Proceedings of the CUNY Games Conference 4.0: The Interactive Course

Proceedings of the CUNY Games Conference, held from January 22-23, 2018, at the CUNY Graduate Center and Borough of Manhattan Community College. Critical Play with History (Panel) - Composition & Storytelling - Health & Cognitive Sciences - Gaming Anthropology: Teaching Culture and Power Through Games and Design (Panel) - Twine & Writing Games - Easy Ideas II - STEM Games - Global Games for Change Catalog (Panel) - Comics & Active Learning - Fact Checking & Research - Computer Science & Game Design - SimGlobal: Building a Serious Roleplay Course for the Social Sciences (Panel) - Role Playing Games, Narrative, & Story - Course Review Through Games - Business & Finance Games - Game Design and Programming in Unity - What’s Your Game Plan? - The Allure of Play in the Classroo

USU Teaching Documentation: Dossiers from the Mentoring Program

The nation\u27s land grant institutions were founded on the principle of access for the general public to the knowledge gained through research and creative activity fostered in higher education. Central to our access mission is our dedication to teaching and learning that is informed by research and discovery, both of which must result, at least in part, from our engagement with our external constituents. That teaching and learning informs our research and vice versa; our research informs and aids in our teaching mission. This work, compiled by Professors Maria Luisa Spicer-Escalante and Cathy Ferrand Bullock, is focused on how the best, highly informed teaching is accomplished when done in an intentional manner. That intentional process helps the best university educators thoughtfully build their teaching story in an organized manner. Educators think about how they can successfully reach and engage their appropriate student audiences (or mentees), what they hope to accomplish, and how they intend to accomplish their goals. Further, as learning outcomes are identified and established, first-rate methods for course design, content inclusion, and continuous improvement can be outlined. Those of us who follow these intentional principles may then detail our growth and success along the way as teachers in the development of documents that tell our stories. Undoubtedly, the ability to clearly document and articulate that story will help academic personnel add to their tenure and promotion preparation in a very meaningful way. But as or even more important is the opportunity to describe these journeys with all the efforts, large and small, of improving their product in terms of learning outcomes and student growth and success. The nuggets of wisdom compiled by Professors Spicer-Escalante and Bullock, in USU Teaching Documentation: Dossiers from the Mentoring Program, will help teachers across the board from the new lecturer or assistant professor to the experienced professor dive into their teaching programs and find ways to continuously experiment and refine their approaches to our critically important student audiences. Good luck, teach on, and successfully document some of the most important work you all do! Frank Galey Executive Vice President and Provost Utah State University 2019https://digitalcommons.usu.edu/ua_faculty/1000/thumbnail.jp

The student-produced electronic portfolio in craft education

The authors studied primary school students’ experiences of using an electronic portfolio in their craft education over four years. A stimulated recall interview was applied to collect user experiences and qualitative content analysis to analyse the collected data. The results indicate that the electronic portfolio was experienced as a multipurpose tool to support learning. It makes the learning process visible and in that way helps focus on and improves the quality of learning. © ISLS.Peer reviewe

Particle Physics Outreach to Secondary Education

This review summarizes exemplary secondary education and outreach programs of the particle physics community. We examine programs from the following areas: research experiences, high-energy physics data for students, informal learning for students, instructional resources, and professional development. We report findings about these programs' impact on students and teachers and provide suggestions for practices that create effective programs from those findings. We also include some methods for assessing programs

Retention of Women in Computer Science: Why Women Persist in Their Computer Science Majors

Retention of women through graduation in Computer Science (CS) majors is one of the biggest challenges for CS education. Most research in this area focuses on factors influencing attrition rather than why and how women remain committed. The goal of this research study is to understand retention from the perspective of women who persisted in their CS major. Using the theoretical lens of legitimate peripheral participation in communities of practice, I designed and conducted a study that involved focus groups, interviews, journey maps, and experience sampling methods. I found that retention of women in this study was influenced by four different types of interactions and eight different practices inside the CS major. I also found that learning was a matter of multimembership at the intersection of several different communities which supported both these women’s learning and retention. Finally, this dissertation provides a cross-case study narrative that highlights commonalities and differences of different pathways of ongoing participation investigated in this study. Such narrative is illustrated by five individual case studies of five women persisting in their CS major

Robotics and Inquiry: Addressing the Impact on Student Understanding of Physics Concepts (Force and Motion) from Select Rural Louisiana Elementary Students through Robotics Instruction Immersed within the 5E Learning Cycle Model

This embedded mixed methods study investigates the development of rural elementary students’ conceptual understanding of force and motion as a result of the implementation of robotics instruction immersed within a 5E Learning Cycle Model lessons. Three treatment groups and one controlled comparison group (n=96) participated in pretests and posttests (Science Series Assessment 1, Russell and McGuigan, 2001) the day the activities were completed as well as one week after the completion of the treatment, 5E Learning Cycle Model lessons and draw and tell interviews. Prior to the intervention, the Iowa Test of Basic Skills stanine scores were grouped into three levels: high, medium and low, and provided a sample size of 36, three from each ability level from each experimental and control groups. These participants were pulled three at a time and participated individually in the draw and tell activity before the intervention, during and one week following the close of the intervention. Observations, field notes, coded interviews and quantitative data were used for meta-inference. The data suggests that with respect to long term retention of accurate understanding of concepts related to force and motion, participants who utilize robotics instruction immersed within 5E Learning Cycle Model lessons are more likely to successfully retain correct concepts of force and motion (p\u3e.05). According to the findings from this study, participants who did not utilize robotics instruction were less likely to have accurate long term retention of concepts related to force and motion and were more likely to return to their original misunderstandings of said topic. With regards to ability level, low ability participants who utilized the robotics component were more likely to retain knowledge on topics related to force and motion; whereas only one participant in the control group identified as low ability could do the same. This study addresses a gap in the literature by providing the quantitative and qualitative data that supports the importance of immersing robotics into 5E Learning Cycle Model lessons as a means to assist students of various ability levels in addressing their understandings of physics concepts