Abstract This paper evaluates an innovative instructional approach based on peer-led team learning available to freshman students in the Engineering School at an R1 university in the Midwest. The paper builds on results of a previous study which found a positive impact of the program on grades, an effect that was particularly significant for women. In an attempt to go one step further in evaluating the program’s impact on academic success, we assessed the impact on student retention in a four course engineering sequence. The Workshop Program itself consists of small, diverse groups of students meeting weekly to tackle conceptually-based, challenging problems related to their classes. The program aims to promote conceptual learning and high academic achievement using a collaborative environment and is optional and complementary to the lecture classes. Retention was evaluated based on completion of a 4-course required sequence that is a core component of the engineering curriculum. Logistic regression analysis was conducted using incoming math SAT to control for pre-existing differences in students academic ability. Results indicate that students in the workshop have a significantly higher probability of completing the four-course sequence. Findings indicate that a workshop program using undergraduate leaders is an appropriate model for increasing students’ academic success in freshmen undergraduate engineering courses.
[1]
Denise L Drane,et al.
The Gateway Science Workshop Program: Enhancing Student Performance and Retention in the Sciences Through Peer-Facilitated Discussion
,
2005
.
[2]
Greg Light,et al.
Supporting Innovative Freshman Study: The Engineering Workshop Program
,
2005
.
[3]
Lydia T. Tien,et al.
Implementation of a Peer-Led Team Learning Instructional Approach in an Undergraduate Organic Chemistry Course.
,
2002
.
[4]
Uri Treisman.
Studying Students Studying Calculus: A Look at the Lives of Minority Mathematics Students in College.
,
1992
.
[5]
Denise L Drane,et al.
Opening the Gateway: Increasing Minority Student Retention in Introductory Science Courses.
,
2004
.
[6]
Leonard Springer,et al.
Effects of Small-Group Learning on Undergraduates in Science, Mathematics, Engineering, and Technology: A Meta-Analysis
,
1997
.
[7]
Chandra Muller,et al.
Supporting Minority Mathematics Achievement: the Emerging Scholars Program at the University of Texas at Austin
,
1999
.
[8]
David Eli Drew,et al.
Increasing Minority Students' Success in Calculus.
,
1995
.
[9]
William Revelle,et al.
Improving Biology Performance with Workshop Groups
,
2002
.