Projects

This project’s researchers are determining individual teacher effect estimates and investigating their stability across models. This study also investigates the instructional practices of a subsample of 30 highly effective and 30 less effective sixth-grade mathematics teachers using videotaped classroom lessons, which are coded and analyzed by researchers who are blind to the value-added effectiveness of the teachers.

This project is assessing the potential value and feasibility of developing and implementing content standards for K-12 engineering education. The project is reviewing existing efforts to define what students should know; identifying elements of existing standards for related content areas that could link to engineering; considering how purposes for engineering education might affect content and implementation of standards; and suggesting changes to policies, programs, and practices necessary to develop and implement engineering standards.

This project is developing, piloting, and implementing online professional development in support of inquiry, focusing on facilitation of student research. The goal is to determine what types of Web-based experiences and resources most effectively support middle school teachers in overcoming the substantial hurdles inherent in enabling students to design and conduct their own scientific experiments. The project creates and tests a series of Web-based professional development experiences for 7th and 8th grade teachers.

This project develops resources to facilitate the involvement of college and university physics departments in the professional development of K-12 teachers of physics and physical science. Research investigates how students and teachers learn content and reasoning skills for applying concepts to real world situations; how teachers can learn content in a way that helps them promote student learning; and how teachers can learn to assess student understanding in a way that promotes student learning.

This project improves science learning by students who are not achieving their potential in high quality inquiry-based programs. The project aims to achieve its goal by developing a computer program, My Science Tutor, which students will use immediately following classroom science investigations to reinforce and extend concepts embedded in the investigations. The program uses a lifelike animated character to engage students in guided learning activities and conversational tutorial dialogs that stimulate scientific reasoning.

This project is developing and testing digital versions of science materials for middle school and high school. Project partners are creating guidelines for universally designed materials; building an open-source authoring tool (Inquiry Science System,ISS) that enables transformation of science curricula into digitally supported versions incorporating UDL features; using the ISS to produce exemplars of units from tested instructional materials, and evaluating the benefits of these exemplars for students with and without learning disabilities.

This project researches the use of cyberinfrastructure to implement a strategy for using online telescopes as a laboratory to engage middle and high school students in cutting edge science research while providing them with significant new opportunities to apply STEM concepts, practice inquiry, and design and learn about the nature of scientific discovery.  

This project uses Antarctic pack-ice penguins to hook students into exploring how science investigates changes in Earths biota and climate. The project builds on a pilot effort, called Penguin Science, and will develop PowerPoint presentations, short video \"webisodes,\" background reading material, and live and interactive website components to engage students in ongoing field research. Students, K-14, will be involved in climate-change research that will include ecology, sedimentology, paleontology, glaciology and oceanography.

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.

This project is developing and testing comprehensive science curricula for the middle school and high school. Project partners are creating heuristics for universally designed materials; building an open source UDL Inquiry Science System (ISS) that enables science curricula to be transformed into digitally supported versions incorporating UDL features; and using the ISS to produce exemplars of units from tested instructional materials and evaluate the benefits of these exemplars for students with and without learning disabilities.

This project augmenting the traditional professional development model with an online professional development platform—the Active Physics Teacher Community—that provides just-in-time support for teachers as they are enacting targeted units of the Active Physics curriculum. Teachers are helped in preparing lessons by providing them with formal instruction related to the lessons they are teaching in the classroom. In addition, teachers can participate in a moderated forum where they can share experiences.

CAST, the University of Michigan, and EDC are collaborating to create heuristics for universally designed middle and high school science materials; to build an open-source UDL Inquiry Science System (ISS) that enables science curricula to be transformed into digitally supported versions that incorporate UDL features, to use the ISS to produce four UDL exemplars from tested instructional materials, and to evaluate the benefits of these exemplars for grades-5–12 students with and without learning disabilities.

This project is implementing a program of professional development for teachers and web interface that links scientists with urban classrooms. Scientist mentors work with students and teachers through the web to carry out an original "authentic" inquiry project in plant science. The classroom intervention involves high school biology students working in assigned teams to generate their own research questions in plant science centered on core biology concepts from the National Science Education Standards.

