The impact of focused degree projects in chemical engineering education on students’ research performance, retention, and efficacy

This study's purpose is to explore the relationship between sequential chemical engineering degree projects and students’ performance, engineering efficacy, multidisciplinarity, and retention. The projects for this education for chemical engineers research are thematically focused laboratory experiments embedded in a four-year chemical engineering program. Each project component is connected to the next, is increasingly complex as courses advanced, and is aligned with essential course content. This connectivity enables students to participate in logically sequenced experiments that culminate in well-developed senior laboratory projects. This study's educational impact was determined via comparison between seniors’ and freshmen’ performance, efficacy and retention. Results of this research indicate that the use of degree projects in chemical engineering education is impactful, resulting in students’ increased understanding of experimentation and course content; meaningful, resulting in statistically significant increased student chemical engineering efficacy; and engaging, resulting in students’ satisfaction with program impact, engagement with peers during experimentation, and dramatically increased student retention. Highlights ► Sequential degree projects with problem foci dramatically increase undergraduate chemical engineering students’ retention. ► Degree projects positively impact students’ research performance ► Project-based learning in engineerin...
Source: Education for Chemical Engineers - Category: Chemistry Source Type: research