2026 ASEE Annual Conference & Exposition

Exploring the Relationship Between Achievement Goal Orientation and Situational Engagement During Engineering Problem Solving

Presented at Student Division (STDT) Technical Session 8

Achievement goal orientation (AGO) plays a crucial role in shaping how engineering students approach solving complex problems. This motivational construct influences students’ learning outcomes, their ability to sustain attention, and their motivation to remain engaged throughout tasks. AGO, therefore, hypothetically impacts the situational engagement, such as interest, skill, and perceived challenge, during learning, reasoning, and problem-solving. This research investigates the effect of various types of AGO on students’ situational engagement while solving engineering problems, particularly in the Fundamentals of Electronics for Engineers class.
To investigate the impact of AGO on situational engagement, the researchers adopted a mixed-method approach. The quantitative data of this study were collected from a validated Achievement Goal Questionnaire Revised (AGQ-R) survey administered at a land-grant public university in the western United States. One hundred and three undergraduate engineering students have participated in this phase of data collection. The survey response illustrates two distinct AGO groups, such as mastery-oriented and performance-oriented. For in-depth qualitative analysis, eight students were purposefully selected uniformly from both mastery and performance-oriented groups. These eight students participated in an engineering problem-solving activity. To capture the variations in engagement during the problem-solving process, a situational-engagement questionnaire was administered at four intervals during the problem-solving activity. This questionnaire assesses students’ interest in the task, skill, and perceived challenges across separate phases of a complex problem-solving task.
At the end of the problem-solving activity, participants responded to the same items in the post-problem-solving interview, where they elaborated on their experiences. Quantitative data were analyzed descriptively and inferentially to compare engagement patterns across achievement goal orientation groups, while qualitative responses were thematically coded to identify factors influencing situational engagement.
Findings demonstrated that students with mastery-oriented goals show greater consistency in perceived challenge and skill orientation over time, whereas performance-oriented goal students exhibit higher inconsistency and situational disengagement as cognitive demands peaked. The integration of AGO profiles with situational engagement metrics offers new insights into the dynamic nature of engineering problem-solving processes and has implications for the development of adaptive instructional tools.

Authors

Dr. Zain ul Abideen Utah State University [biography]

Zain ul Abideen holds a Ph.D. in Engineering Education from Utah State University, where he also served as a Graduate Researcher. He is a computer engineer and earned his bachelor’s degree in computer engineering and master’s degree in engineering, and brings over a decade of experience in teaching and research with undergraduate engineering students. He actively contributes to several technical committees and serves as a reviewer for leading journals and international conferences. His doctoral research focused on cognitive engagement, AI in education and engineering design, self-regulated learning, and mobile learning. His work seeks to deepen our understanding of how these elements influence learning and success in engineering education. With a strong commitment to educational advancement and a robust academic background, Zain is recognized as a dedicated and emerging scholar in the field of engineering education.
Dr. Talha Naqash Dickinson State University [biography]

Dr. Talha Naqash completed his doctoral studies in Engineering Education at Utah State University. With a diverse academic foundation, he also holds a Master’s degree in Telecommunication and Networking. He is currently serving as a faculty member at Dickinson State University in the School of Applied Sciences. Dr. Naqash’s research focuses on cognitive engagement analysis, assessment methods in engineering education, and the role of facial expressions and emotions in the learning process. His scholarly contributions include numerous publications and presentations at prestigious venues such as IEEE, ASEE conferences, and leading Wiley and Springer journals. He is an active member of several technical committees and serves as a reviewer for reputable journals and international conferences, including the ASEE and IEEE Transactions on Education. Dr. Naqash’s dedication to advancing educational research, combined with his broad academic and professional experience, underscores his commitment to fostering innovation and excellence in engineering education.
Sehrish Jabeen Utah State University [biography]

Sehrish Jabeen is currently a Ph.D. student and Graduate Research/Teaching Assistant. She brings over five years of teaching experience across K–12 and undergraduate educational settings, along with seven years of professional experience in the field of information technology, where she worked in the banking sector. Her research interests include mathematical well-being, mathematical modeling and problem-solving, and the application of Cognitively Guided Instruction (CGI) in mathematics and engineering education. Through her work, Sehrish aims to explore how instructional practices and learning environments can support students' mathematical thinking and their engagement with engineering and mathematics problem-solving.
Dr. Oenardi Lawanto Utah State University [biography]

Dr. Oenardi Lawanto is an associate professor in the Department of Engineering Education at Utah State University, USA. He received his B.S.E.E. from Iowa State University, his M.S.E.E. from the University of Dayton, and his Ph.D. from the University of Illinois at Urbana-Champaign. Dr. Lawanto has a combination of expertise in engineering and education and has more than 30 and 14 years of experience teaching engineering and cognitive-related topics courses for his doctoral students, respectively. He also has extensive experience in working collaboratively with several universities in Asia, the World Bank Institute, and USAID to design and conduct workshops promoting active-learning and life-long learning that is sustainable and scalable. Dr. Lawanto’s research interests include cognition, learning, and instruction, and online learning.
Dr. Angela Minichiello P.E. http://orcid.org/0000-0002-4545-9355 Utah State University [biography]

Angela (Angie) Minichiello, PhD is a military veteran, licensed mechanical engineer, and Associate Professor of Engineering Education at Utah State University.
Mr. Rifatul Islam Himel http://orcid.org/0000-0002-0415-4774 Utah State University [biography]

Rifatul Islam Himel is a doctoral candidate in Engineering Education at Utah State University (USU), Logan, Utah, US. His doctoral research focuses on understanding human cognition in engineering problem-solving. He holds a Bachelor's degree in Electrical and Electronics Engineering and a Master's degree in Electronics and Telecommunication Engineering. With over six years of professional experience in the Information Technology industry and a strong background in teaching and research, Rifatul brings a unique interdisciplinary perspective to his work. His research interests include Human and Machine Cognition, Applied Artificial Intelligence in Engineering Education, Information Processing, and the study of Consciousness.
Mr. Assad Iqbal http://orcid.org/https://0000-0002-8060-7384 Ohio State Department of Education [biography]

Assad Iqbal (Sid) is a Senior Lecturer at the Department of Engineering Education in the College of Engineering, Ohio State University. Assad has been working with the National Science Foundation (NSF) funded national collaboration research project, "Engineering For Us All (e4usa) since October 2022. The core mission of this project is to increase student and teacher access to engineering with a focus on reaching traditionally underrepresented populations in this field.

With a BS in Computer Information Systems Engineering, a Master of Science in Engineering Management, and a Ph.D. in Engineering Education, Assad's long-term research goal is to converge his varied research experiences and endeavors to explore the possibilities of an inclusive instructional design to promote self-directed, self-regulated, life-long learning among pre-college and undergraduate engineering students.

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The full paper will be available to logged in and registered conference attendees once the conference starts on June 21, 2026, and to all visitors after the conference ends on June 24, 2026

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