Early State/Exploratory

Articulating a Transformative Approach for Designing Tasks that Measure Young Learners' Developing Proficiencies in Integrated Science and Literacy (Collaborative Research: Harris)

The main goal of this study will be to conduct exploratory-design work to produce both the design approach and the early-stage tasks that are critical inputs for creating a program of research and development to more fully develop a suite of innovative assessment tasks for the early grades.

Lead Organization(s): 
Award Number: 
1903103
Funding Period: 
Sat, 12/15/2018 to Sat, 11/30/2019
Full Description: 

SRI International, University of California-Berkeley (Lawrence Hall of Science), and WestEd will join efforts to articulate a potentially transformative approach for designing new kinds of classroom-based, three-dimensional assessment tasks that measure first graders' proficiencies in integrated science and literacy learning. The main goal of this study will be to conduct exploratory-design work to produce both the design approach and the early-stage tasks that are critical inputs for creating a program of research and development to more fully develop a suite of innovative assessment tasks for the early grades. Specific goals of the effort will be: (1) to iteratively develop and refine a design approach that enables assessment designers to develop Next Generation Science Standards (NGSS)-aligned tasks and rubrics that include a literacy component for the early grades; (2) to use this design approach to create two exemplar assessment tasks that are feasible for classroom use; and (3) to collect initial evidence that informs the promise of the design approach.

The work's research question will be: How can we extend current methodology to create assessments that integrate the three dimensions of the NGSS and literacy for early learners? The study will select first grade as the learning environment and two of the NGSS first grade performance expectations as the assessment targets. First grade students are typically at a critical point in developing their language and literacy proficiencies, which will allow the team to take on the challenges of variation in language and literacy skills. Correspondingly, the study will select two NGSS first grade life sciences performance expectations, because they include direct ties to literacy practices in science: (1) From Molecules to Organisms: Structures and Processes (Read texts and use media to determine patterns in behavior of parents and offspring that help offspring survive); and (2) Heredity: Inheritance and Variation of Traits (Make observations to construct an evidence-based account that young plants and animals are like, but not exactly like their parents). The design phase of the activity will consist of an assessment of the learning context and targets of the study, and the development of an assessment framework following the National Research Center's report, "Designing Assessments for the Next Generation Science Standards" (2014), including the principled assessment evidence-centered-design methodology. Data gathering, and interpretation strategies will include Experts' Review of the design approach, a focus group of teachers (n=8), and one-on-one cognitive interviews with students (n=20), conducted by researchers, which will be recorded to determine the quality and usability of the assessments using qualitative methods. The ultimate outcome of the proposed work will be a design approach for creating assessment tasks in a principled way across science disciplines for early elementary grade students. An advisory board will provide formative assessment feedback to the research team.

Articulating a Transformative Approach for Designing Tasks that Measure Young Learners' Developing Proficiencies in Integrated Science and Literacy (Collaborative Research: Rutstein)

The main goal of this study will be to conduct exploratory-design work to produce both the design approach and the early-stage tasks that are critical inputs for creating a program of research and development to more fully develop a suite of innovative assessment tasks for the early grades.

Lead Organization(s): 
Award Number: 
1853923
Funding Period: 
Sat, 12/15/2018 to Sat, 11/30/2019
Full Description: 

SRI International, University of California-Berkeley (Lawrence Hall of Science), and WestEd will join efforts to articulate a potentially transformative approach for designing new kinds of classroom-based, three-dimensional assessment tasks that measure first graders' proficiencies in integrated science and literacy learning. The main goal of this study will be to conduct exploratory-design work to produce both the design approach and the early-stage tasks that are critical inputs for creating a program of research and development to more fully develop a suite of innovative assessment tasks for the early grades. Specific goals of the effort will be: (1) to iteratively develop and refine a design approach that enables assessment designers to develop Next Generation Science Standards (NGSS)-aligned tasks and rubrics that include a literacy component for the early grades; (2) to use this design approach to create two exemplar assessment tasks that are feasible for classroom use; and (3) to collect initial evidence that informs the promise of the design approach.

