Situating space: using a discipline-focused lens to examine spatial thinking skills
Abstract Spatial skills are an important component of success in science, technology, engineering, and math (STEM) fields. A majority of what we know about spatial skills today is a result of more than 100 years of research focused on understanding and identifying the kinds of skills that make up th...
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doaj-12ec0875c5464141bc92a9d3511a83bd2020-11-25T03:09:13ZengSpringerOpenCognitive Research2365-74642020-04-015111610.1186/s41235-020-00210-zSituating space: using a discipline-focused lens to examine spatial thinking skillsKinnari Atit0David H. Uttal1Mike Stieff2Graduate School of Education, University of CaliforniaSchool of Education and Social Policy, Northwestern UniversityLearning Sciences Research Institute, University of Illinois at ChicagoAbstract Spatial skills are an important component of success in science, technology, engineering, and math (STEM) fields. A majority of what we know about spatial skills today is a result of more than 100 years of research focused on understanding and identifying the kinds of skills that make up this skill set. Over the last two decades, the field has recognized that, unlike the spatial skills measured by psychometric tests developed by psychology researchers, the spatial problems faced by STEM experts vary widely and are multifaceted. Thus, many psychological researchers have embraced an interdisciplinary approach to studying spatial thinking with the aim of understanding the nature of this skill set as it occurs within STEM disciplines. In a parallel effort, discipline-based education researchers specializing in STEM domains have focused much of their research on understanding how to bolster students’ skills in completing domain-specific spatial tasks. In this paper, we discuss four lessons learned from these two programs of research to enhance the field’s understanding of spatial thinking in STEM domains. We demonstrate each contribution by aligning findings from research on three distinct STEM disciplines: structural geology, surgery, and organic chemistry. Lastly, we discuss the potential implications of these contributions to STEM education.http://link.springer.com/article/10.1186/s41235-020-00210-zSpatial skillsSTEM educationExpertiseInterdisciplinary researchDiscipline-based education research |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Kinnari Atit David H. Uttal Mike Stieff |
spellingShingle |
Kinnari Atit David H. Uttal Mike Stieff Situating space: using a discipline-focused lens to examine spatial thinking skills Cognitive Research Spatial skills STEM education Expertise Interdisciplinary research Discipline-based education research |
author_facet |
Kinnari Atit David H. Uttal Mike Stieff |
author_sort |
Kinnari Atit |
title |
Situating space: using a discipline-focused lens to examine spatial thinking skills |
title_short |
Situating space: using a discipline-focused lens to examine spatial thinking skills |
title_full |
Situating space: using a discipline-focused lens to examine spatial thinking skills |
title_fullStr |
Situating space: using a discipline-focused lens to examine spatial thinking skills |
title_full_unstemmed |
Situating space: using a discipline-focused lens to examine spatial thinking skills |
title_sort |
situating space: using a discipline-focused lens to examine spatial thinking skills |
publisher |
SpringerOpen |
series |
Cognitive Research |
issn |
2365-7464 |
publishDate |
2020-04-01 |
description |
Abstract Spatial skills are an important component of success in science, technology, engineering, and math (STEM) fields. A majority of what we know about spatial skills today is a result of more than 100 years of research focused on understanding and identifying the kinds of skills that make up this skill set. Over the last two decades, the field has recognized that, unlike the spatial skills measured by psychometric tests developed by psychology researchers, the spatial problems faced by STEM experts vary widely and are multifaceted. Thus, many psychological researchers have embraced an interdisciplinary approach to studying spatial thinking with the aim of understanding the nature of this skill set as it occurs within STEM disciplines. In a parallel effort, discipline-based education researchers specializing in STEM domains have focused much of their research on understanding how to bolster students’ skills in completing domain-specific spatial tasks. In this paper, we discuss four lessons learned from these two programs of research to enhance the field’s understanding of spatial thinking in STEM domains. We demonstrate each contribution by aligning findings from research on three distinct STEM disciplines: structural geology, surgery, and organic chemistry. Lastly, we discuss the potential implications of these contributions to STEM education. |
topic |
Spatial skills STEM education Expertise Interdisciplinary research Discipline-based education research |
url |
http://link.springer.com/article/10.1186/s41235-020-00210-z |
work_keys_str_mv |
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