SPRINTT uses an innovative, live, online training format to train hundreds of teachers in how to teach life, Earth, and physical science content in a polar context. Polar scientists directly inform the content and participate in the training. SPRINTT provides teachers with existing and adapted, high-quality, standards-based curriculum materials and collaborates with science and education partners to simplify research data and create a user-friendly interface from which students perform their own authentic polar research projects.

This project develops mixed-initiative dialog and speech recognition technologies to encourage students to speak and reason about science concepts. It is part of a larger collaboration to help fourth and fifth grade students who are not achieving their potential in high quality inquiry-based programs. The larger collaboration develops and evaluates a computer program, MyST, to interactively engage students in spoken tutorial dialogs of four science investigations to reinforce and extend their understanding of science concepts.

This project partners high school science teachers and students with particle physicists working in experiments at the scientific frontier. These experiments are searching for answers to fundamental questions about the origin of mass, the dimensionality of spacetime and the nature of symmetries that govern physical processes. Among the experimental projects at the energy frontier with which the project is affiliated is the Large Hadron Collider, which is poised at the horizon of discovery.

A collaboration among educators, engineers, and mathematicians in three universities, this project is creating, implementing, and evaluating a one-year curriculum for teaching a non-calculus, fourth-year high school mathematics course and accompanied assessment instruments. The curriculum will draw on decision-making tools that include but go well beyond linear programming, to enhance student mathematical competence (particularly solving multi-step problems), improve students' attitudes toward mathematics, and promote states' adoption of the curriculum (initially NC and MI).

This project implemented a facets-of-thinking perspective to design tools and practices to improve high school chemistry teachers' formative assessment practices. Goals are to identify and develop clusters of facets related to key chemistry concepts; develop assessment items; enhance the assessment system for administering items, reporting results, and providing teacher resource materials; develop teacher professional development and resource materials; and examine whether student learning in chemistry improves in classes that incorporate a facet-based assessment system.

This project has two goals:

1) to discover methods that can efficiently obtain information about the effects of high school programs on eventual college success. Methods we are considering include obtaining transcripts from post-secondary institutions, surveying high school graduates, and obtaining information from the National Student Clearinghouse.

2) to explore how students who studied Contemporary Mathematics in Context (Core Plus) or the Integrated Mathematics Program (IMP) fare in post secondary institutions.

This project is designed to enhance an existing interdisciplinary high school science curriculum—Astrobiology in the Secondary Classroom (ASC)—in an innovative way and conduct research to determine the effectiveness of these materials in three different underrepresented student populations—African Americans, Hispanics, and Native Americas—experiencing an achievement gap in STEM areas at five sites. Improvements will focus on program alignment and increased use of data sets made available by research scientists.

Using an experimental design, this project examines the effects of online professional development courses on high school biology teachers' content and pedagogical knowledge, and on their students' knowledge. The project is testing the impact of using digital resouces and is using hierarchal linear modeling techniques to analyze data. It will contribute to the knowledge base of what impacts student achievement by testing the efficacy of online professional development for science teachers.

This project addresses middle school students’ learning of science through the improvement of their inquiry science skills. The main goal is to develop a rigorous, technology-based assessment system for standards-aligned assessment of inquiry skills in six physical science content areas (i.e., Properties of Matter; Elements, Compounds, and Mixtures; Motion of Objects; Forms of Energy; and Heat Energy). Assessments are aligned with the Massachusetts Curricular Framework and National Science Education Standards.

This study explores the ways middle school mathematics teachers implement standards-based curriculum materials in urban schools. It takes the view that instructional materials are cultural tools and examines how teachers use these tools to plan and implement the curriculum in their classrooms. The study is using a mixed methods approach that combines surveys of teachers in 30 schools in the Newark Public Schools district and closer observations of teachers in selected case schools.

This project addresses two grand challenges—cutting-edge STEM content and K-12 science assessments. Using DNA Sequencing Analysis Program (DSAP), which will be modified, high school students and teachers will learn molecular biology and modern genetics by working with authentic genomic sequences, and submit their findings for review by scientists. The objective is to develop state-of-the-art Web-based tools and resources that will make it possible for high school students to conduct authentic research in bioinformatics.

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.