Projects and Programs

Educational programs at the UCAR Center for Science Education align with our mission to develop educational experiences that connect NCAR|UCAR science to diverse learners, creating pathways towards a scientifically literate society. We accomplish our mission by:

  • Developing high-quality learning materials for learners of all ages that are shared on the UCAR SciEd website,
  • Providing virtual and in-person learning experiences through the exhibits and tours at our facilities and through educator conferences and public events, and
  • Supporting Proteges during summer research and year-round through the SOARS Program.
Explore highlights about current and past programs below.

Significant Opportunities in Atmospheric Research and Science (SOARS)

Principal Investigator: Kadidia Thiero 
Funder: National Science Foundation 

Short Summary:

We are proud to be the host program for the Significant Opportunities in Atmospheric Research and Science (SOARS) office. SOARS is an undergraduate-to-graduate bridge program designed to broaden participation in the atmospheric and related sciences through building a strong and supportive learning community, strong scientific and career mentoring, and providing hands-on experiences in research. SOARS is designed to promote and support research, mentoring, and community. SOARS Protégés can participate for up to four (4) summers conducting research in atmospheric and earth-system sciences. Over 90% of SOARS Protégés advance to graduate school, and many enter the workforce with a MS and/or Ph.D. degree.

Type of Collaboration: Connect with Teachers and Faculty, Reach Underserved Audiences, Sponsor a SOARS Protégé

AirWaterGas

Principal Investigator: Lisa S. Gardiner
Funders: National Science Foundation via University of Colorado, Boulder

Short Summary:

In partnership with researchers from the AirWaterGas team, curriculum experts from UCAR Center for Science Education convened a cohort of middle and high school science teachers who teach in areas of Colorado with oil and gas development. During the 2014-2015 school year, the cohort participated in a series of online professional development courses about the local and global impacts of oil and gas development. Teachers learned best practices in science curriculum development and then completed curriculum projects as Teachers-in-Residence. The PBS LearningMedia  website includes a select group of the activities, with short videos created in collaboration with Rocky Mountain PBS explaining fracking and its impacts. The project also developed explainer articles in collaboration with Inside Energy at Rocky Mountain PBS to answer general public questions about the impacts of oil and gas development in Colorado. 

 

Education Level: Middle School, High School
Type of Collaboration: Connect with Teachers and Faculty, Develop Instructional Materials

Clouds, Weather, and Climate Teaching Box

Principal Investigators: Lisa Gardiner
Funder: NSF-CAREER via University of Virginia

Short Summary:

UCAR Center for Science Educations Lisa Gardiner worked with University of Virginia professor Kevin Grise to develop the Clouds, Weather, and Climate Teaching Box. The educational resources in this virtual teaching box have been designed and sequenced to help build student understanding, align to the Next Generation Science Standards, and connect with Grise’s area of research.

Education Level: High School
Type of Collaboration: Connect with Teachers and Faculty, Develop Instructional Materials

DUST PIRE: Exploring Atmospheric Dust and Climate

Principal Investigators: Becca Hatheway, Lisa Gardiner
Funder: NSF PIRE via the University of Rochester

Short Summary:

UCAR Center for Science Education worked with scientists from several U.S. universities, led by a team from the University of Rochester, to develop educational resources about the carbon cycle and related processes in Central Asia and the Pacific Ocean that influence climate change. To be used at public science events and in museums around the country, these materials include an interactive station-based game, a hands-on activity exploring dust and other sediments, a map-based interactive Google slide deck, datasets viewable in augmented reality using the MeteoAR app, and interpretive materials that will accompany Science On a Sphere® (SOS) visualizations of dust transport in the atmosphere. You can find all of these resources in English and in Mandarin on the Exploring Atmospheric Dust and Climate page.

 

Type of Collaboration: Connect with Teachers and Faculty, Develop Instructional Materials

Elementary GLOBE

Principal Investigators: Becca Hatheway, Lisa Gardiner
Funder: NASA

Short Summary:

Elementary GLOBE, part of the GLOBE Program, is designed to introduce students in grades K-4 to the study of Earth system science through storybooks and hands-on learning activities. The Elementary GLOBE curriculum resources include seven learning modules: Air Quality, Climate, Clouds, Earth System, Seasons, Soils, and Water. Each learning module contains a storybook and several companion classroom activities. A Teacher Implementation Guide provides an overview of Elementary GLOBE, standards alignment, and information about the curriculum’s connections to other parts of elementary school curricula.

