Computational Thinking Bins: Outreach and More

Computational Thinking Bins are stand alone, individual boxes, each containing an activity for groups of students that teaches a computing concept. We have a devised a system that has allowed us to create an initial set, test the set, continually improve and add to our set. We currently use these bins in outreach events for middle and high school students. As we have shared this resource with K-12 teachers, many have expressed an interest in acquiring their own set. In this paper we will share our experience throughout the process, introduce the bins, and explain how you can create your own set

Bulldozing the STEM Silos in Omaha: While Engaging P-12 Teachers and Building Campus STEM Excellence

It has been said that all universities “do STEM these days”, but what exactly does it take to “do STEM” well? Questions commonly heard on a university campus these days include: “What is the STEM context for inquiry?”, “Should P-16 STEM be a campus priority?”, “How can a campus break down departmental silos for interdisciplinary workforce development?” In many ways STEM represents, at its core, an interdisciplinary approach and workforce development context to learning, that rigorously engages the core concepts of science, technology, engineering, and mathematics (Tsupros, N., Kohler, R. and Hallinen, J., 2009; National Science and Technology Council, 2018). Additionally, STEM concepts are found in most any P-16 curriculum (to include reading, writing, philosophy, history, etc.). How does it all come together for a campus trajectory toward STEM excellence? These questions, as well as projected workforce needs, put “STEM” as an important conversation on most campuses these days, and it certainly is the case on our campus, at the University of Nebraska at Omaha (UNO). Further, it is a truly a national dialogue, as educational institutions strive to more effectively work across disciplinary lines for “convergence”, where the insights and approaches from different disciplines can come together for finding creative solutions for our most difficult societal problems (National Research Council, 2014). Convergence is also a growing theme for innovations in P-12 STEM teacher training, such as at the National Science Foundation’s 2018 Noyce Teacher Scholarship Summit (http://www.nsfnoyce.org) and also across scientific programs as one of NSF’s 10 big ideas (https://www.nsf.gov/news/special_reports/big_ideas/)

Community Chairs as a Catalyst for Campus Collaboration in STEM

Strong collaborative partnerships are critical to the ongoing success of any urban or metropolitan university in its efforts to build the science, technology, engineering, and mathematics (STEM) career pathways so critical to our nation. At the University of Nebraska at Omaha, we have established a faculty leadership structure of community chairs that work across colleges to support campus priorities. This paper describes UNO’s STEM community chair model, including selected initiatives, impacts, and challenges to date

Encapsulated Molecules in Carbon Nanotubes: Structure and Properties

We encapsulate a number of fullerenes inside single-walled carbon nanotubes (SWNTs) including La2@C80 and ErxSc3-xN@C80(x=0-3). The structural properties of these nanoscopic hybrid materials are described using high resolution transmission electron microscopy and electron diffraction. It is found that the encapsulated fullerenes selfassemble into long, one-dimensional chains. The thermal stability of these supramolecular assemblies are studied and large variations are found. The behavior is nominally consistent with the mass of the encapsulated metallofullerenes

Identification of the Emergent Leaders within a CSE Professional Development Program

The need for high quality, sustainable Computer Science Education (CSE) professional development (PD) at the grades K-12 level is essential to the success of the global CSE initiatives. This study investigates the use of Social Network Analysis (SNA) to identify emergent teacher leaders within a high quality CSE PD program. The CSE PD program was designed and implemented through collaboration between the computer science and teacher education units at a Midwestern metropolitan university in North America. A unique feature of this specific program is in the intentional development of a social network. This study discusses the importance of social networks, the development of social capital, and its impact on the sustainability of the goals of the CSE PD program. The role of emergent teacher leaders in the development of the social capital of the CSE PD cohort is investigated using SNA techniques. The cohort consisted of 16 in-service teachers in grades 6-12 representing seven districts and four distinct content areas. The instruments used involved a questionnaire and the results of a CSE PD program online course. The findings suggest a correlation between the emergent teacher leaders, the online course results, and the overall cohort social capital. Future uses of SNA within professional development programs are also discussed