The work's research question will be: How can we extend current methodology to create assessments that integrate the three dimensions of the NGSS and literacy for early learners? The study will select first grade as the learning environment and two of the NGSS first grade performance expectations as the assessment targets. First grade students are typically at a critical point in developing their language and literacy proficiencies, which will allow the team to take on the challenges of variation in language and literacy skills. Correspondingly, the study will select two NGSS first grade life sciences performance expectations, because they include direct ties to literacy practices in science: (1) From Molecules to Organisms: Structures and Processes (Read texts and use media to determine patterns in behavior of parents and offspring that help offspring survive); and (2) Heredity: Inheritance and Variation of Traits (Make observations to construct an evidence-based account that young plants and animals are like, but not exactly like their parents). The design phase of the activity will consist of an assessment of the learning context and targets of the study, and the development of an assessment framework following the National Research Center's report, "Designing Assessments for the Next Generation Science Standards" (2014), including the principled assessment evidence-centered-design methodology. Data gathering, and interpretation strategies will include Experts' Review of the design approach, a focus group of teachers (n=8), and one-on-one cognitive interviews with students (n=20), conducted by researchers, which will be recorded to determine the quality and usability of the assessments using qualitative methods. The ultimate outcome of the proposed work will be a design approach for creating assessment tasks in a principled way across science disciplines for early elementary grade students. An advisory board will provide formative assessment feedback to the research team.

Articulating a Transformative Approach for Designing Tasks that Measure Young Learners' Developing Proficiencies in Integrated Science and Literacy (Collaborative Research: Billman)

The main goal of this study will be to conduct exploratory-design work to produce both the design approach and the early-stage tasks that are critical inputs for creating a program of research and development to more fully develop a suite of innovative assessment tasks for the early grades.

Partner Organization(s): 
Award Number: 
1853951
Funding Period: 
Sat, 12/15/2018 to Sat, 11/30/2019
Full Description: 

SRI International, University of California-Berkeley (Lawrence Hall of Science), and WestEd will join efforts to articulate a potentially transformative approach for designing new kinds of classroom-based, three-dimensional assessment tasks that measure first graders' proficiencies in integrated science and literacy learning. The main goal of this study will be to conduct exploratory-design work to produce both the design approach and the early-stage tasks that are critical inputs for creating a program of research and development to more fully develop a suite of innovative assessment tasks for the early grades. Specific goals of the effort will be: (1) to iteratively develop and refine a design approach that enables assessment designers to develop Next Generation Science Standards (NGSS)-aligned tasks and rubrics that include a literacy component for the early grades; (2) to use this design approach to create two exemplar assessment tasks that are feasible for classroom use; and (3) to collect initial evidence that informs the promise of the design approach.

The work's research question will be: How can we extend current methodology to create assessments that integrate the three dimensions of the NGSS and literacy for early learners? The study will select first grade as the learning environment and two of the NGSS first grade performance expectations as the assessment targets. First grade students are typically at a critical point in developing their language and literacy proficiencies, which will allow the team to take on the challenges of variation in language and literacy skills. Correspondingly, the study will select two NGSS first grade life sciences performance expectations, because they include direct ties to literacy practices in science: (1) From Molecules to Organisms: Structures and Processes (Read texts and use media to determine patterns in behavior of parents and offspring that help offspring survive); and (2) Heredity: Inheritance and Variation of Traits (Make observations to construct an evidence-based account that young plants and animals are like, but not exactly like their parents). The design phase of the activity will consist of an assessment of the learning context and targets of the study, and the development of an assessment framework following the National Research Center's report, "Designing Assessments for the Next Generation Science Standards" (2014), including the principled assessment evidence-centered-design methodology. Data gathering, and interpretation strategies will include Experts' Review of the design approach, a focus group of teachers (n=8), and one-on-one cognitive interviews with students (n=20), conducted by researchers, which will be recorded to determine the quality and usability of the assessments using qualitative methods. The ultimate outcome of the proposed work will be a design approach for creating assessment tasks in a principled way across science disciplines for early elementary grade students. An advisory board will provide formative assessment feedback to the research team.

CAREER: Cultivating Teachers' Epistemic Empathy to Promote Responsive Teaching

This CAREER award aims to study the construct of "epistemic empathy" and examine how it can be cultivated in science and mathematics teacher education, how it functions to promote responsive teaching, and how it shapes learners' engagement in the classroom. In the context of this project, epistemic empathy is defined as the act of understanding and appreciating another's cognitive and emotional experience within an epistemic activity aimed at the construction, communication, and critique of knowledge.

