Equity

Professional Development for Culturally Relevant Teaching and Learning in Pre-K Mathematics

This project is creating and studying a professional development model to support preK teachers in developing culturally and developmentally appropriate practices in counting and early number. The proposed model is targeted at teachers of children in four-year-old kindergarten, and focuses on culturally relevant teaching and learning. The model stresses counting and basic number operations with the intention of exploring the domain as it connects to children's experiences in their homes and communities.

Award Number: 
1019431
Funding Period: 
Wed, 09/01/2010 to Fri, 08/31/2018
Project Evaluator: 
Victoria Jacobs
Full Description: 

Developers and researchers at the University of Wisconsin are creating and studying a professional development model that connects research in counting and early number (CGI), early childhood, and funds of knowledge. The proposed model is targeted at teachers of children in four-year-old kindergarten, and focuses on culturally relevant teaching and learning. The model stresses a specific, circumscribed content domain - counting and basic number operations - with the intention of exploring the domain in depth particularly as it connects to children's experiences in their homes and communities and how it is learned and taught through play.

The project designs, develops, and tests innovative resources and models for teachers to support ongoing professional learning communities. These learning communities are designed to identify and build on the rich mathematical understandings of all pre-K children. The project's specific goals are to instantiate a reciprocal "funds of knowledge" framework for (a) accessing children's out-of-school experiences in order to provide instruction that is equitable and culturally relevant and (b) developing culturally effective ways to support families in understanding how to mathematize their children's out-of-school activities. Teachers are observed weekly during the development and evaluation process and student assessments are used to measure students' progress toward meeting project benchmarks and the program's effectiveness in reducing or eliminating the achievement gap.

The outcome is a complete professional development model that includes written and digital materials. The product includes case studies, classroom video, examples of student work, and strategies for responding to students' understandings.

Language-Rich Inquiry Science with English Language Learners (LISELL)

This exploratory study develops and pilot-tests a model for improving science teaching and learning with middle school ELLs. Study goals include: (1) clarifying pedagogical constructs of language-rich science inquiry and the academic language of science and their relationships across the learning contexts of middle school science classrooms, teacher professional development and family science workshops, (2) developing and refining instruments to study these constructs in context, and (3) conducting pilot tests of the model and instruments.

Award Number: 
1019236
Funding Period: 
Sun, 08/15/2010 to Wed, 07/31/2013
Full Description: 

This exploratory study develops, pilot-tests, and refines a model for improving middle school English Language Learners' (ELLs) science learning. The model incorporates two pedagogical constructs (language-rich science inquiry and academic language development); and three learning settings (teacher professional development workshops, middle school science classrooms, and parent-student-teacher science workshops). The specific objectives of the study are: (1) to clarify the two pedagogical constructs and their relationships across the three learning contexts, (2) to develop and refine instruments that will be useful for the study of these constructs in these learning contexts, and (3) to conduct pilot tests of the model and instruments.

The study's development phase consists of the production, adaptation, and pilot testing of instructional strategies for teachers and learning materials for students. Instructional strategies for teachers are centered on three key inquiry practices: (a) coordinating theory and evidence, (b) controlling variables, and (c) cause and effect reasoning across 6th grade earth science, 7th grade life science, and 8th grade physical science. Learning materials for students consist of lessons in a workbook with units highlighting the study of academic language. Also, this phase of the study includes the development of resources to support parents' participation and measurement instruments to gather data during the research phase of the study.

