Preservice Teachers

Cyber-enabled Design Research to Enhance Teachers' Critical Thinking Using a Major Video Collection on Children's Mathematical Reasoning (Collaborative Research: Derry)

This project is demonstrating the use of cyber-enabled technologies to build and share adaptable interventions for pre- and in-service teacher growth that effectively make use of major video collections and have high promise of success at multiple sites. The cyber infrastructure being significantly extended through this project is supporting development and documentation of additional interventions for teacher professional development using this video collection, as well as other videos that might be added in the future.

Award Number: 
0822189
Funding Period: 
Mon, 09/15/2008 to Fri, 08/31/2012
Full Description: 

The Video Mosaic Collaborative features  videos of student mathematics reasoning,  tools and services to encourage learning, research and practices fostering the development of student reasoning.  The VMC is a collection and service portal intended to support three primary audiences—teacher educators and their pre-service and in-service students, practicing teachers, and researchers.  The Video Mosaic Collaborative features a 22-year longitudinal study of students’ mathematical reasoning skills as they are developed from elementary through high school grades.  The VMC has been carefully designed to leverage the insights and strategies that can be mined in this extensive and unique video collection featuring observations, interventions and interviews with students solving mathematics problems in the classroom and in informal learning settings.  A careful metadata strategy was designed by the library and education research partners in collaboration to capture elements for searching that include forms of reasoning and heuristics, math strand, math problem, NCTM standards, grade level and type of educational environment.  Students and researchers are identified and can be individually tracked through the collection.  Transcripts, student work and dissertations resulting from the videos are linked in metadata.  Tools, such as the VMCAnalytic, a video annotation and analysis tool, are provided to enable registered participants to reuse the videos for instruction, study and research by creating personal clips and combining clips to accomplish research goals such as demonstrating changes in reasoning for an individual student studying probability over several video sessions.  Unlike other video annotation tool, the VMC analytic creates  XML-based independent resources that can be kept private in the researcher’s workspace but that can also be shared.  Shared analytics will be mined for keywords, which will retrieve the video(s) being analyzed, thus adding user tagging to the metadata for the videos.  The analytic resources created are not independently searched and displayed but will display as part of the context for the videos in the collection, along with student work, dissertations, and ultimately published articles, etc., all of which form the critical context of research and study surrounding each video.

Different search strategies, guidance in using videos and opportunities to consult or collaborate with others will be provided for each primary audience of the VMC.  The latest iteration of the portal, with collections and services available for immediate use, will be presented and demonstrated at the DRK12 Principal Investigators’ meeting poster session.  Visitors to the poster will be encouraged to search the portal and to create a small analytic, in a hands-on, interactive one on one demonstration.  We believe that the VMC makes a unique and significant contribution to the efforts of teacher educators, practicing teachers and researchers to discover insights and develop innovative strategies to support the development of student reasoning in mathematics education.

Tool Systems to Support Progress Toward Expert-like Teaching by Early Career Science Educators

The goal of this project is to accelerate the progress of early-career and pre-service science teachers from novice to expert-like pedagogical reasoning and practice by developing and studying a system of discourse tools. The tools are aimed at developing teachers' capabilities in shaping instruction around the most fundamental science ideas; scaffolding student thinking; and adapting instruction to diverse student populations by collecting and analyzing student data on their thinking levels.

Lead Organization(s): 
Partner Organization(s): 
Award Number: 
0822016
Funding Period: 
Mon, 09/15/2008 to Fri, 08/31/2012
Project Evaluator: 
Jim Minstrell

Cases of Reasoning and Proving in Secondary Mathematics (CORP)

Researchers are developing a practice-based curriculum for the professional education of preservice and practicing secondary mathematics teachers that focuses on reasoning and proving; has narrative cases as a central component; and supports the development of knowledge of mathematics needed for teaching. This curriculum is comprised of eight constellations of activities that focus on key aspects of reasoning and proving such as identifying patterns; making conjectures; providing proofs; and providing non-proof arguments.

Lead Organization(s): 
Partner Organization(s): 
Award Number: 
0732798
Funding Period: 
Sat, 09/01/2007 to Fri, 08/31/2012

Cyber-enabled Earth Exploration: Development of Materials for Middle School Earth Science Instruction

This project is developing new instructional materials for middle school earth science classes that incorporate emerging cyber-enabled technologies such as Google Earth as a transformative data analysis tool. The materials emphasize the use of claims, evidence, and reasoning in the exploration of volcanoes, earthquakes, and plate tectonics, leading students through a process of discovery to help them build a deeper understanding of the driving forces and resulting manifestations of plate tectonics.

Lead Organization(s): 
Award Number: 
0918683
Funding Period: 
Sat, 08/01/2009 to Tue, 07/31/2012
Project Evaluator: 
Randy Knuth
Full Description: 

Cyber-Enabled Earth Exploration (CE3) is a research and development project aimed at motivating and challenging students in science, which has been identified as one of the reasons the U.S. lags behind other nations on an array of economic and educational indicators (National Center on Education and the Economy 2006). The project will develop new instructional materials for middle school science teachers that help create a compelling classroom culture of scientific discovery, engage students in the creative opportunities that abound in science, and inspire them to pursue the high school science coursework needed for future careers in science.

