pursue this question in the context of a common perceptual task. Specifically, we report a series of experiments investigating head tilt (i.e., external normalization) as a strategy in letter naming and reading stimuli that are upright or rotated. We demonstrate that the frequency of this natural behavior is modulated by the cost of stimulus (...)
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  • Recombinant Enaction: Manipulatives Generate New Procedures in the Imagination, by Extending and Recombining Action Spaces.Jeenath Rahaman, Harshit Agrawal, Nisheeth Srivastava & Sanjay Chandrasekharan - 2018 - Cognitive Science 42 (2):370-415.
    Manipulation of physical models such as tangrams and tiles is a popular approach to teaching early mathematics concepts. This pedagogical approach is extended by new computational media, where mathematical entities such as equations and vectors can be virtually manipulated. The cognitive and neural mechanisms supporting such manipulation-based learning—particularly how actions generate new internal structures that support problem-solving—are not understood. We develop a model of the way manipulations generate internal traces embedding actions, and how these action-traces recombine during problem-solving. This model (...)
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  • Tinkering With Testing: Understanding How Museum Program Design Advances Engineering Learning Opportunities for Children.Maria Marcus, Diana I. Acosta, Pirko Tõugu, David H. Uttal & Catherine A. Haden - 2021 - Frontiers in Psychology 12.
    Using a design-based research approach, we studied ways to advance opportunities for children and families to engage in engineering design practices in an informal educational setting. 213 families with 5–11-year-old children were observed as they visited a tinkering exhibit at a children’s museum during one of three iterations of a program posing an engineering design challenge. Children’s narrative reflections about their experience were recorded immediately after tinkering. Across iterations of the program, changes to the exhibit design and facilitation provided by (...)
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  • The cost of concreteness: The effect of nonessential information on analogical transfer.Jennifer A. Kaminski, Vladimir M. Sloutsky & Andrew F. Heckler - 2013 - Journal of Experimental Psychology: Applied 19 (1):14.
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  • Building to Discover: A Common Coding Model.Sanjay Chandrasekharan - 2009 - Cognitive Science 33 (6):1059-1086.
    I present a case study of scientific discovery, where building two functional and behavioral approximations of neurons, one physical and the other computational, led to conceptual and implementation breakthroughs in a neural engineering laboratory. Such building of external systems that mimic target phenomena, and the use of these external systems to generate novel concepts and control structures, is a standard strategy in the new engineering sciences. I develop a model of the cognitive mechanism that connects such built external systems with (...)
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  • Toward a Metacognitive Account of Cognitive Offloading.Timothy L. Dunn & Evan F. Risko - 2016 - Cognitive Science 40 (5):1080-1127.
    Individuals frequently make use of the body and environment when engaged in a cognitive task. For example, individuals will often spontaneously physically rotate when faced with rotated objects, such as an array of words, to putatively offload the performance costs associated with stimulus rotation. We looked to further examine this idea by independently manipulating the costs associated with both word rotation and array frame rotation. Surprisingly, we found that individuals’ patterns of spontaneous physical rotations did not follow patterns of performance (...)
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  • Arranging Objects in Space: Measuring Task‐Relevant Organizational Behaviors During Goal Pursuit.Grayden J. F. Solman & Alan Kingstone - 2017 - Cognitive Science 41 (4):1042-1070.
    Human behavior unfolds primarily in built environments, where the arrangement of objects is a result of ongoing human decisions and actions, yet these organizational decisions have received limited experimental study. In two experiments, we introduce a novel paradigm designed to explore how individuals organize task-relevant objects in space. Participants completed goals by locating and accessing sequences of objects in a computer-based task, and they were free to rearrange the positions of objects at any time. We measure a variety of organization (...)
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