Projects

This project supports the participation of 50 U.S. elementary, middle, and high school mathematics teachers or supervisors, graduate students, community college/university mathematics teachers, mathematicians and teacher educators or researchers to attend the Twelfth International Congress for Mathematical Education (ICME-12) to be held in Seoul Korea from June 8 to July 15, 2012.

This project designs, constructs, and field-tests a web-based, online collaborative environment for supporting the teaching and learning of inquiry-based high school physics. Based on an interactive digital workbook environment, the team is customizing the platform to include scaffolds and other supports for learning physics, fostering interaction and collaboration within the classroom, and facilitating a design-based approach to scientific experiments.

This exploratory project seeks to understand the role that a network of tablet computers may play in elementary and middle school math and science classrooms. The project uses classroom observations, student interviews, teacher interviews, and student artifacts to identify the advantages and disadvantages of these resources, to understand what challenges and benefits they offer to teachers, and to offer recommendations for future hardware, software, and curriculum development.

This exploratory project seeks to understand the role that a network of tablet computers may play in elementary and middle school math and science classrooms. The study will use classroom observations, student interviews, teacher interviews and student artifacts to identify the advantages and disadvantages of these resources, understand what challenges and benefits they offer to teachers, and offer recommendations for future hardware, software, and curriculum development.

While simulations are powerful tools for scientific inquiry, most students need scaffolding to engage productively in simulation-based inquiry. This project will develop and study an automated feedback system designed to support middle school students' simulation-based inquiry into wildfires, floods, and hurricanes. The system, called Hazbot, will leverage advanced artificial intelligence (AI) technologies—including machine learning and large language models (LLMs)—to provide timely, personalized feedback as students investigate the three different natural hazards.

This project will investigate the integration of engineering design, practices, and thinking into middle school life science curriculum while providing opportunities for students to foster knowledge of and increase interest in life and biosciences. The project will specifically respond to the need to create, implement, and evaluate a model intervention that will advance the knowledge base for establishing and retaining underrepresented minorities in STEM fields.

This project is developing and testing curriculum materials and a professional development model designed to explore the potential for introducing engineering concepts in grades 3 - 5 through design challenges based on stories in popular children's literature. The research team hypothesizes that professional development for elementary teachers using an interdisciplinary method for combining literature with engineering design challenges will increase the implementation of engineering in 3-5 classrooms and have positive impacts on students.

This project will research the knowledge and supervision skills principals' and other instructional leaders' need to support teachers in successfully integrating scientific practices into their instruction, and develop innovative resources to support these leaders with a particular focus on high-minority, urban schools. The project will contribute to the emerging but limited literature on instructional leadership in science at the K-8 school level. 

This project investigates stereotype threat at the classroom level and in the context of inquiry-based instruction, in order to develop strategies and a related professional development course, using the principles of Universal Design for Learning, to help teachers learn how to mitigate stereotype threat.

This project is documenting how middle and secondary school science teachers first develop a perspective on science learning, translate that perspective into their own teaching practice and finally make explicit links to their colleagues. The research is investigating the impact of professional development based on model-based reasoning, supported by Lesson Study and an apprentice-like program in teacher leadership.

This is a continuing research project that supports (1) creation of what are termed "ink inscriptions"--handwritten sketches, graphs, maps, notes, etc. made on a computer using a pen-based interface, and (2) in-class communication of ink inscriptions via a set of connected wireless tablet computers. The primary products are substantiated research findings on the use of tablet computers and inscriptions in 4th and 5th grade math and science, as well as models for teacher education and use.

This is a project to develop a learning community model that spans the educational continuum. It connects teacher research participation experience (TRE) projects and science, technology, and mathematics (STM) industry and university scientists/professionals to research the factors that contribute to the success of such a model. It will mine both the Principal Investigator's and TRE projects, education and industry partnership immersion projects, and provide new education/workplace experiences for STM participants.

K-12 teachers are a critical resource for promoting equitable STEM achievement and attainment. Experimental research, however, rarely identifies specific, transferable STEM instructional practices, because STEM education research has typically implemented student-level randomization far more than it has implemented teacher-level randomization. A major barrier limiting scientific progress is the lack of a large-scale trialing infrastructure that can support teacher-level randomization and experimentation, given the logistical constraints of recruiting multiple sites and successfully randomizing at the teacher or classroom level. This Midscale Research Infrastructure Incubator will launch a two-year, accelerated process to address these challenges and develop a consensus plan for a STEM-teacher-focused trialing platform.

Coding is a key part of computer science, and promoting opportunities that engage learners in coding is vital to the U.S. workforce development. This project builds upon prior research that created a free coding app, OctoStudio, which is widely available for use in elementary and secondary schools. The goals of the project are twofold: First, the team will develop and design features that broaden the technology so that it is more accessible for more users. Second, the team will explore the usability of these new features across potential users. The new features will have potential to allow blind and low vision users to meaningfully engage in coding, which ultimately benefits society by broadening the STEM workforce and bringing coding to a greater population of students.

This project will study the aspects of genetics instruction that affect students' beliefs in neurogenetic essentialism, which is implicated in lowering girls' sense of STEM abilities, feeling of belonging in STEM classes, and interest in pursuing further education in STEM fields. The goal of the project is to answer important questions about how to teach genetics at the high school level in a manner that is scientifically accurate but does not have these detrimental side effects.

The goal of this project is to improve the implementation of rigorous instructional materials in middle-grades mathematics at scale through a system of practical measures and routines for collecting and using data that both assesses and supports implementation.

The goal of this project is to improve the implementation of rigorous instructional materials in middle-grades mathematics at scale through a system of practical measures and routines for collecting and using data that both assesses and supports implementation.

The goal of this project is to improve the implementation of rigorous instructional materials in middle-grades mathematics at scale through a system of practical measures and routines for collecting and using data that both assesses and supports implementation.

The goal of this project is to improve the implementation of rigorous instructional materials in middle-grades mathematics at scale through a system of practical measures and routines for collecting and using data that both assesses and supports implementation.

In this project teachers are introduced to the \"Diagnoser\" software and diagnostic testing both in workshops and online environments. The project is categorizing facets of student thinking in three more content areas: Properties of Matter, Heat and Temperature, and the Particulate Nature of Matter for students in grades five to ten. The project is also developing a framework for using diagnostic classroom tools in the delivery of professional development.

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 establishes a statewide teacher-researcher alliance of mathematics teachers and teacher leaders in Idaho, who will work with teacher educators at two universities with expertise in professional development and school-based research. The research focuses on two research-based strategies for improving students’ mathematics achievement. The first, Explicit Attention to Concepts, draws students’ attention specifically to the meaning of mathematical ideas while making connections between different ways to represent the content. The second, Students’ Opportunities to Struggle, helps students make sense of graspable new concepts through supported problem solving with peers, highlighting ways to overcome confusion, stimulate personal sense-making, build perseverance, and promote openness to challenge.

This project explores the mechanisms by which teachers translate what they learn from professional development into their teaching practice. The goal of this project is to study how the knowledge and skills teachers acquire during professional development (PD) translate into more conceptually oriented mathematics teaching and, in turn, into increased student learning.

This project will provide structured and meaningful scaffolds for teachers in examining two research-based teaching strategies hypothesized to positively impact mathematics achievement in the areas of mathematical modeling and problem solving. The project investigates whether the order in which teachers apply these practices within the teaching of mathematics content has an impact on student learning.

The overarching goal of this project is to develop innovative instructional resources and professional development to support middle grades teachers in meeting the challenges set by college- and career-ready standards for students' learning of algebra.