Abstract

Much of what we know could only have been learned from other people. For children to be able to take advantage of their culture's accumulated knowledge and expertise, they must be receptive to what people tell them, sometimes even when that information conflicts with their own expectations. And yet, children should not be entirely credulous: Due to error, ignorance, or deception, people sometimes say things that are false. The purpose this application, which is part of a larger program of research on how children make use of different sources of information to learn about the world, is to examine very young children's willingness to revise an erroneous belief about a physical event on the basis of what someone tells them.
The specific aims of this application are (1) to determine the circumstances under which testimony can influence children's mistaken beliefs about the physical world, and (2) to compare children's willingness to revise their beliefs after hearing about an unexpected physical event with their willingness to do so after witnessing it themselves. In the six proposed studies, an experimenter will contradict a robust (but erroneous) belief young children hold about falling objects-namely, that they fall straight down even when their path is actually determined by a crooked tube or by forward momentum. Under a variety of conditions, children between 23 and 37 months of age will be asked to make a prediction about the trajectory of a ball before they hear about or see an event and again after, and their responses compared. The """"""""testimony"""""""" of others is a vital (and uniquely human) method of knowledge acquisition. The proposed research is important because it will expand our knowledge of how cognitive, linguistic, and social processes interact to support learning. It also has important public health implications in terms of how parents, caregivers, and educators can craft their messages to children to effect changes in behaviors and beliefs. ? ? ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Small Research Grants (R03)
Project #
1R03HD053403-01A1
Application #
7256007
Study Section
Pediatrics Subcommittee (CHHD)
Program Officer
Maholmes, Valerie
Project Start
2007-06-01
Project End
2009-05-31
Budget Start
2007-06-01
Budget End
2008-05-31
Support Year
1
Fiscal Year
2007
Total Cost
$75,750
Indirect Cost

  Institution

Name
University of Virginia
Department
Psychology
Type
Schools of Arts and Sciences
DUNS #
065391526
City
Charlottesville
State
VA
Country
United States
Zip Code
22904

  Publications

Stavisky, Sergey D; Kao, Jonathan C; Nuyujukian, Paul et al. (2018) Brain-machine interface cursor position only weakly affects monkey and human motor cortical activity in the absence of arm movements. Sci Rep 8:16357
Young, D; Willett, F; Memberg, W D et al. (2018) Signal processing methods for reducing artifacts in microelectrode brain recordings caused by functional electrical stimulation. J Neural Eng 15:026014
Willett, Francis R; Murphy, Brian A; Young, Daniel R et al. (2018) A Comparison of Intention Estimation Methods for Decoder Calibration in Intracortical Brain-Computer Interfaces. IEEE Trans Biomed Eng 65:2066-2078
Willett, Francis R; Murphy, Brian A; Memberg, William D et al. (2017) Signal-independent noise in intracortical brain-computer interfaces causes movement time properties inconsistent with Fitts' law. J Neural Eng 14:026010
Ajiboye, A Bolu; Willett, Francis R; Young, Daniel R et al. (2017) Restoration of reaching and grasping movements through brain-controlled muscle stimulation in a person with tetraplegia: a proof-of-concept demonstration. Lancet 389:1821-1830
Pandarinath, Chethan; Nuyujukian, Paul; Blabe, Christine H et al. (2017) High performance communication by people with paralysis using an intracortical brain-computer interface. Elife 6:
Willett, Francis R; Pandarinath, Chethan; Jarosiewicz, Beata et al. (2017) Feedback control policies employed by people using intracortical brain-computer interfaces. J Neural Eng 14:016001
Pandarinath, Chethan; Gilja, Vikash; Blabe, Christine H et al. (2015) Neural population dynamics in human motor cortex during movements in people with ALS. Elife 4:e07436
Masse, Nicolas Y; Jarosiewicz, Beata; Simeral, John D et al. (2015) Reprint of ""Non-causal spike filtering improves decoding of movement intention for intracortical BCIs"". J Neurosci Methods 244:94-103
Bacher, Daniel; Jarosiewicz, Beata; Masse, Nicolas Y et al. (2015) Neural Point-and-Click Communication by a Person With Incomplete Locked-In Syndrome. Neurorehabil Neural Repair 29:462-71

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