Measuring in-service teacher self-efficacy for teaching computational thinking: development and validation of the T-STEM CT

Despite a growing recognition that K-12 teachers should be prepared to teach students computational thinking (CT) skills across disciplines, there is a lack of valid instrumentation that measures teachers’ efficacy beliefs to do so. This study addresses this problem by developing and validating an i...

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Veröffentlicht in:	Education and information technologies 2021-07, Vol.26 (4), p.4663-4689
Hauptverfasser:	Boulden, Danielle Cadieux, Rachmatullah, Arif, Oliver, Kevin M., Wiebe, Eric
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Sprache:	eng
Schlagworte:	Beliefs Classical test theory Computer Appl. in Social and Behavioral Sciences Computer Science Computers and Education Education Educational Technology Elementary Secondary Education Information Systems Applications (incl.Internet) Item response theory Measurement Physical instruments Problem solving Rasch model Regression (Statistics) Regression analysis Self Efficacy Surveys Teacher Effectiveness Teachers Teaching Teaching Experience Test Theory User Interfaces and Human Computer Interaction
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creator	Boulden, Danielle Cadieux Rachmatullah, Arif Oliver, Kevin M. Wiebe, Eric
description	Despite a growing recognition that K-12 teachers should be prepared to teach students computational thinking (CT) skills across disciplines, there is a lack of valid instrumentation that measures teachers’ efficacy beliefs to do so. This study addresses this problem by developing and validating an instrument that measures in-service teachers’ self-efficacy beliefs for teaching CT. In parallel, we conducted a regression analysis to predict teachers’ self-efficacy and outcome expectancy beliefs for teaching CT based on demographic traits of the respondents. We surveyed a total of 330 K-12 in-service teachers. A combination of classical test theory and item response theory Rasch was used to validate the instrument. Our results yielded a valid and reliable tool measuring teaching efficacy beliefs for CT. Based on the differential item functioning analysis, the instrument did not reflect bias with gender, race, or teaching experience. Additionally, a regression analysis did not reveal significant predictors using teachers’ demographic characteristics. This suggests a need for looking at other factors that may significantly predict K-12 teachers’ teaching efficacy beliefs for CT to inform theory and practice around successful CT teaching and learning. Furthermore, we provide implications for the instrument we have developed.
doi_str_mv	10.1007/s10639-021-10487-2
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subjects	Beliefs Classical test theory Computer Appl. in Social and Behavioral Sciences Computer Science Computers and Education Education Educational Technology Elementary Secondary Education Information Systems Applications (incl.Internet) Item response theory Measurement Physical instruments Problem solving Rasch model Regression (Statistics) Regression analysis Self Efficacy Surveys Teacher Effectiveness Teachers Teaching Teaching Experience Test Theory User Interfaces and Human Computer Interaction
title	Measuring in-service teacher self-efficacy for teaching computational thinking: development and validation of the T-STEM CT
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