Projects

This is a large-scale, cross-sectional, and longitudinal study aimed at understanding and supporting the teaching of science and engineering practices and academic language development of middle and high school students (grades 7-10) with a special emphasis on English language learners (ELLs) and a focus on biotechnology.

This project contributes to the small research base by exploring the validity of Technology-Enhanced Items (TEIs) in the context of elementary geometry. The project addresses three research questions: 1) To what extent are TEIs a valid measurement of geometry standards in the elementary grades?; 2) To what extent do TEIs provide an improved measurement compared to SR items?; and 3) What are the general characteristics of mathematics standards that might be better measured through TEIs?

This project aims to assist in the development and study of WeInvestigate, an application that will run on a mobile device. The application will help support learners as they engage in artifact construction using multiple media while two or more learners can be synchronously collaborating either face-to-face or at a distance. WeInvestigate is leveraging the research that learning in collaboration with others associated with higher engagement and learning outcomes.

This collaborative, exploratory, learning strand project focuses on improving reflective decision-making among elementary school students during the planning and re-design activities of the engineering design process. Five teacher researchers in three elementary schools provide the classroom laboratories for the study. Specified units from Engineering is Elementary, a well-studied curriculum, provide the engineering content.

The proposed project initiates new research and an integrated education plan to address specific problems in middle school mathematics classrooms by investigating (1) how to effectively differentiate instruction for middle school students at different reasoning levels; and (2) how to foster middle school students' algebraic reasoning and rational number knowledge in mutually supportive ways.

Technical assistance is being provided to key leaders in state education agencies (SEAs) to: 1) build SEA leaders' knowledge about effective mathematical professional development research; 2) deepen their understanding about necessary supports and structures that should be in place; and 3) enable SEA leaders to incorporate what they learn and analyze to their existing mathematics college- and career-readiness standards implementation plans.

The Colorado Learning Assistant (LA) model, recognized nationally as a hallmark teacher recruitment and preparation program, has run a national workshop annually for four years to disseminate and scale the program. This project expands the existing annual workshop to address changing needs of participants and to prepare eight additional faculty members to lead new regional workshops.

This is a four-year project to develop, implement, and study an experimental model of secondary science pre-service teacher education designed to prepare novice school teachers to provide effective science instruction to English language learners (ELLs). The project incorporates the principles underlying the Next Generation Science Standards with a focus on promoting students' scientific sense-making, comprehension and communication of scientific discourse, and productive use of language.

This collaborative, exploratory, learning strand project focuses on improving reflective decision-making among elementary school students during the planning and re-design activities of the engineering design process. Five teacher researchers in three elementary schools provide the classroom laboratories for the study. Specified units from Engineering is Elementary, a well-studied curriculum, provide the engineering content.

This working conference will help university professors who teach elementary mathematics methods courses learn to use Complex Instruction, a research-proven pedagogy for building mathematical content knowledge and supporting the learning of diverse students.

This exploratory proposal is researching and developing professional learning activities to help high school teachers use available and emerging social media to teach scientific argumentation. The project responds to the growing emphasis on scientific argumentation in new standards.

This exploratory project builds on twelve years of successful experience with the summer program for secondary mathematics teachers at PCMI. It addresses the following two needs in the field of professional development for secondary mathematics teachers: increase content knowledge and understanding of the Common Core State Standards for Mathematics; and investigate and develop alternative models to conduct content-based professional development that meets the recommendations of the MET-II report.

This project expands and augments a currently-funded NSF Noyce Track II teacher recruitment and retention grant with Quality Talk (QT), an innovative, scalable teacher-facilitated discourse model. Over the course of four years, the work will address critical needs in physics and chemistry education in 10th through 12th grade classrooms by strengthening the capacity of participating teachers to design and implement lessons that support effective dialogic interactions.

The development of six curricular projects that integrate mathematics based on the Common Core Mathematics Standards with science concepts from the Next Generation Science Standards combined with an engineering design pedagogy is the focus of this CAREER project.

