Projects

This project will develop curricula for environmental/geoscience disciplines for high-school classrooms. The Model My Watershed (MMW) v2 app will bring new environmental datasets and geospatial capabilities into the classroom, to provide a cloud-based learning and analysis platform accessible from a web browser on any computer or mobile device, thus overcoming the cost and technical obstacles to integrating Geographic Information System technology in secondary education.

This project will develop curricula for environmental/geoscience disciplines for high-school classrooms. The Model My Watershed (MMW) v2 app will bring new environmental datasets and geospatial capabilities into the classroom, to provide a cloud-based learning and analysis platform accessible from a web browser on any computer or mobile device, thus overcoming the cost and technical obstacles to integrating Geographic Information System technology in secondary education.

This three-year exploratory research and development project is assessing how the use of resource activities and teaching strategies focused on human evolution will affect the understanding, teaching and learning of evolution by high school AP biology teachers and students. The project will develop resource activities and teaching strategies with and for high school biology teachers. Professional development will also provide teachers with guidance on how to incorporate the activities and strategies into the classroom.  

Socio-environmental issues are both a key to secondary student interest in science and a difficult terrain for teachers to navigate. Problems like climate change have not only scientific but also social, political, and ethical aspects. In order to prepare students for fully understanding such issues, attention needs to be given to how teachers can be supported and learn for effective instruction. This four-year project enacts and researches a teacher professional development program, “Teaching for the Anthropocene,” with middle and high school science teachers that brings a concept of "critical systems thinking." The project investigates how critical systems thinking may enhance teachers’ understanding of socio-environmental issues and support them to integrate those understandings into their curriculum and teaching. The project also identifies potential challenges educators may face as well as what local conditions and program supports help them practically apply critical systems thinking in their classrooms.

Socio-environmental issues are both a key to secondary student interest in science and a difficult terrain for teachers to navigate. Problems like climate change have not only scientific but also social, political, and ethical aspects. In order to prepare students for fully understanding such issues, attention needs to be given to how teachers can be supported and learn for effective instruction. This four-year project enacts and researches a teacher professional development program, “Teaching for the Anthropocene,” with middle and high school science teachers that brings a concept of "critical systems thinking." The project investigates how critical systems thinking may enhance teachers’ understanding of socio-environmental issues and support them to integrate those understandings into their curriculum and teaching. The project also identifies potential challenges educators may face as well as what local conditions and program supports help them practically apply critical systems thinking in their classrooms.

This project project is designed to enhance the capacity of elementary teachers in high-poverty urban communities for enacting Next Generation Science Standards (NGSS)-aligned science approaches using the outdoors as part of their classroom. The goal of the project is to advance elementary teachers' pedagogical practices and determine how this affects cognitive and non-cognitive learning outcomes of their students, particularly those who are traditionally marginalized in science classrooms.

Using design-based research, with teachers as design partners, the project will create and refine project-based, hands-on robotics curricula such that science and math content inherent in robotics and related engineering design practices are learned. To provide teachers with effective models to capitalize on robotics for elucidating science and math concepts, a design-based Professional Development program will be built using principles of technological, pedagogical, and content knowledge (TPACK).

This project is developing, testing, and evaluating a diversity-enhanced, STEM-based, professional development workshop for high school teachers and career guidance counselors. The project team is developing educational materials and running workshops that focus on pedagogical methods for incorporating hands-on activities into STEM classrooms in order to expose all students to technology and engineering. The long-term goal is to broaden and increase the diversity of students entering engineering-based college degree programs.

This project tests the efficacy of an intensive, three year professional development program, the BSCS National Academy for Curriculum Leadership (NACL) on student science achievement in the state of Washington. The goal of the NACL is to develop the capacity of district-based secondary science leadership teams to sustain the implementation of research-based science instructional materials that promote improvement in teaching and learning.

The purpose of this project is to develop, implement and test a professional development program, SOAR for Math, to build capacity for mentors and teachers to improve English learner's academic language development and mathematical content understanding.

This project continues research and development work on high school instructional materials that integrate biology, computing, and mathematics. The project goal is to develop and test a one-semester high school course. The course consists of some modules developed under a previous NSF grant as well as some new material. Intended deliverables include up to five new instructional modules and a coherent one-semester course suitable for the increasing state requirements for a fourth year of mathematics.

