Abstract
The program For Inspiration and Recognition of Science and Technology (FIRST) for young students incorporates project-based learning (PBL) with designing and building wireless-controlled robots. The students are guided by experts, mostly engineers. The FIRST organization determines the theme of the robot annual competition. The goal of this research is to characterize and evaluate the effect of the FIRST program on graduates’ self-efficacy, interpersonal skills, and career choices in science, technology, engineering, and mathematics (STEM). The research participants included 297 FIRST graduates, mostly high schoolers, who responded to questionnaires, and five of them were interviewed. Analysis of the data showed that the FIRST program improved graduates’ interpersonal skills such as time management, teamwork skills, and self-efficacy, as well as had an impact on the graduates’ STEM career choices. The main factors impacting the graduates’ career choice was their exposure to robotics and to experts from the industry. The theoretical contribution is to the social cognitive theory (SCT) in the context of the FIRST program. Our study explains students’ career choice through correlations among students’ aspirations for choosing a career, their self-efficacy, their interpersonal skills, and their actual choice. The practical contribution lies in better understanding the robotic PBL program and expanding the STEM work force.
Highlights
Science, technology, engineering, and mathematics (STEM) education is crucial in the 21st century, considering the increasing global impact of technology
We carried out exploratory factor analysis (EFA) to identify the factors of 31 statements
This section reviews the analysis results on the basis of data collected from 297 questionnaires of FIRST graduates and five interviews with the graduates; the results for each research question are presented
Summary
Technology, engineering, and mathematics (STEM) education is crucial in the 21st century, considering the increasing global impact of technology. We present the theoretical background for research regarding STEM education, project-based learning, 21st century skills and robotics. There is an ever-increasing need for STEM professionals in the workforce in many countries [1,2]. Research suggests that teachers can foster their students’ confidence in their STEM abilities, and this may have a positive effect on their self-efficacy regarding STEM and encourage them to choose STEM as an academic and career path.
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