AC 2011-1077: SE CAPSTONE: INTRODUCTION OF SYSTEMS ENGI- NEERING INTO AN UNDERGRADUATE MULTIDISCIPLINARY CAP- STONE COURSE James A Nemes, Pennsylvania State University, Great Valley James A. Nemes, Division Head and Professor of Mechanical Engineering at Penn State’s School of Graduate Professional Studies, earned his master’s and D.Sc. at George Washington University and bac- calaureate from the University of Maryland. Prior to coming to Penn State in 2007, Dr. Nemes was an Associate Professor of Mechanical Engineering and William Dawson Scholar at McGill University in Montreal, Canada. His research is in the area of material behavior, particularly the development of models to describe deformation and fracture, results of which have been published in over 100 articles in journals and conference proceedings. Dr. Nemes has also held a number of positions in industry and government, including posts at the Kennedy Space Center and at the U.S. Naval Research Laboratory in Washington DC. Kirsten S. Hochstedt, Penn State University Kirsten S. Hochstedt is a Graduate Assistant at the Leonhard Center for the Enhancement of Engineering Education. She has received her Masters degree in Educational Psychology, with an emphasis in educa- tional and psychological measurement, at Penn State and is a doctoral candidate in the same program. The primary focus of her research concerns assessing the response structure of test scores using item response theory methodology. Mary Lynn Brannon, Pennsylvania State University, University Park Mary Lynn Brannon, Instructional Support Specialist at the Leonhard Center for the Enhancement of Engineering Education at the Pennsylvania State University, has a Master of Arts Degree in Education and Human Development specializing in Educational Technology Leadership. Her work focuses on projects that measure and assess student perceptions of learning related to their experiences with engineering course innovations. She is a faculty development consultant with previous experience in instructional design and instructor of the Graduate Assistant Seminar for engineering teaching assistants. Elizabeth C. Kisenwether, Pennsylvania State University, University Park Assistant Professor, Engineering Design School of Engineering Design, Technology and Professional Programs (SEDTAPP) Co-Director, Lion Launch Pad exk13@psu.edu Phone: 814.863.1531 Liz holds a B.S. degree in Electrical Engineering from Penn State (1979), and M.S.E.E. degrees from Massachusetts Institute of Technology (1981) and The Johns Hopkins University (1988). She worked in industry for 11 years with a defense contractor (HRB Systems/Raytheon), and then co-founded and worked for five years with a high-tech startup (Paragon Technology), which developed digital video add-in cards/modules for laptop and rugged portable computers. Since joining Penn State in 1999, Liz has taught design courses in the Mechanical, Electrical, and Civil and Environmental Engineering Departments, and in SEDTAPP. In 2001, she became director of the Problem-Based Learning in Entrepreneurship project (underwritten by the GE Fund), and in 2002 was named Director of the Engineering Entrepreneurship Minor. As of Fall 2009, the E-SHIP Minor has 204 graduates representing many majors: 60% are from engineering, 25% from business, 10% from Information Sciences and Technology, and 5% from other majors. She was awarded the 2005 Price Foundation Innovative Entrepreneurship Educators Award Stan- ford University REE Conference (Roundtable for Entrepreneurship Education) and 2006 ASEE Kauffman Outstanding Entrepreneurship Educator Award. In January 2010, Liz stepped down as Director of the E- SHIP Minor to help define expansion plans for undergraduate entrepreneurship education across Penn State. Liz is co-Director of the Lion Launch Pad, a new student-centric on-campus business incubator. Liz is also involved in NSF-funded research, supporting both PFI and IEECI grants, and is the incoming Program Chair for the ASEE Entrepreneurship Division (2010-2011). Since 2006, Liz has been involved in developing the ASME Innovation Showcase (I-Show), which pro- vides a platform for top collegiate student teams to compete for seed money and attend 4-day business start-up workshops with the goal to commercialize their product idea. In the three I-Show events con- ducted in the last three years, 24 teams have competed with $74,000 in seed capital funds awarded. c American Society for Engineering Education, 2011