This project is designed to assist K-3 teachers in teaching life and physical science for conceptual understanding. It integrates videos, stills and voice-over into one multimedia web-based tool. The program provides teachers with experiences in understanding details related to the \"how\" of high quality science teaching. The professional development activities illuminate what happens in planning and in arranging science classrooms to promote student learning.

The Coaching Cycle project is creating an online course for K–8 mathematics instructional coaches. The project targets coaches in rural areas and small schools who do not have access to regular district-wide professional development. It provides training in the skills needed for effective instructional coaching in mathematics by using artifacts collected by practicing coaches to engage course participants in the practice of coaching skills.

This project is developing and conducting research on the Cohort Model for addressing the mathematics education of students that perform in the bottom quartile on state and district tests. The predicted outcome is that most students will remain in the cohort for all four years and that almost all of those who do will perform well enough on college entrance exams to be admitted and will test out of remedial mathematics courses.

This project develops a series of interactive on-line games and investigates the effect these games have on increasing middle school science students' and teachers' knowledge and skills of scientific argumentation. There are four areas of argumentation addressed by the games: (1) understanding a claim, (2) judging the evidence about a claim based on type and quality (objectivity, reliability or validity), (3) analyzing the reasoning applied to the claim, and (4) evaluating the claim.

This conference showcases and analyzes progressive ideas about curriculum, teaching, assessment, and technology in high school and early college mathematics. The conference brings together leaders of state and local school system mathematics programs, mathematicians, curriculum developers, educational researchers, and education policy makers for in-depth discussion of the challenges and opportunities for innovation in high school mathematics.

This project is developing and testing a website, software application, and supplemental instructional materials that use publicly accessible genomics data to foster scientific inquiry among high schools students. Outcomes for students and teachers include developing knowledge, skills, and understandings related to genetic inheritance; data investigation and analysis; the process of scientific inquiry; and collaboration.

In this project researchers are implementing and studying a research-based curriculum that was designed to help children in grades 3-5 prepare for learning algebra at the middle school level. Researchers are investigating the impact of a long-term, comprehensive early algebra experience on students as they proceed from third grade to sixth grade. Researchers are working to build a learning progression that describes how algebraic concepts develop and mature from early grades through high school.

In this project researchers are implementing and studying a research-based curriculum that was designed to help children in grades 3-5 prepare for learning algebra at the middle school level. Researchers are investigating the impact of a long-term, comprehensive early algebra experience on students as they proceed from third grade to sixth grade. Researchers are working to build a learning progression that describes how algebraic concepts develop and mature from early grades through high school.

This project is designed to enhance understanding of how online professional development environments contribute to teach learning, changes in classroom practice and changes in student learning in comparison to face-to-face professional development. Using secondary school teachers learning to use a reformed-oriented environmental science curriculum, groups of teachers will be randomly assigned to one of three conditions: (1) traditional face-to-face workshop, (2)self-guided online professional development, or (3)online “short course” professional development guided by a facilitator.

This project is designing, developing, and testing a model that delivers effective teacher PD to in-service and preservice teachers to enable the successful implementation of engineering curricula. Research is performed to evaluate the impacts of the curricular materials and the teacher PD framework on classroom instructional practices and student learning, interests, and attitudes and to evaluate which curriculum components are most effective in promoting student learning and interest as a function of gender and ethnicity.

This project proposes an assessment study that focuses on improving existing measures of teachers' Mathematical Knowledge for Teaching (MKT). The research team will update existing measures, adding new items and aligning the instrument to new standards in school mathematics.

This project will develop a Professional Learning Community (PLC) model for engaging science and education researchers from a university with science and mathematics faculty at community colleges to increase the number, quality and diversity of middle school and high school mathematics and science teachers; apply design-based research to assess the effectiveness and replicability of the PLC model; and disseminate replicable project and research findings.

This project aims to determine whether curricula designed to support teacher and student learning have positive impacts on teacher knowledge, attitudes, and instructional practices; to what degree educative curricula help teachers with more and less experience teaching ELLs and how level of teaching experience relates to teacher knowledge, attitudes, and instructional practices; and the effects of the educative curricula in high implementation settings on ELLs knowledge and attitudes in science, and developing English proficiency.

Focusing on the Southwest Desert ecoregion, this conference addresses the need for research on effective instructional methods that can be used to support students' science learning in school gardens. The conference will lead to the development of an ecoregional model for garden-based science teaching (GBST) that builds on regional ecological and cultural resources to engage teachers and students in richer and more relevant science learning experiences.