Projects

This project is developing Core Math Tools, a suite of Java-based software including a computer algebra system (CAS), interactive geometry, statistics, and simulation tools together with custom apps for exploring specific mathematical or statistical topics. Core Math Tools is freely available to all learners, teachers, and teacher educators through a dedicated portal at the National Council of Teachers of Mathematics (NCTM) web site.

This project supports the participation of 50 U.S. elementary, middle, and high school mathematics teachers or supervisors, graduate students, community college/university mathematics teachers, mathematicians and teacher educators or researchers to attend the Twelfth International Congress for Mathematical Education (ICME-12) to be held in Seoul Korea from June 8 to July 15, 2012.

This project will test the efficacy of using agent-based simulation and visualization models to identify the factors that predict mathematics achievement for students from the 8th grade to the 12th grade and beyond. The team is using data that includes 14 years of data on student grade reports, coursework, demographics, teacher variables such as years of service, professional development courses taken, years of service, and other artifacts.

This project will test the efficacy of using agent-based simulation and visualization models to identify the factors that predict mathematics achievement for students from the 8th grade to the 12th grade and beyond. The team is using data that includes 14 years of data on student grade reports, coursework, demographics, teacher variables such as years of service, professional development courses taken, years of service, and other artifacts.

This exploratory project is to enhance the ability of teachers to provide high quality STEM education for all students by developing research-based materials that enable teachers to facilitate students' progress toward statistical understanding.

This project will investigate the implementation of a Teacher Residency Academy model to recruit, license, induct, employ, and retain middle school and secondary science teachers for high-need schools that serve more than 119,000 diverse students. The Alliance will: create a high-quality, rigorous, and clinically-based teacher preparation program for aspiring middle and secondary science teachers; recruit and support diverse science educators and contribute to the knowledge base regarding the implementation of a clinically-based science teacher.

This exploratory project is working in collaboration with teachers to increase their knowledge of mathematics for teaching in middle school. In addition to geometry and algebra, the research component of the project is providing insights into how teachers use their mathematical knowledge to increase argumentation in the classroom and to help students build skills in mathematical argumentation.

Educating the Imagination will develop a studio approach to science for underrepresented high school students. The approach integrates scientific and artistic habits of mind and forms of engagement for meaningful learning in water-related sciences. Youth will a) investigate significant water-related phenomena, b) develop creative responses to the phenomena that foster new understandings and possibilities for action, and c) exhibit their responses community-wide to involve others in re-imagining water locally and globally.

This research study is examining the persistence of improved teacher skills achieved during the K-2 Science & Technology Assistance for Rural Teachers and Small Districts project (K-2 STARTS). K-2 STARTS provided four years of professional development to teachers in 16 rural school districts with high populations of traditionally underserved students. Project data indicates that the project increased teacher content knowledge, pedagogical content knowledge, abilities to integrate science and literacy and to use research-based instructional strategies.

This is an exploratory study to identify critical aspects of effective science formative assessment (FA) practices for English Language Learners (ELLs), and the contextual factors influencing such practices. FA, in the context of the study, is viewed as a process contributing to the science learning of ELLs, as opposed to the administration of discrete sets of instruments to collect data from students. The study targets Spanish-speaking, elementary and middle school students.

This project is developing Earth and Space Science multimedia educative curriculum materials (MECMs) and a system to facilitate teachers' learning and beliefs of scientific argumentation. The project is investigating the impact of the MECMs on teachers' beliefs about scientific argumentation and their related pedagogical content knowledge. The overarching research question focuses on how can multimedia educative curriculum materials provide support to middle school science teachers in implementing standards for constructing and critiquing arguments.

Researchers are studying whether middle school instruction about ecosystem science can be made more engaging and effective by combining immersion experiences in virtual ecosystems with immersion experiences in real ecosystems infused with virtual resources. Project personnel are developing a set of learning resources for deployment by mobile broadband devices that provide students with virtual access to information and simulations while working in the field.

This is an exploratory study to identify critical aspects of effective science formative assessment (FA) practices for English Language Learners (ELLs), and the contextual factors influencing such practices. FA, in the context of the study, is viewed as a process contributing to the science learning of ELLs, as opposed to the administration of discrete sets of instruments to collect data from students. The study targets Spanish-speaking, elementary and middle school students.