Lead Organization(s): 
Award Number: 
1844453
Funding Period: 
Mon, 07/01/2019 to Sun, 06/30/2024
Full Description: 

When students perceive that their sense-making resources, including their cultural, linguistic, and everyday experiences, are not relevant to their science and mathematics classrooms, they may view these fields as inaccessible to them. This in turn creates an obstacle to their engagement and active participation which becomes particularly consequential for students from traditionally underrepresented populations. This issue points at the pressing need to prepare science and mathematics teachers to open up their instruction to students’ diverse ideas and meaning-making repertoires. This CAREER award aims to address this need by studying the construct of teachers’ "epistemic empathy” which is defined as the act of understanding and appreciating another's cognitive and emotional experience within an epistemic activity—an activity aimed at the construction, communication, and critique of knowledge. Through epistemic empathy, teachers take learners' perspectives and identify with their sense-making experiences in service of fostering their inquiries. The project’s goals are to examine how epistemic empathy can be cultivated in science and mathematics teacher education, how it functions to promote responsive teaching, and how it shapes learners' engagement in the classroom.

The five research questions will be: (1) Do the ways in which pre-service teachers display epistemic empathy change throughout a course aimed at promoting attention to and knowledge about learners’ varied ways of knowing in science and mathematics?; (2) How do the teaching domain and teaching context influence how teachers express epistemic empathy, and the concerns and tensions they report around empathizing with learners’ thinking and emotions?; (3) How does epistemic empathy shape the ways in which teachers understand and reflect on their roles, goals, and priorities as science or mathematics teachers?; (4) How does epistemic empathy shape teachers’ responsiveness to student thinking and emotions during instruction?; and (5) How does teachers’ epistemic empathy influence how students orient and respond to each other’s thinking in science and mathematics classrooms?

To address these questions, the project will conduct a series of design-based research studies working with science and mathematics pre-service and in-service K-12 teachers (n=140) to design, implement, and analyze ways to elicit and cultivate their epistemic empathy. Further, the project will explore how epistemic empathy shapes teachers’ views of their roles, goals, and priorities as science or mathematics teachers and how it influences their enactment of responsive teaching practices. The project will also examine the influence of teachers’ epistemic empathy on student engagement, in particular in the ways students attend and respond to each other’s epistemic experiences in the classroom. Data collection will include video and audio recording of teacher education and professional development sessions; collection of teachers’ work within those sessions such as their responses to a pre- and post- video assessment task and their written analyses of different videos of student inquiry; interviews with the teachers; and videos from the teachers’ own instruction as well as teachers’ reflections on these videos in stimulated recall interviews. These data will be analyzed using both qualitative methods (i.e., discourse analysis, interaction analysis) and quantitative methods (i.e., blind coding, descriptive statistics). The project’s outcomes will be: (1) an instructional model that targets epistemic empathy as a pedagogical resource for teachers, with exemplars of activities and tasks aimed at developing teachers' attunement to and ways of leveraging learners' meaning-making repertoires (2) local theory of teachers' learning to epistemically empathize with learners in science and mathematics; and (3) empirical descriptions of how epistemic empathy functions to guide and shape teachers' responsiveness and students' engagement. An advisory board will provide feedback on the project’s progress, as well as formative and summative evaluation.

An Integrated Approach to Early Elementary Earth and Space Science

This project will study if, how, and under what circumstances an integration of literacy strategies, hands-on inquiry-based investigations, and planetarium experiences supports the development of science practices (noticing, recognizing change, making predictions, and constructing explanations) in early elementary level students. The project will generate knowledge about how astronomy-focused storybooks, hands-on investigations, and planetarium experiences can be integrated to develop age-appropriate science practices in very young children.

Award Number: 
1813189
Funding Period: 
Sat, 09/01/2018 to Mon, 08/31/2020
Full Description: 

State science standards increasingly emphasize the importance of engaging K-12 students directly in natural phenomena and providing opportunities to construct explanations grounded in evidence. Moreover, these state science standards introduce earth and space science content in the early elementary grades. This creates a critical need for new pedagogies, materials, and resources for science teachers in all grades, but the need is particularly urgent in grades K-3 where teachers have had little preparation to teach science, let alone astronomy. There is also growing consensus that when learning opportunities in formal and informal settings are closely aligned, children's science literacy is developed in ways greater than either setting can achieve alone. The investigators will study if, how, and under what circumstances an integration of literacy strategies, hands-on inquiry-based investigations, and planetarium experiences supports the development of science practices (noticing, recognizing change, making predictions, and constructing explanations) in early elementary level students. This project will generate knowledge about how astronomy-focused storybooks, hands-on investigations, and planetarium experiences can be integrated to develop age-appropriate science practices in very young children (noticing, recognizing change, making predictions, and constructing explanations).