The research phase of the study consists of pilot testing of the model. Two research questions guide the study: (1 What is the value for ELL students, their teachers and their parents of an instructional model that highlights language-rich science inquiry practices and academic language development strategies?; and (2)What is the value for ELL students, their teachers and their parents of an instructional model that is enacted in the contexts of middle school science classrooms, student-parent-teacher science workshops, and teacher professional development workshops? Assuming a quasi-experimental, pretest-posttest design, a power analysis defined a sample size of 1,000 middle school students (800 for the treatment group, and 200 for the control group) in 40 classrooms of three middle schools in the state of Georgia. A total of 12 teachers (8 science teachers and 2 English for Students of Other Languages teachers) were selected using a targeted strategy; and 40 randomly selected parents constitute the remaining population sample. The intervention consists of the use of teacher instructional strategies focused on exploring and elaborating cause-effect relationships, differentiating between evidence and theory, and identifying and controlling variables; students' use of instructional materials on academic language; and exploration of parents' science funds of knowledge. Data gathering strategies employ five instruments: (a) a teacher-focus-group interview protocol, (b) a teacher observation protocol, (c) a parent-student interview protocol, (d) a student academic language writing test, and (e) a student-constructed-response science inquiry test. Data interpretation strategies include qualitative analysis using narrative and semantic structure analysis and statistical analyses. An advisory board and an evaluator conduct the evaluation component of the study, inclusive of formative and summative aspects.

The outcome of this study is a research-informed and field-tested science instructional model focused on the improved learning of ELLs and a set of valid and reliable measuring instruments.

Differentiated Professional Development: Building Mathematics Knowledge for Teaching Struggling Learners

This project is creating and studying a blended professional development model (face-to-face and online) for mathematics teachers and special educators (grades 4-7) with an emphasis on teaching struggling math students in the areas of fractions, decimals, and positive/negative numbers (Common Core State Standards). The model's innovative design differentiates professional learning to address teachers' wide range of prior knowledge, experiences, and interests.

Award Number: 
1020163
Funding Period: 
Wed, 09/01/2010 to Wed, 08/31/2011
Project Evaluator: 
Teresa Duncan
Full Description: 

This project under the direction of the Education Development Center is creating and studying a  professional development model for middle school mathematics teachers with an emphasis on teaching struggling math students in the areas of fractions and rational numbers. There are three components to the PD for teachers: online modules, professional learning communities, and face-to-face workshops. There are four online modules 1) Fraction sense: concepts, addition, and subtraction, 2) Fraction multiplication and division; 3) Decimal and percent operations; and 4) Positive/Negative including concepts and operations. Each module is one week long. There are common sessions and special emphasis ones depending on the needs of the teacher. The project addresses three research questions: 1) To what extent do participating teachers show changes in their knowledge of rational numbers and integers, pedagogical knowledge of and beliefs about instructional practices for struggling students and abilities to use diagnostic approaches to identify and address student difficulties?; 2) To what extent do students of participating teachers increase their mathematical understanding and skill?; and 3) To what extent do students of participating teachers show positive changes in their attitudes toward learning mathematics?

In the first year of work on the professional development program, fifty-five teachers will test the initial components of the differentiated modules. In years two and three an additional 160 teachers will participate in the professional development and research to test efficacy of the professional development model. In addition to this testing, twelve teachers will be selected for intensive case studies. Teacher content knowledge, pedagogical content knowledge, and attitudes will be assessed by various well-validated instruments, and changes in their classroom practice will be assessed by classroom observations. Effects of the teacher professional development on student learning will be evaluated by analysis of data from state assessments and by performance on selected items from NAEP and other standardized tests.

This project will result in a tested innovative model for professional development of mathematics teachers to help them with the critical challenge of assisting students who struggle in learning the core concepts and skills of rational numbers and integers. Deliverables will include the on-line modules, materials for workshop and professional learning community work, new research instruments, and research reports.

Using PISA to Develop Activities for Teacher Education (UPDATE)

This project uses items and data from the Program for International Student Assessment (PISA) to develop two kinds of resources for preparation and professional development of secondary mathematics teachers: one in the form of prototype professional learning materials and a second in the form of PISA-based, research-grounded articles written for mathematics teachers and teacher educators. Work on both resources will focus on algebra and quantitative literacy and on factors influencing educational equity.