This project will develop and test a cyberlearning professional-development model that builds on the successful Curriculum Customization Service model implemented in Denver with EarthComm. The cyberlearning system is tested with the Project Based Inquiry Science (PBIS) curriculum - a proven comprehensive middle school science curriculum. The cyberlearning system is evaluated for scalability, affordability, flexibility, and effectiveness for changing teacher practice and student learning.

This project will iteratively design, develop, field test, refine, and rigorously study a six-unit, facilitated, online professional development (PD) course focusing on energy-related concepts in the context of alternative energy. The primary audience is high school science teachers teaching out of their field of endorsement and serving students underrepresented in the sciences. The project will investigate whether the PD will precipitate changes in teacher knowledge and practice that result in higher student achievement.

This project will modify the teacher preparation program for preK-8 teachers. The program is designed to help pre-service teachers learn mathematics well, learn to access students' cultural funds of knowledge, and learn to encourage students' mathematical thinking. The developers are designing (a) modules that can be used in teacher preparation courses, (b) a mentoring program for new teachers, and (c) on-line networks to facilitate collaboration among participating teachers and institutions.

This project will design, develop, and test an online collaborative learning environment where students and teachers solve mathematical problems and communicate their thinking.  This online collaborative learning environment will help increase the quality and quantity of math discourse among mathematics teachers and students.  The researchers will also examine the impact of the online collaborative learning environment on students' significant mathematical discourse and achievement.

This project designs materials and an accompanying support system to enable the development of expertise in the teaching of mathematics at the elementary level. The project has four main components: online professional development modules; practice-based assessments; resources for facilitators; and web-based technologies to deliver module content to diverse settings. Three modules are being developed and focus on fractions, reasoning and explanation, and geometry. Each module is organized into ten 1.5 hour sessions.

The aim of this project is to examine opportunity structures provided to students by inclusive STEM-focused high schools, with an emphasis on studying schools that serve students from underrepresented groups. The project is studying inclusive STEM-focused high schools across the United States to determine what defines them. The research team initially identified ten candidate critical components that define STEM-focused high schools and is refining and further clarifying the critical components through the research study.

This is an exploratory study to identify critical aspects of effective science formative assessment (FA) practices for English Language Learners (ELLs), and the contextual factors influencing such practices. FA, in the context of the study, is viewed as a process contributing to the science learning of ELLs, as opposed to the administration of discrete sets of instruments to collect data from students. The study targets Spanish-speaking, elementary and middle school students.

This project will develop and test a cyberlearning professional-development model that builds on the successful Curriculum Customization Service model implemented in Denver with EarthComm. The cyberlearning system is tested with the Project Based Inquiry Science (PBIS) curriculum - a proven comprehensive middle school science curriculum. The cyberlearning system is evaluated for scalability, affordability, flexibility, and effectiveness for changing teacher practice and student learning.

This project is conducting a longitudinal study of the effects of a pre-service elementary science education.  Through overlapping studies on the pre-service teachers (PSTs) and in-service teachers who are graduates of the program, this project is seeking to analyze the impact of three essential dimensions of teacher preparation: inquiry-based science content courses, science methods/practicum courses, and k-12 mentor teachers.

In this project, investigators are laying the foundation for a rigorous quasi-experiment to test the effects of attending such a school using longitudinal student records, surveys, and interviews. By documenting survey response rates, student location rates, and rates for successful matching of student administrative and survey data, this project is demonstrating that it is possible to collect data that would enable a large-scale study to be launched with the necessary instruments and experience in hand.

The project investigates the use of robotics into early childhood education. It address two objectives: to develop and evaluate a low-cost, developmentally appropriate robotic construction kit specifically designed for early childhood education (PreK-2) and to pilot a robotics-based professional development model for early childhood educators to teach engineering and technology.

This project is focused on creating, testing, refining, and studying a computer-based, individualized, interactive learning system for intermediate/middle school students or by teachers in classrooms. This learning system is called Individualized Dynamic Geometry Instruction and will contain four instructional modules in geometry and measurement that reflect the recommendations of the Common Core State Standards.