ITEST Resources

In this chapter you will learn how a community college in rural Wyoming is implementing professional development resources in Computer Science and computational thinking skills for middle and high school teachers in their communities. The objective of the community college was to build relationships with schools to teach Computer Science concepts and computational thinking skills in the classroom. In this day and age, many people young and old are spending time on playing games or simulations. Why not teach Computer Science concepts and computational thinking skills through gaming and

This article examines teacher preparation and teacher change in engineering and computer science education. We examined culturally responsive teaching self-efficacy (CRTSE), culturally responsive teaching outcome expectancy (CRTOE) beliefs, and attitudes toward computational thinking (CT) as teachers participated in one of three treatment groups: robotics only, game design only, or blended robotics/game design. Descriptive data revealed that CRTSE gain scores were higher in the robotics only and blended contexts than in the game design only context. However, CRTOE beliefs were consistent

Understanding middle school students’ perceptions regarding STEM dispositions, and the role attitudes play in establishing STEM career aspirations, is imperative to preparing the STEM workforce of the future. Data were gathered from more than 800 middle school students participating in a hands-on, real world application curriculum to examine the relationship of the students’ interest in STEM and their intentions to pursue a career in a STEM field. Among the middle school students who completed surveys for the MSOSW project, 46.6% expressed a desire to pursue a career in STEM at the time of the

Going Green! Middle Schoolers Out to Save the World (MSOSW) focuses on students using energy monitoring equipment to assess the amount of standby power consumed by their home entertainment devices and appliances when not performing any useful functions. This program focuses on improving the STEM pipeline by preparing both teachers and students in engaging activities aimed at creating and increasing interest in STEM careers for students. Teachers who participated in this hands-on, real world curriculum project, that included professional development, project tools and resources, gained in their

Children and adults attending a three-day Science and Technology Exposition in Washington D.C., during April 2016 completed Climate Change Attitude Surveys and STEM Semantic Differential Surveys while visiting a booth featuring hands on demonstrations of testing various houshold appliances for consumption of standby power. Demos were conducted by middle school teachers from three states in the USA as part of a four-year Innovative Technology Experiences for Students and Teachers (ITEST) project, funded by NSF. Findings were that adults overall were more positive than children but significantly

These women are the innovators, problem-solvers and dreamers who live right next door. They’re passionate about their work, hobbies, families and helping to make the world a better place. They share their strategies for overcoming challenges and finding success and joy in jobs where women are underrepresented, and inspire girls to pursue all kinds of interests and career paths... After watching, complete this short survey to unlock video extras: tcptv.polldaddy.com/s/scigirls-profiles-women-in-stem

A central way in which FUSE provides powerful learning affordances is by breaking down the silos of A key way in which FUSE provides powerful learning affordances is by breaking down the silos of traditional STEM disciplines, and engaging learners in more authentic, interdisciplinary, and personally meaningful experimentation ICLS 2016 Proceedings 1029 © ISLS and making (e.g., Dewey, 1897; Resnick et al., 2009). Consequently, FUSE activities have the potential to not only motivate students to engage in future STEM learning, but also to provide them with a toolkit of knowledge and practices to

This paper explores how FUSE Studios are organized, describing key design elements, the ways these differ from a traditional classroom model, and the types of diverse learning arrangements that emerge. Data in this paper was primarily collected from five classrooms in the 2013-14 school year and the analysis was refined through discussions within the research team about ongoing data collection during the 2014-15 (one classroom) and 2015- 16 (seven classrooms) school years. [See pages 1025-1032]

Traditional methods of STEM education position the child as a novice and create narrow opportunities for children to demonstrate and constructively utilize their developing skills, related interests and capabilities, perhaps even inadvertently suppressing them (Stevens, 2000; Bevan, Bell, Stevens, & Razfar, 2012; Barron, 2006). Researchers have explored expertise in terms of domain mastery (Ericsson, Krampe, & Tesch-Romer, 1993), developed models for how novices become domain experts (Alexander, 2003), and discussed pathways along which students move in developing science expertise (Schwarz et

This book offers math educators strategies and resources for putting that principle into practice.