Lead Organization(s): 
Partner Organization(s): 
Award Number: 
1019513
Funding Period: 
Wed, 09/01/2010 to Fri, 08/31/2012
Full Description: 

The UPDATE project seeks to enable significant advances in K-12 teacher and student learning of mathematics by using of items and data from the Program for International Student Assessment (PISA) in ways that enhance the work of mathematics teachers and teacher educators. We hypothesize that PISA can be useful to the field in much the same way as the National Assessment of Educational Progress (NAEP), which has long served as a key source of information for the mathematics education community. In contrast to NAEP and TIMSS, the Program for International Student Assessment (PISA) in the area of mathematics has received little or no attention within the U.S. mathematics education community, beyond noting that the performance of U.S. students is mediocre compared to that of students in many other countries in Asia and Europe. A consequence of the lack of attention to PISA in the U.S. is that we have underutilized a potentially valuable source of information for improvement of mathematics education.

In this project we use PISA as a base to develop resources for mathematics educators to use in teacher education settings. One type of resource comes in the form of prototype professional learning materials that provide opportunities for teachers and students to analyze complex mathematical tasks and student responses to those tasks, focusing on both the mathematics entailed in the task and the understandings of mathematics reflected in students’ responses. The materials will be designed to engage teachers in individual and collaborative inquiry aimed at developing their specialized content knowledge and their pedagogical content knowledge. Materials will be field tested in preservice and inservice teacher professional education settings and also shared at regional and national meetings. A second type of resource comes in the form of PISA-based, research-grounded articles written specifically for mathematics teachers and teacher educators and published in journals that reach these audiences. The articles will be informed not only by our experiences in developing and using the prototype materials, but also by the findings of selected secondary analyses of data collected in the 2003 PISA assessment.

Our work is organized around three distinct focus areas: (1) Algebra – a traditional content topic familiar to mathematics teachers that can be approached in a novel way through PISA tasks; (2) Quantitative Literacy – a nontraditional content topic less familiar to mathematics teachers that can be accessed directly through PISA tasks, and (3) Equity – an issue of import to mathematics educators that can be examined carefully using PISA data. In each component our work blends research inquiry and development, integrating the analysis of tasks and data from the PISA mathematics assessment with the creation of prototype teacher education materials and the preparation of PISA-based, research-grounded articles for teachers and teacher educators.

The results of this exploratory study will be disseminated broadly, and they are likely to generate new activity in research and development related to PISA. Mirroring the tradition of the interpretive reports of NAEP results, we will produce PISA-based resources that can have a significant impact on the mathematics education community as teachers, teacher educators, and graduate students examine the materials and reports we produce and use them to improve the quality of teacher and student learning of mathematics.

This exploratory project led by faculty from the University of Michigan uses items and data from the Program for International Student Assessment (PISA) to develop two kinds of resources for preparation and professional development of secondary mathematics teachers. One type of resource comes in the form of prototype professional learning materials that provide opportunities for teachers and students to analyze complex mathematical tasks and student responses to those tasks, focusing on both the mathematics entailed in the task and the understandings of mathematics reflected in students' responses. A second type of resource comes in the form of PISA-based, research-grounded articles written specifically for mathematics teachers and teacher educators. Work on both resources will focus on the critical content areas of algebra and quantitative literacy and on factors influencing educational equity.

The project is driven by the hypothesis that PISA assessment instruments and findings can be useful to teachers in much the way that prior analyses of NAEP frameworks, items, and data have been. To address the first project objective, the research team will use selected PISA items and student responses to those items to design, develop, and test a collection of professional learning tasks that engage mathematics teachers in individual and collaborative inquiry aimed at enhancing their specialized content knowledge and their pedagogical content knowledge. To address the second project objective, the research team will prepare articles for practitioner journals that will be informed by experiences in developing and using the prototype materials, but also by the findings of selected secondary analyses of data collected in the 2003 PISA assessment.

The results of this work will be a collection of resources for use in various teacher preparation and professional development settings to stimulate thinking of secondary mathematics teachers about issues of curriculum content, student learning, teaching, and assessment.

