Conference Session

Aerospace Division Technical Session 1

Collection

2015 ASEE Annual Conference & Exposition

Authors

Wm. Michael Butler, Virginia Tech

Tagged Topics

Diversity

Tagged Divisions

Aerospace

having a very homogenized group of engineeringpractitioners. In order to address these issues, there have been a number studies in engineeringeducation exploring the area of academic persistence or the intention of a student to complete adegree in engineering as a way to increase the number of engineers and their diversity. Studiesby Seymour and Hewitt (1997), Huang, Taddese and Walter (2000), and Adelman (1998) haveexplored various areas of academic persistence in science and engineering including the impactsof gender and ethnicity on persistence3,4,5. At the core of these academic persistence studies isthe assumption that those who pursue and successfully complete a degree in science andengineering will in turn pursue a professional career in

Conference Session

Aerospace Division Technical Session 1

Collection

2015 ASEE Annual Conference & Exposition

Authors

Kristi J. Shryock, Texas A&M University; David B Kanipe, Texas A&M University

Tagged Divisions

Aerospace

, and engaging her students with interactive methods.Mr. David B Kanipe, Texas A&M University After receiving a BS in Aerospace Engineering in May 1970, followed by a MS in Aerospace Engineering in August 1971 from Texas A&M University, Mr. Kanipe accepted a position with NASA at the Manned Spacecraft Center in Houston and began his professional career in November 1972. A month after his arrival at NASA, the last Apollo mission, Apollo 17, was launched. Obviously, that was exciting, but in terms of his career, the commencement of the Space Shuttle Program in November 1972 was to have far more impact. As a result, David was able to begin his career working on what he says was the most interesting and

Conference Session

Aerospace Technical Session 3

Collection

2015 ASEE Annual Conference & Exposition

Authors

Steven H. Collicott, Purdue University, West Lafayette

Tagged Divisions

Aerospace

author’s teaching activities in which anexisting design-build-test class focusing on zero-gravity flight experiments is adapted to provideundergraduate student designed and built payloads for launching in the commercial sub-orbitalindustry. This class enables spending, fund-raising, faculty time commitments, and studentparticipation. Payloads launched to date on test flights of these rockets are described along withlessons learned for student payload design and flight. Payloads under development and the classstructure which enables this work are also described. Feedback on the in-class experiences aregathered from recent alums and will be shared and discussed.Any engineering professor who persists in this career for a number of years has observed

Conference Session

Aerospace Technical Session 2

Collection

2015 ASEE Annual Conference & Exposition

Authors

M. Christopher Cotting, United States Air Force Test Pilot School

Tagged Topics

Diversity

Tagged Divisions

Aerospace

Paper ID #14185An Integrated Curriculum Design for Teaching Flying Qualities Flight Test-ingDr. M. Christopher Cotting, United States Air Force Test Pilot School Dr. Chris Cotting is the Master Instructor of Flying Qualities at the United States Air Force Test Pilot School. During his professional career he has also worked for the NASA Dryden Flight Research Center and the Lockheed Martin Skunkworks. He has worked on numerous experimental aircraft projects in- cluding the X-43A and X-43C, X-35, and X-33. He has a BS and MS in Aerospace Engineering from Mississippi State University, and a PhD in Aerospace Engineering from

Conference Session

Aerospace Technical Session 3

Collection

2015 ASEE Annual Conference & Exposition

Authors

Hank D Voss, Taylor University; Jeff F Dailey; William A Bauson, Taylor University; Bill Chapman, Taylor University

Tagged Divisions

Aerospace

prepare graduates well. Traditional“small stepping” lab and project classes serve a real purpose but can be limited and geared morefor workforce literacy (“Cubicle” engineers). Challenging projects give students freedom andownership while driving and amplifying their problem solving skills with some failure andcreative feedback solutions. Appropriate and inspiring big projects better prepare students foradvanced leadership by doing advanced engineering and “swimming with the Big Boys” innational competitions, peer reviewed publications, and selective job interviews.AdvantagesReal world and challenging experiences for students have many advantages: • improved student resume and career opportunities • are significant for attracting top students