Professional Development

CASPIR is a 5-year NSF-funded project aimed at co-developing and implementing the Elementary Math Leadership (EML) model in four K-8 school districts to improve K-8 math teaching and learning. This is done by: (1) gathering information about problems of practice collaboratively identified by districts/research team; (2) co-designing and co-implementing coherent PD; and (3) engaging in iterative cycles of co-development, implementation, and revision to productively adapt the PD model over a series of years.

The project examines how representations of practice facilitate preservice teachers' professional knowledge for teaching fractions and multiplication/division. The project focuses specifically on: how single and multi-perspective 360 video affects PSTs' professional knowledge; how PSTs use technological scaffolds to engage in 360 video, and its effect on their professional knowledge; and the design of a platform for teacher educators to create their own 360 video immersive experiences

Co-PI(s): Richard E. Ferdig and C. C. Lu, Kent State University

Professional development (PD) is more effective when it involves more than lead classroom teachers. Collaborative Math is a year-long professional development program designed to bring together preschool center leadership and all teaching staff for an in-depth study of early mathematics teaching and learning. We implemented the program in a total of 15 Head Start centers across two years. We found positive shifts in teacher confidence and knowledge as well as child math achievement.

The goal of the design and development study, Proof in Secondary Classrooms (PISC), is to develop an innovative intervention to support the teaching and learning of mathematical proof in secondary geometry. PISC made use of features of lesson study and continuous improvement. Findings featured in the poster involve quantitative assessment results from pre-tests and post-tests administered over three years. Overall, the PISC curriculum had a statistically significant, positive impact on students' end-of-year results.

This exploratory project supports the professional development of secondary STEM teachers by providing multiyear training around three specific areas: (1) environmental sciences themed content; (2) technology integration in the classroom, and (3) classroom-based action research within action research communities. Using virtual reality to focus on wetlands and their connection to flooding brings locally relevant STEM concepts in a real-world context that is relatable to minoritized teachers and students living in these areas.

Young Mathematicians (YM) is a design and development project that aims to broaden participation by addressing the need to provide young children with early mathematics experiences. In the coming year, we will test an intervention, developed in collaboration with teachers and families, that provides learning experiences and materials for teachers and families to support adult-child interaction and engagement in mathematics, promote school-home connections in mathematics, and address adult attitudes toward mathematics, while promoting childrens mathematical knowledge.

In prior work, BSCS studied STeLLA, a video-based analysis-of-practice professional learning (PL) model and found that it enhanced elementary science teacher and student outcomes. But the face-to-face model is difficult to scale. We present the results of a two-year design-based research study to translate the face-to-face PL into a facilitated online experience. The purpose is to create an effective, flexible, and cost-efficient PL model that will reach a broader audience of teachers.

Co-PI(s): Gillian Roehrig, University of Minnesota

STRIDES supports teachers to customize the curriculum to address diverse students' evolving ideas and achieve the multi-dimensional proficiency called for by the Next Generation Science Standards (NGSS). STRIDES catalyzes a new approach to teachers' curriculum customization. STRIDES will improve the evidence teachers have to make customization decisions by collaborating with the Educational Testing Service (ETS) to advance natural language processing (NLP) methods.

Biologically-inspired design (BID) is a way of using principles from Nature to solve engineering design challenges. It is engaging, novel, and leverages sustainable technology produced by over 3 billion years of adaptation.