Displaying all 7 results
- Conference Session
- Aerospace Engineering Education
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- 2016 ASEE Annual Conference & Exposition
- Authors
- Antonette T. Cummings P.E., Purdue University, West Lafayette; William C. Oakes, Purdue University, West Lafayette; Carla B. Zoltowski, Purdue University, West Lafayette
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- Diversity
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- Aerospace
Education Research Colloquies, "The Research Agenda for the New Discipline of Engineering Education," Journal of Engineering Education, vol. 95, pp. 259-261, 2006.[2] J. S. Bruner, Actual Minds, Possible Worlds. Cambridge, MA: Harvard University Press, 1986.[3] K. W. Fischer, "A Theory of Cognitive Development: The Control and Construction of Hierarchies of Skills," Psychological Review, vol. 87, 1980.[4] L. Vygotsky, Thought and Language (translation newly revised and edited by Alex Kozulin). Cambridge, Massachusetts: The MIT Press, 1986.[5] T. S. Kuhn, The structure of scientific revolutions, 3rd ed.. ed. Chicago
- Conference Session
- Aerospace Engineering Education
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- 2016 ASEE Annual Conference & Exposition
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- Jonathan Michael Mercado; Dale C Rowe, Brigham Young University
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aerospace and information technologydomains. As evidenced by the ideas presented in this paper, a great deal of progress can be madeby bringing individuals together in closely related fields to innovate methods of defense thatprotect our critical and other infrastructure. If we do not, we put ourselves at risk as our worldbecomes more interconnected. Industries that once had little concern for attack in cyberspace mustnow become much more aware of the threats and devise defense strategies that best protect theirassets.In engineering and technology, cyber-security occupies only a small portion of the educationalsurface area that is considered in today’s curriculum. It is necessary that new technologies bedeveloped with security in mind. Not only
- Conference Session
- STEM Education Tied to Aerospace Engineering
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Hansel Burley, Texas Tech University; Terrance Denard Youngblood, Texas Tech University; Ibrahim H. Yeter, Texas Tech University; Casey Michael Williams, Texas Tech University
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service. This paper will share the lessons learned that apply to evaluating STEMpedagogy and STEM programs that use nontraditional approaches and assessments. Therefore,this paper is a case study that provides a rich description of the processes involved in thedevelopment of an evaluation of this rocket project.Evaluation of SystemsGo’s Rocket Project: The SystemsGo Effect The following is a summary of the evaluation taken from the annual report2. Beginningwith the end in mind, this summary is the result of our evaluation effort. SystemsGo is a programthat helps students acquire 21st Century science, technology, engineering, and mathematics(STEM) workforce skills. What follows is a brief summary of findings, conclusions andrecommendations
- Conference Session
- Solid and Structural Mechanics in Aerospace Engineering
- Collection
- 2016 ASEE Annual Conference & Exposition
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- Gozdem Kilaz, Purdue University - West Lafayette; Ronald Sterkenburg, Purdue University - West Lafayette
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- Diversity
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- Aerospace
Paper ID #14933Hybrid Course Design in Manufacturing Courses to Improve Learning in theClassroomDr. Gozdem Kilaz, Purdue University - West Lafayette Gozdem Kilaz is an Assistant Professor of Aviation Technology Department at Purdue University. Dr. Kilaz holds B.S., M.S., and Ph.D. degrees in Chemical Engineering. She serves as the Chief Scientist for the Air Transport Institute for Environmental Sustainability (AirTIES). Her research is focused on avia- tion biofuels and sustainability. Her courtesy appointment with the Laboratory of Renewable Resources Engineering (LORRE) research center provides collaboration between
- Conference Session
- STEM Education Tied to Aerospace Engineering
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Hansel Burley, Texas Tech University; Casey Michael Williams, Texas Tech University; Terrance Denard Youngblood, Texas Tech University; Ibrahim H. Yeter, Texas Tech University
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- Diversity
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- Aerospace
learning, discoveryand other challenges. With these findings in mind, we believe that the model in Figure 4 emerged from thetextual data. Here, the top circle is the engine of all student activities related to learning frombuilding rockets. It also appears to be the driver of student attitudes about learning, particularlywhen students describe their collaborative activities leading to learning independence. Second,the attitudinal mindset of the groups was learning from failure. When a student occasionallyrevealed what they needed to overcome the “failures,” the answer was often more data andresearch. These failures were related to testing aspects of the rocket that one finds in theengineering design process, rather than failures of will or
- Conference Session
- STEM Education Tied to Aerospace Engineering
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Rachel Jannette McFalls-Brown, Mississippi State University; Mahnas Jean Mohammadi-Aragh, Mississippi State University; Rani W. Sullivan, Mississippi State University; Danielle Grimes, Mississippi State University
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- Aerospace
Paper ID #16166Background Factors Affecting Student Success in Aerospace Engineering: ASurvey of Sophomore and Senior StudentsMrs. Rachel Jannette McFalls-Brown, Mississippi State University Rachel is a second year masters student in Aerospace Engineering at Mississippi State University. She graduated from Mississippi State University with a B.S. in Aerospace Engineering in May 2014. Her current research interests include K-12 STEM education, first-year engineering, gifted, K-12 - First year transition, and aerospace engineering success.Dr. Mahnas Jean Mohammadi-Aragh, Mississippi State University Dr. Jean Mohammadi
- Conference Session
- UAV and other Team Projects in Aerospace Engineering
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- 2016 ASEE Annual Conference & Exposition
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- Michael C. Hatfield, University of Alaska, Fairbanks; John Monahan, University of Alaska, Fairbanks, Upward Bound; Samuel Vanderwaal; Carl H France; Logan Walker Graves, UAF
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Paper ID #15656UAS Design in Active LearningDr. Michael C. Hatfield, University of Alaska, Fairbanks Michael C. Hatfield is an assistant professor in the Department of Electrical and Computer Engineering at the University of Alaska Fairbanks, and Associate Director for Science & Education, Alaska Center for Unmanned Aircraft Systems Integration. He earned a B.S. in electrical engineering from Ohio Northern University; an M.S. in electrical engineering from California State University Fresno, and a Ph.D. in Electrical/Aeronautical Engineering from the University of Alaska Fairbanks.Dr. John Monahan, University of Alaska