This project team will develop and test a prototype of SuperChem VR, a game to support high school students' basic chemistry learning. The prototype will include a set of web-based laboratory modules which will be integrated within a virtual reality headset to allow for a 360-degree visual exploration of the environment. The prototype will also include teacher resources for classroom implementation. In the Phase I pilot research with 3 teachers and 54 students, the project team will examine whether the hardware and software prototype functions as planned, whether teachers are able to integrate it within the classroom environment, and whether students are engaged while using the prototype.
This project team will develop and test a prototype of Planet 3, a multi-media online platform to apply real world problems (e.g., pollution, overpopulation) to middle school earth and life science learning. The prototype will include videos, simulations, and games to allow opportunities for students to explore problem sets, collect and analyze data, and draw conclusions. At the end of Phase I in a pilot study with two classrooms, the researchers will examine whether the prototype functions as planned, where teachers can implement the prototype within classroom practice, and if students are engaged while examining real-world problems.
In prior research and development, the project team and partners developed Cyberchase, a multimedia story-based series for students to practice and learn math. Researchers will develop and test a prototype of a mobile app-based fractions game to be integrated within the multimedia series. The prototype will adjust to students of different skill levels, and will present fractions in different representations (pictures, numbers, and words) to support different modes of learning. In the Phase I pilot, researchers will work with two grade 3 classrooms, and will examine whether the prototype functions as planned, if teachers are able to integrate the game into classroom practice, and whether the prototype shows promise for improving student learning of fractions.
In considering the integration of technology in the classroom it is necessary to factor in the ways in which teachers design for their use. Makerspaces and their use of digitally-based rapid prototyping tools such as laser cutters and 3D printers are serving as new models for technology integration in learning environments. While there has been some research on the educational affordances of such technologies little research has been done to understand their use in the traditional classroom environment by teachers. This paper explores the design of curricular and instructional activities by
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TEAM MEMBERS:
Christian McKayTarrence BanksScott Wallace
Produced by the Climate Change Education Partnership (CCEP) Alliance, the "Climate Change Education: Effective Practices for Working with Educators, Scientists, Decision Makers and the Public" guide provides recommendations for effective education and communication practices when working with different types of audiences. While effective education has been traditionally defined as the acquisition of knowledge, Alliance programs maintain a broader definition of “effective” to include the acquisition and use of climate change knowledge to inform decision-making.
The CCEP Alliance is supported
This project will advance efforts of the Innovative Technology Experiences for Students and Teachers (ITEST) program to better understand and promote practices that increase students' motivations and capacities to pursue careers in fields of science, technology, engineering, or mathematics (STEM) by producing empirical findings and/or research tools that contribute to knowledge about which models and interventions with K-12 students and teachers are most likely to increase capacity in the STEM and STEM cognate intensive workforce of the future.
The LinCT (Linking Educators, Youth, and Learners in Computational Thinking) project at the Science Museum of Minnesota (SMM) will engage female teachers-in-training and youth from underrepresented demographics in immersive technology experiences and STEM education. LinCT will guide teachers to develop their understanding and use of technology in the classroom, as well as prepare youth for a future where technology plays a key role in a wide range of professional opportunities. The project aims to inspire teachers and youth to see the possibilities of technological competencies, as well as why the incorporation of technology can build meaningful learning experiences and opportunities for all learners. The LinCT program model offers learning and application experiences for participating teachers and youth and provides an introduction of technological tools used in SMM educational programs and professional development on approaches for engaging all learners in STEM. Both groups will provide instruction in SMM technology-based Summer Camps, reaching 1,000 young people every year. In each following school year, project educators will develop and deliver technology-based programs to nearly 1,000 under-served and underrepresented elementary students. The project will allow teachers and youth to deliver exciting and engaging technology-based programs to nearly 4,000 diverse young learners. As a result, all participants in this project will be better equipped to incorporate technology in their future careers.
The LinCT project will investigate effective approaches for broadening the participation of underrepresented populations by providing female pre-service teachers and female youth with opportunities to lead programming at the Science Museum of Minnesota (SMM). Over three years, the LinCT project will employ 8-12 female teachers-in-training [Teacher Tech Cadres (TTC)] and 12-24 female youth [Youth Teaching Tech Crews (Y-TTC)] from demographics that are underrepresented in STEM fields. The integration of these groups will result in relationships fostered within an educational program, where all participants are learners and teachers, mentors and mentees. The results of this unique program model will be assessed through the experiences of this focused professional learning and teaching community. The LinCT research study will focus on three aspects of the project. First, it will seek to understand how the teachers-in-training and youth experience the project model's varied learning environments. Next, the study will explore how the TTC's and the Y-TTC's motivation, confidence, and self-efficacy with integrating technology across educational settings change because of the program. Finally, the study will seek to understand the lasting aspects of culture, training, and community building on SMM's internal teams and LinCT partner institutions (University of St. Catherine's National Center for STEM Elementary Education and Metropolitan State University's School of Urban Education).