This project provides elementary teachers, grades 3-5 with a pedagogical framework and related resources for distinguishing quality science teaching. The study focuses on developing and testing a framework, the Quality Science Teaching Continuum (QSTC), to determine its capacity to serve as a potent formative and collaborative tool with which teachers can reflect on their science teaching practices and recognize student behaviors that are indicators of engagement and science learning.

This project uses learning analytics and educational data mining methods to examine how elementary students learn in an online game designed to teach fractions using the splitting model. The project uses data to examine the following questions: 1) Is splitting an effective way to learn fractions?; 2) How do students learn by splitting?; 3) Are there common pathways students follow as they learn by splitting?; and 4) Are there optimal pathways for diverse learners?

This is a Faculty Early Career Development project aimed at developing, implementing, and assessing a model that introduces novice elementary school teachers to community-based engineering design as a strategy for teaching and learning in urban schools. Reflective of the new Framework for K-12 Science Education, the model addresses key crosscutting concepts, disciplinary core ideas, and scientific and engineering practices. It builds on theoretical perspectives and empirical foundations, including situated learning, engineering design cognition, and children's resources and funds of knowledge, including cultural and linguistic diversity.

This project will develop and study a professional development framework that is designed to help high school geometry teachers attend more carefully to student prior knowledge, interpret the learning implications of student prior knowledge, and adjust teaching practices accordingly. Participating teachers will participate in study groups that analyze animations of productive teaching practices; they will collaborate in planning, implementing, and analyzing geometry lessons; and they will critique videos of their own classroom instruction.

The goal of this project is to extend the theoretical and methodological construct of noticing to develop the concept of reciprocal noticing, a process by which teacher and student noticing are shared. The researcher argues that through reciprocal noticing the classroom can become the space for more equitable mathematics learning, particularly for language learners.

The main goal of this mathematics education research project is to determine through experimentation specific teaching strategies that can be used to support middle school students in drawing connections between mathematical representations (fractions and ratios). The potential instructional strategies were identified from the Third International Mathematics and Science Study (TIMSS) video analyses study as the ones that best distinguished high performing countries from low performing countries.

This project will document factors explaining variations in science achievement across schools enrolling ethnically and linguistically diverse students. The research question is: what leadership and organizational features at the school level are associated with mitigating science achievement gaps? Researchers, in collaboration with school districts, will identify school leadership practices that can be connected with reductions in achievement gaps related to student ethnicity, English fluency, and social status.

This CAREER proposal has four objectives: 1) examine the nature of mathematics teachers' learning opportunities for instructional improvement, 2) examine how work contexts influence the quality of teacher learning opportunities, 3) examine the impact of teacher learning opportunities on changes in student mathematics achievement over four years, and 4) work with district and school administrators to promote instructional improvement and student achievement by effectively providing learning opportunities to mathematics teachers.

In this project, researchers are working with 4th and 5th grade teachers to improve their mathematics instruction by experimenting with different ways to implement the MQI model of professional development. The professional development experiences are intentionally aligned with the Mathematical Quality of Instruction (MQI) observation instrument. This research can inform models of professional development by providing more information about various ways that the same model of professional development can be implemented.

This research project is an investigation of the role that examples play in helping learners become proficient in proving mathematical conjectures. Researchers are building a framework that characterizes the development of example use as students advance from middle school into post secondary school. Using this developmental information, the researchers are creating instructional strategies that help students think about the nature and value of proof as well as how to construct a mathematical proof.

This study is based on a theoretical model that embeds engineering design within social, cultural, and linguistic activity, seeking to understand (a) how adolescent English learners draw from various linguistic, representational, and social resources as they work toward solving community-based engineering design challenges; (b) the problems they face in working on the challenges and how they seek to overcome those problems; and (c) adolescents' willingness to conceptualize themselves as future engineers.