Emergent research on the development of children's science thinking indicates that when young children are engaged with science-focused storybooks and activities that each highlight the same phenomenon, children notice and gather evidence, make predictions and claims based on evidence, and provide explanations grounded in the experiences provided to them. This project has two phases. In Phase 1, first and third grade teachers will be recruited. They will help identify specific learner needs as these relate to the earth and space science standards in their grade band, assist in the development and pilot testing of a prototype instructional sequence and supporting activities taking place within their classrooms and at a local planetarium. In Phase 2, the revised learning sequence and research protocol will be implemented with the same teachers and a new cohort of children. The mixed method research design includes video observations, teacher interviews, and teacher and student surveys. Data analysis will focus on science practices, connections across contexts (e.g., school and planetarium), and instructional adaptations. The project involves a research-practice collaboration between the Astronomical Society of the Pacific, Rockman & Associates, the Lawrence Hall of Science at the University of California, Berkeley, and West Chester University.


Project Videos

2020 STEM for All Video Showcase

Title: Chasing Shadows and Eating the Moon

Presenter(s): Brian Kruse, Kristin Bass, John Erickson, Julia Plummer, Karen Schwarz, Linda Shore, & Theresa Summer


Enhancing Teacher and Student Understanding of Engineering in K-5 Bilingual Programs

This mixed-method exploratory study will examine how bilingual teachers working in elementary schools in Massachusetts and Puerto Rico understand the role and skills of engineers in society. In turn, it will examine how teachers adapt existing engineering lessons so that those activities and concepts are more culturally and linguistically accessible to their students.

Lead Organization(s): 
Award Number: 
2128479
Funding Period: 
Mon, 10/01/2018 to Thu, 06/30/2022
Full Description: 

Engineering is part of everyone's local community and daily activities yet opportunities to learn about engineering are often absent from elementary school classrooms. Further, little is known about how teachers' and students' conceptions of engineering relate to aspects of their local community such as language and culture. Knowing more about this is important because students' perceptions of mismatch between their personal culture and the engineering field contributes to the continued underrepresentation of minorities in the profession. This mixed-method exploratory study will examine how bilingual teachers working in elementary schools in Massachusetts and Puerto Rico understand the role and skills of engineers in society. In turn, it will examine how teachers adapt existing engineering lessons so that those activities and concepts are more culturally and linguistically accessible to their students.

Consistent with the aims of the DRK-12 program, this project will advance understanding of how engineering education materials can be adapted to the characteristics of teachers, students, and the communities that they reside in. Further, its focus on bilingual classrooms will bring new perspectives to characterizations of the engineering field and its role in different cultures and societies. Over a three-year period, the team will investigate these issues by collecting data from 24 teachers (12 from each location). Data will be collected via surveys, interviews, discussion of instructional examples, videos of teachers' classroom instruction and analysis of artifacts such as teachers' lesson plans. Teachers will collaborate and function as a professional co-learning community called instructional rounds by participating and providing feedback synchronously in face-to-face settings and via the use of digital apps. Project findings can lead to teaching guidelines, practices, and briefs that inform efforts to successfully integrate bilingual engineering curriculum at the elementary grades. This work also has the potential to create professional development models of success for K-5 teachers in bilingual programs and enhance engineering teaching strategies and methods at these early grade levels.

This project was previously funded under award #1814258.

Science, Technology, Engineering and Mathematics Teaching in Rural Areas Using Cultural Knowledge Systems

This project will collaborate with Indigenous communities to create educational resources serving Inupiaq middle school students and their teachers. The Cultural Connections Process Model (CCPM) will formalize, implement, and test a process model for community-engaged educational resource development for Indigenous populations. The project will contribute to a greater understanding of effective natural science teaching and science career recruitment of minority students.

