Abstract
The demand for engineering talent is increasing with economic and societal developments. Along with this, nations worldwide are attaching increasing importance to engineering education under international science, technology, engineering and mathematics initiatives. In China, engineering education at university levels is dominant. Corresponding systemic engineering education at the K-12 level has yet to be established. With the aim of determining the status of K-12 engineering education, this study investigates the impacts of students’ participation in engineering practice on their attitudes toward engineering. Survey responses from a sample of 2,193 students from junior secondary schools in Shanghai, China, are used. Sample selection bias is mitigated using propensity score methods based on weight hierarchy. The findings indicate the status of student participation in engineering practice and reveal the significant effect of the level of student participation in engineering practice on students’ attitudes toward engineering at junior secondary schools in China.
Highlights
With the initiatives of science, technology, engineering and mathematics (STEM) education, both the value for engineering education worldwide and the demand for engineering talent have increased (Brophy et al, 2008; Chabalengula & Mumba, 2017; Maeng et al, 2017; Puente et al, 2011)
With the aim of determining the status of K-12 engineering education, this study investigates the impacts of students’ participation in engineering practice on their attitudes toward engineering
Sample selection bias is mitigated using propensity score methods based on weight hierarchy
Summary
With the initiatives of science, technology, engineering and mathematics (STEM) education, both the value for engineering education worldwide and the demand for engineering talent (following economic and social advancements) have increased (Brophy et al, 2008; Chabalengula & Mumba, 2017; Maeng et al, 2017; Puente et al, 2011). New global science education reforms have fostered a connection between engineering and science education to better prepare students and society to meet the current and future challenges of a modern and technological world (Bybee, 2011; Chabalengula & Mumba, 2017; Guzey & Ring-Whalen, 2018; Strimel & Grubbs, 2016). Following science education reforms in other nations and the prosperity of STEM education, China has designed its own initiatives and plans for promoting engineering education at the K-12 level. Zhan et al / Participation in Engineering Practices and Attitudes
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