The materials will incorporate emerging and widely available technologies such as Google Earth to engage middle school students in exploring an essential science question, “Does the Earth’s structure affect you?”  The use of computer technologies has been shown to successfully motivate middle school students (Pelligrino 2000), and the use of an integrated Earth system science approach provides the knowledge base, methodologies, and global context to make science accessible, relevant and meaningful for middle school students.

A complete learning unit and teacher’s guide will be developed by a team of experts in K-12 curriculum design, geology, and geography, using a Learning-for-Use curriculum design framework.  The materials will be tested for ease-of-use and effectiveness in approximately ten classrooms across Montana, which include both large and small class sizes, urban and rural communities, and white and Native American students. Participating teachers will provide feedback to help guide revision of the materials, which will subsequently be disseminated to the national K-12 community.

The intellectual merits of CE3 include: (1) creation of an innovative, technology-rich curriculum that engages students and teachers in authentic scientific questions about essential Earth systems science concepts; (2) introduction of the use of Google Earth as a new and potentially transformative data analysis tool for teachers and students; and (3) strengthening of curriculum models that help students acquire skills in problem solving, information management, communication, the integration of quantitative and qualitative data, and critical and creative thinking skills.

The broader impacts include: (1) partnering among researchers and educators to develop, test, adapt, and disseminate new research-based approaches to science teaching, (2) participation of underserved rural and tribal schools in state-of-the-art educational practices, (3) development of next-generation instructional materials that will be made available to K-12 educators across the country, (4) dissemination of project results through several multidisciplinary conferences, and (5) geosciences learning materials that incorporate the societal implications of earth processes, which better prepare students to become engaged global citizens.

Supports for Learning to Manage Classroom Discussions: Exploring the Role of Practical Rationality and Mathematical Knowledge for Teaching

This project focuses on practicing and preservice secondary mathematics teachers and mathematics teacher educators. The project is researching, designing, and developing materials for preservice secondary mathematics teachers that enable them to acquire the mathematical knowledge and situated rationality central to teaching, in particular as it regards the leading of mathematical discussions in classrooms.

Award Number: 
0918425
Funding Period: 
Tue, 09/01/2009 to Fri, 08/31/2018
Project Evaluator: 
Miriam Gamoran Sherin
Full Description: 

Researchers at the Universities of Michigan and Maryland are developing materials to survey the rationality behind secondary mathematics teaching practice and to support the development by secondary mathematics preservice teachers of specialized knowledge and skills for teaching. The project focuses on the leading of classroom discussions for the learning of algebra and geometry.

Using animations of instructional scenarios, the project is developing online, multimedia questionnaires and using them to assess practicing teachers' mathematical knowledge for teaching and their evaluations of teacher decision making. Reports and forum entries from the questionnaires are integrated into a learning environment for prospective teachers and their instructors built around these animated scenarios. This environment allows pre-service teachers to navigate, annotate, and communicate about the scenarios; and it allows their instructors to plan using those scenarios and share experiences with their counterparts.

The research on teachers' rationality uses an experimental design with embedded one-way ANOVA, while the development of the learning environment uses a process of iterative design, implementation, and evaluation. The project evaluation by researchers at Northwestern University uses qualitative methods to examine the content provided in the environment as well as the usefulness perceived by teacher educators of a state network and their students.

Active Physics Teacher Community

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.

Award Number: 
0733268
Funding Period: 
Sat, 09/15/2007 to Tue, 08/31/2010

The INSPIRES Curriculum for Engineering and Technology Education

This project is designing, developing, and testing a model that delivers effective teacher PD to in-service and preservice teachers to enable the successful implementation of engineering curricula. Research is performed to evaluate the impacts of the curricular materials and the teacher PD framework on classroom instructional practices and student learning, interests, and attitudes and to evaluate which curriculum components are most effective in promoting student learning and interest as a function of gender and ethnicity.

Award Number: 
0822286
Funding Period: 
Mon, 09/15/2008 to Wed, 08/31/2011

Conference 2008 -- Integrating Science and Mathematics Education Research into Teaching IV: Resources and Tool for Improved Learning

The purposes of this conference include bringing together 150 participants from all aspects of STEM education to exchange ideas about research, curriculum, and assessment; to help teachers integrate research-based instructional strategies in their teaching; and to build sustainable collaborations between participants. It includes three days of parallel presentations and discussion followed by a two-day summer academy. A focus on research-based strategies that advance the successful participation of underrepresented groups is embedded in all activities.

Lead Organization(s): 
Partner Organization(s): 
Award Number: 
0736967
Funding Period: 
Thu, 05/01/2008 to Fri, 04/30/2010

Connecting Content and Pedagogical Education of Pre-service Teachers (CONCEPT)

The primary goal of the project is to enhance secondary mathematics teacher education for pre-service teachers by developing, implementing and disseminating resources from a four-course curriculum that brings together the study of mathematics content and pedagogy. Three of the courses are problem-based technology enhanced (PBTE) courses in Algebra and Calculus, Geometry, and Probability and Statistics. A fourth course is a capstone course in Teaching and Learning Secondary School Mathematics.

Lead Organization(s): 
Award Number: 
0455797
Funding Period: 
Wed, 06/01/2005 to Sun, 05/31/2009

Video Interactions for Teaching and Learning (VITAL): A Learning Environment for Courses in Early Childhood Mathematics Education

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.

Lead Organization(s): 
Award Number: 
0353402
Funding Period: 
Tue, 06/01/2004 to Mon, 11/30/2009

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