Award Number: 
1812888
Funding Period: 
Sat, 09/01/2018 to Tue, 08/31/2021
Full Description: 

The Cultural Connections Process Model (CCPM) will formalize, implement, and test a process model for community-engaged educational resource development for Indigenous populations. The project will collaborate with Indigenous communities to create educational resources serving Inupiaq middle school students and their teachers. Research activities take place in Northwest Alaska. Senior personnel will travel to rural communities to collaborate with and support participants. The visits demonstrate University of Alaska Fairbanks's commitment to support pathways toward STEM careers, community engagement in research, science teacher recruitment and preparation, and STEM career awareness for Indigenous and rural pre-college students. Pre-service teachers who access to the resources and findings from this project will be better prepared to teach STEM to Native students and other minorities and may be more willing to continue careers as science educators teaching in settings with Indigenous students. The project will contribute to a greater understanding of effective natural science teaching and science career recruitment of minority students. The project's participants and the pre-college students they teach will be part of the pipeline into science careers for underrepresented Native students in Arctic communities. The project will build on partnerships outside of Alaska serving other Indigenous populations and will expand outreach associated with NSF's polar science investments.

CCPM will build on cultural knowledge systems and NSF polar research investments to address science themes relevant to Inupiat people, who have inhabited the region for thousands of years. An Inupiaq scholar will conduct project research and guide collaboration between Indigenous participants and science researchers using the Inupiaq research methodology known as Katimarugut (meaning "we are meeting"). The project research and development will engage 450 students in grades 6-8 and serves 450 students (92% Indigenous) and 11 teachers in the remote Arctic. There are two broad research hypotheses. The first is that the project will build knowledge concerning STEM research practices by accessing STEM understandings and methodologies embedded in Indigenous knowledge systems; engaging Indigenous communities in project development of curricular resources; and bringing Arctic science research aligned with Indigenous priorities into underserved classrooms. The second is that classroom implementation of resources developed using the CCPM will improve student attitudes toward and engagement with STEM and increase their understandings of place-based science concepts. Findings from development and testing will form the basis for further development, broader implementation and deeper research to inform policy and practice on STEM education for underrepresented minorities and on rural education.

Developing Preservice Teachers' Capacity to Teach Students with Learning Disabilities in Algebra I

Project researchers are training pre-service teachers to tutor students with learning disabilities in Algebra 1, combining principles from special education, mathematics education, and cognitive psychology. The trainings emphasize the use of gestures and strategic questioning to support students with learning disabilities and to build students’ understanding in Algebra 1.

Project Email: 
Lead Organization(s): 
Award Number: 
1813903
Funding Period: 
Wed, 08/01/2018 to Sat, 07/31/2021
Full Description: 

This project is implementing a program to train pre-service teachers to tutor students with learning disabilities in Algebra 1, combining principles from special education, mathematics education, and cognitive psychology. The project trains tutors to utilize gestures and strategic questioning to support students with LD to build connections between procedural knowledge and conceptual understanding in Algebra 1, while supporting students’ dispositions towards doing mathematics. The training will prepare tutors to address the challenges that students with LD often face—especially challenges of working memory and processing—and to build on their strengths as they engage with Algebra 1. The project will measure changes in tutors’ ability to use gestures and questioning to support the learning of students with LD during and after the completion of our training. It will also collect and analyze data on the knowledge and dispositions of students with LD in Algebra 1 for use in the ongoing refinement of the training and in documenting the impact of the training program.

Strengthening Data Literacy across the Curriculum (SDLC)

This project is developing and studying high school curriculum modules that integrate social justice topics with statistical data investigations to promote skills and interest in data science among underrepresented groups in STEM.

Project Email: 
Award Number: 
1813956
Funding Period: 
Sun, 07/01/2018 to Wed, 06/30/2021
Full Description: 

The Strengthening Data Literacy across the Curriculum (SDLC) project is an exploratory/early stage design and development effort that aims to promote understanding of core statistical concepts and interest in quantitative data analysis among high school students from underrepresented groups in STEM. Led by a collaboration of researchers and developers at Education Development Center (EDC), statistics educators at California Polytechnic State University (Cal Poly), and technology developers at The Concord Consortium, the project is creating and studying a set of curriculum modules targeted to high school students who are taking mathematics or statistics classes that are not at advanced-placement (AP) levels. Iteratively developed and tested in collaboration with high school statistics and social studies teachers, the modules consist of applied data investigations structured around a four-step data investigation cycle that engage students in explorations of authentic social science issues using large-scale data sets from the U.S. Census Bureau. The project hypothesizes that students who engage in guided investigations using data visualization tools to explore and visualize statistical concepts may develop deeper understandings of these concepts as well as the data investigation process. Similarly, high school students – particularly those from historically marginalized groups who are underrepresented in STEM fields – may develop greater interest in statistics when they can use data to examine patterns of social and economic inequality and questions related to social justice.

