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The Student Space Systems Fabrication Laboratory: An Approach To Space Systems Engineering Education
- Conference Session
- Learning to Design Aerospace Systems
- Collection
- 2006 Annual Conference & Exposition
- Authors
- Thomas Liu, University of Michigan; Christopher Deline, University of Michigan; Rafael Ramos, University of Michigan; Steven Sandoval, University of Michigan; Ashley Smetana, University of Michigan; Brian Gilchrist, University of Michigan; Peter Washabaugh, University of Michigan; Nilton Renno, University of Michigan
- Tagged Divisions
- Aerospace
, University of Michigan Associate Professor, Atmospheric and Space Sciences Page 11.1332.1© American Society for Engineering Education, 2006 THE STUDENT SPACE SYSTEMS FABRICATION LABORATORY: AN APPROACH TO SPACE SYSTEMS ENGINEERING EDUCATIONAbstractThe Student Space Systems Fabrication Laboratory (S3FL) is a student-led organizationdedicated to providing students with practical space systems design and fabrication experiencenot readily available through the usual academic curriculum. S3FL’s approach is to enhanceeducation by coupling classroom knowledge with practicum experience involving realengineering design, analysis, test
- Conference Session
- Rethinking Aerospace Curricula and Learning
- Collection
- 2006 Annual Conference & Exposition
- Authors
- Narayanan Komerath, Georgia Institute of Technology
- Tagged Divisions
- Aerospace
1970s lagged the best programs in India, for example, in theuse of computers in undergraduate education. At the same time, U.S. programs were well aheadin dropping requirements2,3 for hands-on skills such as Workshop and Drafting. Early computerexercises in the late 1980s involved programming. As ‘canned software’ such as ‘TKSOLVER’became popular, a debate arose about the value of having students spend time on programmingversus solving engineering problems. The practice of coding entire, standalone programsincluding graphics from a blank sheet of paper, went into decline. Mathematical and graphicaltools facilitated teaching computational techniques, flight control theory and computer-aideddesign. Addition of Space technology and design content
- Conference Session
- Approaches to Emerging Topics
- Collection
- 2006 Annual Conference & Exposition
- Authors
- Ron Madler, Embry-Riddle Aeronautical University-Prescott; Phillip Anz-Meador, Embry-Riddle Aeronautical University-Prescott; Karl Siebold, Embry-Riddle Aeronautical University-Prescott
- Tagged Divisions
- Aerospace
and their relationship with major courses taught, in one form or another, atany university or college supporting a space engineering or physics program. In Table 1.1 ourcourse level is indicated, as appropriate, by degree plan year, e.g. “3” indicates a Junior-levelclass.The intention of this paper is to stimulate the usage of problem solving techniques which canraise the awareness of space debris and give interesting, realistic examples for the classroom.Section 3 contains a non-exhaustive list of examples which illustrate that the field of space debrisis very complex and interdisciplinary requiring, as it does, an integrated understanding ofdynamics, mathematics and statistics, design best practices, the space environment, and evenspace