Sustainability

Enhanced Earth System Teaching Through Regional and Local (ReaL) Earth Inquiry

The ReaL Earth Inquiry project empowers teachers to employ real-world local and regional Earth system science in the classroom. Earth systems science teachers need the pedagogic background, the content, and the support that enables them to engage students in asking real questions about their own communities. The project is developing online "Teacher-Friendly Guides" (resources), professional development involving fieldwork, and inquiry-focused approaches using "virtual fieldwork experiences."  

Award Number: 
0733303
Funding Period: 
Wed, 08/15/2007 to Sat, 07/31/2010
Project Evaluator: 
BridgeWater Education Consulting LLC
Full Description: 

This recruitment and informational video provides an overview of the ReaL Earth Inquiry Project. 

Quality Cyber-enabled, Engineering Education Professional Development to Support Teacher Change and Student Achievement (E2PD)

In this project, a video and audio network links elementary school teachers with researchers and educators at Purdue to form a community of practice dedicated to implementing engineering education at the elementary grades. The research plan includes identifying the attributes of face-to-face and cyber-enabled teacher professional development and community building that can transform teachers into master users and designers of engineering education for elementary learners.

Lead Organization(s): 
Award Number: 
0822261
Funding Period: 
Mon, 09/15/2008 to Tue, 08/31/2010
Project Evaluator: 
Rose Marra, University of Missouri-Columbia

Integrating Computing Across the Curriculum (ICAC): Incorporating Technology into STEM Education Using XO Laptops

This project builds and tests applications tied to the school curriculum that integrate the sciences with mathematics, computational thinking, reading and writing in elementary schools. The investigative core of the project is to determine how to best integrate computing across the curriculum in such a way as to support STEM learning and lead more urban children to STEM career paths.

Project Email: 
Award Number: 
1404467
Funding Period: 
Sat, 08/01/2009 to Sun, 07/31/2011
Project Evaluator: 
Leslie Cooksy - Univ. of Delaware
Full Description: 

Computer access has opened an exciting new dimension for STEM education; however, if computers in the classroom are to realize their full potential as a tool for advancing STEM education, methods must be developed to allow them to serve as a bridge across the STEM disciplines. The goal of this 60-month multi-method, multi-disciplinary ICAC project is to develop and test a program to increase the number of students in the STEM pipeline by providing teachers and students with curricular training and skills to enhance STEM education in elementary schools. ICAC will be implemented in an urban and predominantly African American school system, since these schools traditionally lag behind in filling the STEM pipeline. Specifically, ICAC will increase computer proficiency (e.g., general usage and programming), science, and mathematics skills of teachers and 4th and 5th grade students, and inform parents about the opportunities available in STEM-centered careers for their children.

The Specific Aims of ICAC are to:

SA1. Conduct a formative assessment with teachers to determine the optimal intervention to ensure productive school, principal, teacher, and student participation.

SA2. Implement a structured intervention aimed at (1) teachers, (2) students, and (3) families that will enhance the students’ understanding of STEM fundamentals by incorporating laptops into an inquiry-based educational process.

SA3. Assess the effects of ICAC on:

a. Student STEM  engagement and performance.

b. Teacher and student computing specific confidence and utilization.

c. Student interest in technology and STEM careers.

d. Parents’ attitudes toward STEM careers and use of computers.

To enable us to complete the specific aims noted above, we have conducted a variety of project activities in Years 1-3. These include:

  1. Classroom observations at the two Year 1 pilot schools
  2. Project scaling to 6 schools in Year 2 and 10 schools in Year 3
  3. Semi-structured school administrator interviews in schools
  4. Professional development sessions for teachers
  5. Drafting of curriculum modules to be used in summer teacher institutes and for dissemination
  6. In-class demonstration of curriculum modules
  7. Scratch festivals each May
  8. Summer teacher institutes
  9. Student summer camps
  10. Surveying of teachers in summer institutes
  11. Surveying of teachers and students at the beginning and end of the school year
  12. Showcase event at end of student workshops

The specific ICAC activities for Years 2-5 include:

  • Professional development sessions (twice monthly for teachers), to integrate the ‘best practices’ from the program.
  • Working groups led by a grade-specific lead teacher. The lead teacher for each grade in each school will identify areas where assistance is needed and will gather the grade-specific cohort of teachers at their school once every two weeks for a meeting to discuss the progress made in addition to challenges to or successes in curricula development.  
  • ICAC staff and prior trained teachers will visit each class monthly during the year to assist the teachers and to evaluate specific challenges and opportunities for the use of XOs in that classroom.  
  • In class sessions at least once per month (most likely more often given feedback from Teacher Summer Institutes) to demonstrate lesson plans and assist teachers as they implement lesson plans.
  • ICAC staff will also hold a joint meeting of administrators of all target schools each year to assess program progress and challenges. 
  • Teacher Summer Institutes – scaled-up to teachers from the new schools each summer to provide training in how to incorporate computing into their curriculum.
  • Administrator sessions during the Teacher Summer Institutes; designed to provide insight into how the laptops can facilitate the education and comprehension of their students in all areas of the curriculum, discuss flexible models for physical classroom organization to facilitate student learning, and discussions related to how to optimize the use of computing to enhance STEM curricula in their schools.  Student Summer Computing Camps – designed to teach students computing concepts, make computing fun, and enhance their interest in STEM careers.  
  • ICAC will sponsor a yearly showcase event in Years 2-5 that provides opportunities for parents to learn more about technology skills their children are learning (e.g., career options in STEM areas, overview of ICAC, and summary of student projects). At this event, a yearly citywide competition among students also will be held that is an expanded version of the weeklong showcase event during the student summer camps.
  • Surveying of students twice a year in intervention schools.
  • Surveying of teachers at Summer Institutes and then at the end of the academic year.
  • Coding and entry of survey data; coding of interview and observational data.
  • Data analysis to examine the specific aims (SA) noted above:
    • The impact of ICAC on teacher computing confidence and utilization (SA 3.b).
    • Assess the effects of (1) teacher XO training on student computing confidence and utilization (SA 3.b), (2) training on changes in interest in STEM careers (SA 3.c), and (3) XO training on student engagement (SA 3.a).
    • A quasi-experimental comparison of intervention and non-intervention schools to assess intervention effects on student achievement (SA 3.a).
    • Survey of parents attending the yearly ICAC showcase to assess effects on parental attitudes toward STEM careers and computing (SA 3.d).

The proposed research has the potential for broad impact by leveraging technology in BCS to influence over 8,000 students in the Birmingham area. By targeting 4th and 5th grade students, we expect to impact STEM engagement and preparedness of students before they move into a critical educational and career decision-making process. Further, by bolstering student computer and STEM knowledge, ICAC will impart highly marketable skills that prepare them for the 81% of new jobs that are projected to be in computing and engineering in coming years (as predicted by the US Bureau of Labor Statistics).3 Through its formative and summative assessment, ICAC will offer intellectual merit by providing teachers throughout the US with insights into how computers can be used to integrate the elementary STEM curriculum. ICAC will develop a model for using computers to enhance STEM education across the curriculum while instilling a culture among BCS schools where computing is viewed as a tool for learning.

(Previously listed under Award # 0918216)

The Impact of Online Professional Development: An Experimental Study of Professional Development Modalities Linked to Curriculum

This project is designed to enhance understanding of how online professional development environments contribute to teach learning, changes in classroom practice and changes in student learning in comparison to face-to-face professional development. Using secondary school teachers learning to use a reformed-oriented environmental science curriculum, groups of teachers will be randomly assigned to one of three conditions: (1) traditional face-to-face workshop, (2)self-guided online professional development, or (3)online “short course” professional development guided by a facilitator.

Project Email: 
Lead Organization(s): 
Award Number: 
0455582
Funding Period: 
Fri, 07/01/2005 to Thu, 06/30/2011

Fossil Finders: Using Fossils to Teach About Evolution, Inquiry and Nature of Science

This project engages children in classrooms across the country in an authentic investigation of Devonian fossils. Goals include supporting children in the use of evidence in constructing explanations of natural phenomena, and motivating culturally and linguistically diverse groups of children to engage in learning science. Deliverables include development and testing of an interactive website where children learn how to identify the fossils they find and add their own data to an emerging database.

Award Number: 
1249157
Funding Period: 
Tue, 01/01/2008 to Mon, 12/31/2012
Project Evaluator: 
Ohio Research and Evaluation Center

Supporting Staff Developers in the Implementation of Professional Development Programs to Improve Mathematics Education for Students with Disabilities

This project is (1) conducting a qualitative study on the way facilitators use Math for All (MFA), an NSF-supported set of professional development materials for teachers who teach elementary school students with disabilities; (2) developing resources based on that study for teacher leaders and other facilitators of professional development; and (3) conducting fieldtests of the resources to examine their usefulness and impact.

Award Number: 
0822313
Funding Period: 
Mon, 09/01/2008 to Fri, 08/31/2012
Project Evaluator: 
Teresa Duncan
Full Description: 

 

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