Stronger metacognitive regulation skills and higher self-efficacy are linked to increased academic achievement. Metacognition and self-efficacy have primarily been studied using retrospective methods, but these methods limit access to students' in-the-moment metacognition and self-efficacy. We investigated first-year life science students'…

To address global challenges such as climate change, we must prepare an engineering workforce of sustainability-minded engineers ready to tackle complex socio-technical problems with multiple stakeholders. Frameworks like the United Nations (UN) Sustainable Development Goals (SDGs) have begun to drive structural changes in engineering education,…

The fast-paced advances in technology and scientific knowledge in the 21st century call for learners to possess professional skills that complement their technical skills to make meaningful contributions in communities. This article introduces a cross-disciplinary leadership training program, Graduate Scholars Leadership, Engagement, and…

The authors illustrate how using design thinking allows learners to empathize with the perspectives of others, engage in collaborative problem-solving, practice communicating effectively, and respond to struggle or failure throughout the process.

Mathematics education is constantly changing due to the growing use of computers worldwide, and these global changes greatly affect mathematics education. In a computerized and changing society, it is paramount schools prepare students to acquire both procedural knowledge and conceptual knowledge in mathematics. In the state of Georgia, fourth…

Over the past few years at Columbus State University, the learning support math faculty and director have focused on the importance of training academic coaches to effectively engage students in corequisite support math with key practices implemented in an emporium-based model for our corequisite support math labs. This model consists of…

Engineering and integrated STEM experiences are being promoted at the K-12 level to increase interest and retention in STEM and to reinforce learning of mathematics and science content. However, research is still emerging regarding best practices for curriculum development, student impacts, and transfer of knowledge across disciplines. The purpose…

While a growing body of research supports active, student-centered approaches to teaching, the implementation of such methodologies in the undergraduate STEM classroom has not been widespread. In an effort to increase student success in an introductory course for biology majors, we developed Biology Boot Camp, a peer-led program based on active,…

I describe the first stages of a process of design research in which I employ problem-based learning in a course in engineering ethics, which fulfills a requirement for students in engineering degree programs. The aim of the course is to foster development of particular cognitive skills contributing to moral imagination, a capacity to notice,…

This article describes an unit that was created for first-grade students using both the "Next Generation Science Standards" ("NGSS") and Science, Technology, Engineering, and Mathematics (STEM) in a student-centered, problem-based approach. The multifaceted classroom unit combined with a take-home field study provides students…

This study examines alumni perceptions of the core curricula at the University of North Georgia's College of Business to assess the gap between the skills employers need in new graduates and what the curricula offer. The research was conducted as part of the continuous improvement process for AACSB accreditation. The findings reveal that soft…

One in four children in the state of Georgia is food insecure. In the city of Athens, 60 miles northeast of Atlanta, the number approaches one in three. More than 33 percent of residents have significantly limited access to healthy foods, living in areas of the city that the U.S. Department of Agriculture (USDA) has identified as food deserts.…

This paper describes the problem-solving studio (PSS) learning environment. PSS was designed to teach students how to solve difficult analytical engineering problems without resorting to rote memorization of algorithms, while at the same time developing their deep conceptual understanding of the course topics. There are several key features of…

This study examined whether students were reaching automaticity with single digit multiplication facts. A fourteen question interview was used to collect data. The first three questions asked the student basic information about themselves and their current math teacher. The next seven questions were math facts. The math facts chosen for the…

A problem-solving scaffold approach to synthesis was developed and implemented in two intervention sections of Chemistry 2211K (Organic Chemistry I) at Georgia Gwinnett College (GGC). A third section of Chemistry 2211K at GGC served as the control group for the experiment. Synthesis problems for chapter quizzes and the final examination were…