Have you ever been to a professional development (PD) session where you sat and listened to someone speak for hours—and likely got a bit bored? As teachers, we know that best practice is to encourage hands-on learning, but we forget to implement this strategy when creating PD experiences. Exploration Place (EP), the Sedgwick County Science and Discovery Center in Wichita, Kansas, partnered with eight rural school districts in neighboring Sumner County, threw out the traditional sage-on-a-stage paradigm, and tried something new.
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TEAM MEMBERS:
Jan LuthKimberly McDowellLaurel Zhang
Stephanie Spiris is a 12-year veteran teacher at George Washington High School in Denver, teaching courses in biomedical science (Figure 1). Last year, Spiris spent four weeks in a summer internship at Terumo BCT, a medical device company that focuses on blood processing for medical treatment and care. Decked in full lab gear and ready to learn, Spiris worked in a sterile lab, conducting projects that allowed her firsthand experience with tasks such as separating t-cells from blood and freeze-drying plasma.
The Center for the Advancement of Informal Science Education defines informal STEM education as “lifelong learning in science, technology, engineering, and math (STEM) that takes place across a multitude of designed settings and experiences outside of the formal classroom.” The design of an informal experience can vary widely. On one end of the spectrum are free-choice learning experiences, where participants determine what they want to learn, when they want to do it, and how and with whom they want to study. On the opposite end of the spectrum is nonformal learning, which includes any
The Discovery Research K-12 program (DRK-12) seeks to significantly enhance the learning and teaching of science, technology, engineering and mathematics (STEM) by preK-12 students and teachers, through research and development of innovative resources, models and tools (RMTs). Projects in the DRK-12 program build on fundamental research in STEM education and prior research and development efforts that provide theoretical and empirical justification for proposed projects.
STEM Practice-rich Investigations for NGSS Teaching (SPRINT) is an exploratory project that will research and develop resources and a model for professional learning needed to meet the demand of implementing the Next Generation Science Standards (NGSS). The Exploratorium Teacher Institute will engage middle school science teachers in a one-year professional learning program to study how familiar routines and classroom tools, specifically hands-on science activities, can serve as starting points for teacher learning. The Teacher Institute will use existing hands-on activities as the basis for developing "practice-rich investigations" that provide teachers and students with opportunities for deep engagement with science and engineering practices. The results of this project will include: (1) empirical evidence from professional learning experiences that support teacher uptake of practice-rich investigations in workshops and their classrooms; (2) a portfolio of STEM practice-rich investigations developed from existing hands-on activities that are shown to enhance teacher understanding of NGSS; and (3) a design tool that supports teachers in modifying existing activities to align with NGSS.
SPRINT conjectures that to address the immediate challenge of supporting teachers to implement NGSS, professional learning models should engage teachers in the same active learning experiences they are expected to provide for their students and that building on teachers' existing strengths and understanding through an asset-based approach could lead to a more sustainable implementation. SPRINT will use design-based research methods to study (a) how creating NGSS-aligned, practice-rich investigations from teachers' existing resources provides them with experiences for three-dimensional science learning and (b) how engaging in these investigations and reflecting on classroom practice can support teachers in understanding and implementing NGSS learning experiences.
The Exploratorium Teacher Institute (TI) is a teacher professional development center that offers comprehensive, multiyear professional learning institutes; classroom coaching and mentoring; and teaching tools to middle and high school science teachers. The TI staff is composed of a team of PhD scientists and veteran secondary science educators who work in concert to provide teachers with resources and experiences that develop the content knowledge and pedagogical skills necessary for teaching authentic science content through student-centered activities (McDermott and DeWater 2000). All of
Students find meaning and relevance in their learning when they connect lessons to real-world issues and possible career paths. The U.S. Fish and Wildlife Service’s (FWS) Conservation Connect, a freely available video series, connects learners to wildlife, technology, and careers. Videos and supplementary resources are designed to serve middle school youth, but elementary and high school educators—and even FWS retirees—report that they also use the tools. Each episode features a species, a conservation career, and technology that professionals use to study or protect that species and its