One module, Investigating Income Inequality in the U.S., focuses on describing, comparing, and making sense of quantitative variables. Students deepen their understanding of this content by investigating questions such as: How have incomes for higher- and lower-income individuals in the U.S. changed over time? How much income inequality exists between males and females in the U.S.? Does education explain the wage gap between males and females? Another module, Investigating Immigration to the U.S., focuses on describing, comparing, and making sense of categorical variables. Students investigate questions such as: Are there more immigrants in the U.S. today than in previous years? Where have immigrants to the U.S. come from, now and in the past? Are immigrants as likely as the U.S. born to be participating in the labor force, after adjusting for education? Students conduct these analyses using the Common Online Data Analysis Platform (CODAP), an open-source set of tools that supports data visualization and conceptual understanding of statistical ideas over calculations. Lessons encourage collaborative inquiry and provide students with experiences in multivariable analysis—an important domain that is underemphasized in current high school mathematics and statistics curricula but critical for analyzing data in a big-data world.

The project is using a mixed methods approach to study three primary research questions: 1) What is the feasibility of implementing SDLC modules, and what supports may teachers and students need to use the modules? 2) In what ways may different features and components of the SDLC modules help to promote positive student learning and interest outcomes? 3) To what extent do students show greater interest in statistics and data analysis, as well as improved understandings of target statistical concepts, after module use? To investigate these questions, the project has worked with 12 mathematics and six social studies teachers in diverse public high schools in Massachusetts and California to conduct iterative research with over 600 students. Through this work, the project aims to build knowledge of curriculum-based approaches that prepare and attract more diverse populations to data science fields.


 Project Videos

2021 STEM for All Video Showcase

Title: Promoting Data Literacy with Social Justice Investigations

Presenter(s): Josephine Louie, Beth Chance, Emily Fagan, Soma Roy, & Jennifer Stiles


Developing Teacher Noticing in Engineering in an Online Professional Development Program

This project will research how elementary (K-5) teachers in the Teacher Engineering Education Program (TEEP) program progress in one particular aspect of responsive teaching, noticing student thinking. Project research will also contribute to literature on how to support responsive teaching in web-based environments, expanding understanding of how design principles and features developed in in-person professional development settings can be implemented online.

Lead Organization(s): 
Award Number: 
1720334
Funding Period: 
Fri, 09/01/2017 to Mon, 08/31/2020
Full Description: 

The project will research how elementary (K-5) teachers in the Teacher Engineering Education Program (TEEP) program progress in one particular aspect of responsive teaching, noticing student thinking. TEEP includes four graduate-level courses that help them learn engineering content and pedagogical approaches. There has been little investigation of teacher professional development in engineering design. The work that has been done focuses on increasing teachers' content knowledge and familiarity in engineering. Most teacher professional development and research focus on teachers learning engineering content and process, with less attention on helping teachers develop new instructional practices necessary to help students navigate the complex, ill-defined problems in engineering. TEEP focuses on helping teachers develop practices of responsive teaching in engineering design, where teachers base their instructional moves on what they notice in their students are doing and saying. Project research will also contribute to literature on how to support responsive teaching in web-based environments, expanding understanding of how design principles and features developed in in-person professional development settings can be implemented online. The project will refine a program for engineering teachers nationwide, identify key features that are effective in developing teachers' practice, and create video resources for other professional development programs to use.

The project will address three research questions: (1) What do beginning engineering teachers notice in students' engineering design work? (2) What shifts occur in teachers' noticing over the course of a professional development program focused on responsive teaching and how do these shifts correlate with key features of the program? (3) What shifts occur in how teachers' talk about their goals for students' engineering and their instructional practice? The project will conduct independent analyses from two cohorts of teachers of three data streams: pre-post interviews about practice; teacher-captured classroom videos; video-stimulated interviews, and teachers' coursework. The analyses will then connect these analyses to address the research questions. Videocases of students' engineering will be disseminated for other teacher educators to use in supporting teacher noticing. The research outcomes of the research will not only advance our understandings of teacher learning, but will provide evidence that teachers can recognize, value, and leverage students' diverse resources for engineering. Research on the TEEP program will also provide much-needed empirical support on whether and how online programs can be effective for teachers' instructional practice.

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