Projects

This project will develop video-case modules for use in pre-service teacher preparation programs. Modules will target specific grade bands (K-3, 4-5, 6-8) and address standards-based content domains, to help future teachers deepen their content knowledge, pedagogic skills and ability to analyze student thinking. The cases will illustrate reform classroom practices and more traditional instruction, include interviews with teachers and students, and incorporate a set of analytic tasks that promote users' critical observations of the cases.

This project enhances and expands video-based instruction to help prospective and practicing teachers analyze the development of children's mathematical thinking. It trains teachers to: (a) understand from a cognitive developmental psychology perspective how children learn and think about mathematics; (b) assess children's mathematical knowledge and plan instructional activities accordingly; (c) develop an evidence-based understanding of effective and developmentally appropriate teaching methods and curricula; and (d) develop a basic understanding of key mathematical concepts.

Mathematics education research has emphasized instruction that asks teachers to use approaches that center students’ mathematical thinking. A significant part of this is how teachers notice, or focus on, analyze, and decide how to respond to, mathematics thinking. One common professional development method is to use videos of mathematics teaching to help teachers understand what is possible for students' learning. This exploratory project aims to understand how facilitators of video-based teacher professional development learn to help mathematics teachers of middle and high school students notice student mathematical thinking.

This project will design, develop, and test a virtual learning community (VLC) to enhance the ability of first- and fourth-grade teachers to provide mathematics education. The goal is to produce a prototype of a VLC for first- and fourth-grade Everyday Mathematics teachers that integrates three primary elements: (a) learning objects rooted in practice, such as lesson video, (b) community-building tools offered by the internet, and (c) focused content that drives teachers' professional learning in mathematics.

This project addresses a critical need, developing professional development materials to address the teachers of ELLs. The project will create resources to help teachers build ELLs' mathematical proficiency through the design and development of professional development materials building on visual representations (VRs) for mathematical reasoning across a range of mathematical topics.

This project is exploring how curricula and assessment using dynamic, interactive scientific visualizations of complex phenomena can ensure that all students learn significant science content. Dynamic visualizations provide an alternative pathway for students to understand science concepts, which can be exploited to increase the accessibility of a range of important science concepts. Computer technologies offer unprecedented opportunities to design curricula and assessments using visual technologies and to explore them in research, teaching, and learning.

This project is based on the assumption that teachers often make modifications to curriculum; reordering, skipping or adding lessons, changing an "exploration" into a lecture, and so on. This project pursues three related questions: What types of modifications do teachers make (and why), which types of modifications best help students learn, and how do teachers' modifications change in response to professional development activities designed to help them become more attuned to students' thinking?

This project will work with middle school science teachers to design and evaluate a set of data management tools that will be embedded in a web-based science curriculum. The project helps middle school science teachers monitor their students' progress, plan lessons, and reflect on their lessons. This project will identify characteristics of data management tools that are more likely to be used effectively by teachers and have a positive impact on science teaching and learning.

Mississippi State University is identifying characteristics of exemplary African American elementary science teachers and examining the role of mentoring on beginning elementary science teachers and their students.

This project will examine middle school students’ learning of earth and physical sciences and their functional understanding of engineering design as they engage in newly developed environmental justice-oriented curriculum units in community-based service projects. In collaboration with middle school teachers and their students, two STEM units that integrate science inquiry, engineering design, and community-based service projects will be co-designed, implemented, and refined while examining students’ science and engineering learning and their development of science/STEM interest and agency.

This project will examine middle school students’ learning of earth and physical sciences and their functional understanding of engineering design as they engage in newly developed environmental justice-oriented curriculum units in community-based service projects. In collaboration with middle school teachers and their students, two STEM units that integrate science inquiry, engineering design, and community-based service projects will be co-designed, implemented, and refined while examining students’ science and engineering learning and their development of science/STEM interest and agency.