CAREER: Examining the Role of Context in the Mathematical Learning of Young Children

This project involves a longitudinal, ethnographic study of children's mathematical performances from preschool to first grade in both formal classroom settings and informal settings at school and home. The study seeks to identify opportunities for mathematical learning, to map varied performances of mathematical competence, to chart changes in mathematical performance over time, and to design and assess the impact of case studies for teacher education.

Award Number: 
1461468
Funding Period: 
Mon, 06/15/2009 to Tue, 05/31/2011
Full Description: 

This project involves a longitudinal, ethnographic study of children's mathematical performances from preschool to first grade in both formal classroom settings and informal settings at school and home. The proposed site for the study is a small, predominately African-American pk-12 school. The study seeks to identify opportunities for mathematical learning by young children across multiple contexts, to map varied performances of mathematical competence by young children, to chart changes in young children's mathematical performance over time, and to design and assess the impact of case studies for teacher education that explore young children's mathematical competencies. Research questions focus on mathematical opportunities for learning in various contexts, children's development of knowledge, skills, and dispositions over time, the characteristics of competent mathematical performances, and the role of case studies in helping beginning teachers to understand young minority children's mathematical thinking. Data collected will include video tapes of classroom activities, written fieldnotes of formal and informal settings, student work, parent focus group transcripts, and children's interview performances. Analysis will involve both thematic coding and construction of case studies. The overarching goal of this project is to transform the ways that researchers think about and study the mathematical learning of young minority children as well as the quality of schooling these children experience.

Nurturing Mathematics Dreamkeepers

This study targets elementary schools with a documented achievement gap between White American and African American students and investigates: (a) the ways K-2 teachers draw upon their current knowledge (mathematical, cultural, pedagogical) to make sense of African American students' conceptions; (b) how teachers might advance their practice through understanding of the relationship between students' cultural experiences and mathematical conceptions; and (c) to what extent this advancement brings forth solid foundations in mathematics among all students.

Partner Organization(s): 
Award Number: 
0353412
Funding Period: 
Wed, 09/01/2004 to Wed, 08/31/2011

Math Pathways and Pitfalls: Capturing What Works for Anytime Anyplace Professional Development

Math Pathways & Pitfalls lessons for students boost mathematics achievement for diverse students, including English Learners, English Proficient students, and Latino students. This project develops modules that increase teachers’ capacity to employ the effective and equitable principles of practice embodied by Math Pathways & Pitfalls and apply these practices to any mathematics lesson. This four-year project develops, field tests, and evaluates 10 online professional development modules.

Lead Organization(s): 
Award Number: 
0918834
Funding Period: 
Tue, 09/15/2009 to Fri, 08/31/2012
Full Description: 

Researchers and developers at WestEd are developing, field-testing, and evaluating ten online professional development modules anchored in research-based teaching principles and achievement-boosting mathematics materials. The modules provide interactive learning opportunities featuring real classroom video demonstrations, simulations, and scaffolded implementation. The professional development module development builds on the Math Pathways and Pitfalls instructional modules for elementary and middle school students developed with NSF support. The professional development provided through the use of these modules is web-based (rather than face-to-face), is provided in chunks during the school year and immediately applied in the classroom (rather than summer professional development and school year application), and explicitly models ways to apply key teaching principles to regular mathematics lessons (rather than expecting teachers to extract and apply principles spontaneously).

The project studies the impact of the modules on teaching practice with an experimental design that involves 20 treatment teachers and 20 control teachers. Data are gathered from teacher questionnaires, classroom observations, and post-observation interviews.

Communities of Effective Practice: A Professional Stem Development Model for Teachers of American Indian Students

This project establishes and implements a professional development model with teachers of Native American students by creating a culturally relevant science, technology, engineering and mathematics teacher in-service model. The project seeks to improve teacher preparation in science and mathematics for Native Americans by creating culturally relevant curriculum materials and providing teacher participants with structured professional development. The goal is to develop an in-service model that can be transported to other Native American nations and schools.

Lead Organization(s): 
Partner Organization(s): 
Award Number: 
0554472
Funding Period: 
Mon, 05/01/2006 to Fri, 04/30/2010

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

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