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Full-Text Articles in Education
Educational Outcomes From The Openorbiter Small Spacecraft Development Program, Jeremy Straub
Educational Outcomes From The Openorbiter Small Spacecraft Development Program, Jeremy Straub
Jeremy Straub
The OpenOrbiter program [1] is developing a low-cost framework for the creation of space-craft by researchers and educators worldwide [8]. In addition to the technical objectives, ed-ucational assessment [2, 3] has also been a key focus. Students working on development of the spacecraft [4] were asked what types of benefits they sought from their participation [5]. The assessment of the attainment of these benefits is ongoing, in conjunction with continued development in pursuit of the crea-tion of a set of designs that can be used to build a spacecraft with a cost of under $5,000 [13] .
Mathematicians Playing A Role In Math Education: What We Learned At The Ime/Mime Workshop, Anna Bargagliotti, Rama Chidambaram, Gizem Karaali
Mathematicians Playing A Role In Math Education: What We Learned At The Ime/Mime Workshop, Anna Bargagliotti, Rama Chidambaram, Gizem Karaali
Anna Bargagliotti
In Hollywood, some actors are regularly cast as mean, others as sweet and endearing, and some typically play innocent big-eyed youths who inevitably succeed after awakening to the particular facts of life that their producer wants them to awaken to. It is unusual and difficult for actors to cross the bridge between different types on a regular basis. However, there are always exceptions to the rule. In the seemingly unrelated world of academics, mathematics faculty may find themselves playing different roles. People with different skills and interests strive to balance their careers in ways that will be uniquely fulfilling to …
Using Plankton Imaging Technology And Computer Science For Biological Oceanographic Advancement And Education, Adam T. Greer
Using Plankton Imaging Technology And Computer Science For Biological Oceanographic Advancement And Education, Adam T. Greer
Adam T. Greer
Oceanography is an inherently interdisciplinary subject that combines observations of physics, biology, chemistry, and their interactions. While most physical and chemical measurements can be made on small scales (cm to m) through the use of sensors (temperature, salinity, pH, etc.), traditional tools to understand the biology of the ocean have only allowed for coarse sampling resolution (i.e., plankton nets sample large portions of the water column). New imaging technology enables the biological component of the ocean to be sampled on the same scale as the physical and chemical, allowing scientists to finally address the interactions among different oceanographic processes. Image …
The Openorbiter Program: Intrepreneurship, Entrepreneurship And Innovation, Jeremy Straub
The Openorbiter Program: Intrepreneurship, Entrepreneurship And Innovation, Jeremy Straub
Jeremy Straub
The University of North Dakota’s OpenOrbiter program is providing an interdisciplinary learning experience for students from numerous STEM and non-STEM fields. OpenOrbiter allows student participants to experience not just the engineering and other technical aspects of the space program, it also involves students from diverse, non-STEM fields (including communications, entrepreneurship, management, visual arts, public policy and English). Traditional STEM fields such as mathematics, physics, electrical engineering, mechanical engineering, computer science and technology are also well represented. Students from specially programs at the University of North Dakota including atmospheric sciences, Earth System Sciences and Policy, aviation, Space Studies and Air Traffic …
The International Trafficking In Arms Regulations: Precluding Innovation In Academic Spacecraft Engineering — Or Are They?, Jeremy Straub, Joe Vacek
The International Trafficking In Arms Regulations: Precluding Innovation In Academic Spacecraft Engineering — Or Are They?, Jeremy Straub, Joe Vacek
Jeremy Straub
Government regulations and uncertainty about their enforcement can be a significant barrier to innovation. In business, it is undesirable to consume time and other resources developing a product that cannot be sold or which requires navigating significant bureaucracy for each sale. In academ-ia, where limited funding is available prior to the submission of a grant pro-posal and receipt of an award, proposal-stage compliance costs can derail a project long before it begins. This paper reviews the International Traffick-ing in Arms Regulations (ITAR) and their impact on spacecraft research in academia, private research labs and industry. It reviews the exemptions available, …
Preparing Students For Careers That Do Not Yet Exist, Glenn W. "Max" Mcgee
Preparing Students For Careers That Do Not Yet Exist, Glenn W. "Max" Mcgee
Glenn W. "Max" McGee
The Illinois Mathematics and Science Academy (IMSA), as a self-described "teaching and learning laboratory for imagination and inquiry," has a history of pursuing innovations closely aligned with the vision and framework of the National Science Education Standards. Innovations include both methods and materials for inquiry-based student instruction as well as for delivering professional development for pre-service and practicing teachers. Instructional innovations described include yearlong student inquiry and research projects (SIR), self-paced physics instruction, student-driven energy and engineering projects, instruction in innovation and entrepreneurialism, and a host of student-led outreach activities to "ignite and nurture creative, ethical, scientific minds of students …
Risk Analysis & Management In Student-Centered Spacecraft Development Projects, Jeremy Straub, Ronald Fevig, James Casler, Om Yadav
Risk Analysis & Management In Student-Centered Spacecraft Development Projects, Jeremy Straub, Ronald Fevig, James Casler, Om Yadav
Jeremy Straub
Student involvement in any engineering project introduces an element of risk. This risk is particularly pronounced with small spacecraft projects, as a failure of the spacecraft on-orbit can result in a complete failure of the mission. However, student involvement in these projects is critical to allow research aims to be accomplished, in a university setting, and to train the next generation of spacecraft engineering professionals. The nature of risks posed by student involvement is discussed and a framework for assessing and mitigating these risks presented.