In each storybook, the GLOBE Kids (Simon, Anita, and Dennis) explore an aspect of their local environment. Storybooks are available as free downloadable PDFs and eBooks at Elementary GLOBE and are available for purchase from Amazon. Hands-on classroom activities, coloring pages, and the Teacher Implementation Guide are available as free downloads from the Elementary GLOBE website

 

Education Level: Elementary School
Type of Collaboration: Connect with Teachers and Faculty, Develop Instructional Materials, Tell Science Stories: Exhibits and Online Resources

GLOBE Weather: an NGSS-driven Middle School Curriculum

Principal Investigators: John Ristvey, Becca Hatheway, Lisa Gardiner
Funder: NASA

Short Summary:

With GLOBE Weather, middle school students explore phenomena related to weather and storms during a five-week unit to help them understand weather at local, regional, and global scales. They analyze weather data collected by schools that are a part of the GLOBE Program, and they collect their own observations of the atmosphere following GLOBE Atmosphere Protocols.

Developed to address Next Generation Science Standards, the GLOBE Weather curriculum focuses on student explorations of weather phenomena, utilizing a storyline approach within the BSCS 5E learning cycles. The curriculum focuses on analyzing and interpreting weather data and developing models to explain and document student understandings. Avenues for further explorations of weather with the GLOBE Program provide opportunities to extend learning with student research projects.

Education Level: Middle School
Type of Collaboration: Connect with Teachers and Faculty, Develop Instructional Materials

Hurricane Resilience

Principal Investigator: Lisa Gardiner
Funder: NOAA Environmental Literacy Program

Short Summary:

Hurricane Resilience is a high school environmental science curriculum for use in coastal locations where hurricanes are common. Through 20 days of instruction, students make connections between the science of hurricanes, how they affect their community and region, and how we can plan for a more resilient future. Making local connections, students develop an understanding of 1) the risks that their community faces now and in the future due to hurricanes and tropical storms, 2) how sea level rise increases the risk, and 3) how our actions can help us be less vulnerable and more resilient. The curriculum unit aims to empower high school students to have a voice in resilience planning and understand the relationship between the science of hurricanes and the local impacts these storms have on people and places. The curriculum was developed in collaboration with the South Louisiana Wetlands Discovery Center and with science expertise at the National Center for Atmospheric Research. It was piloted and field-tested in Terrebonne Parish and Lafourche Parish schools. 

 

Education Level: High School
Type of Collaboration: Connect with Teachers and Faculty, Develop Instructional Materials, Reach Underserved Audiences

Monsoon Learning Resources

Principal Investigator: Lisa Gardiner
Funder: National Science Foundation via Yale University

Short Summary:

UCAR Center for Science Education’s Lisa Gardiner worked with Yale professor William Boos (now at UC Berkeley) and COMET visualization expert Steve Deyo to develop monsoon science educational resources, including web-based articles, illustrations, and a data-driven visualization of global monsoon patterns. Resources were disseminated online via the Learning Zone and the Learn About Monsoons section of the World Monsoons website and used in a Yale University summer course about monsoons for high school students.

Type of Collaboration: Connect with Teachers and Faculty, Tell Science Stories: Exhibits and Online Resources

Project Learn

Principal Investigators: Carol McLaren, Principal Investigator and Project Director, Sandra Henderson, Co-Director

Funder: National Science Foundation

Project Description:

Project LEARN: Atmospheric Science Explorers was developed at UCAR and NCAR between 1991 and 2001. Activities and readings from Project LEARN are now within the UCAR Center for Science Education

LEARN: Atmospheric Science Explorers (LEARN) began in 1991 with funding from the National Science Foundation (NSF) to help fill the critical need of science teacher professional development. NSF funded two versions of LEARN. The fundamental goal of both LEARN programs was to increase middle school science teacher knowledge of and interest in the atmospheric sciences. The first project began in 1991 and brought 40 middle school and junior high school teachers from California, Colorado, North Carolina, and Texas to the National Center for Atmospheric Research (NCAR) in Boulder, Colorado for three consecutive summers. The second project was funded in 1996 and partnered with 48 teachers from rural schools in Colorado. In addition to the three consecutive summer workshops at NCAR, LEARN staff and scientists from NCAR traveled to the rural Colorado school districts for three additional days of instruction.

Much of the instructional and science content foundation for the LEARN workshops came from the teaching modules developed by LEARN teachers in collaboration with more than 60 NCAR scientists. The three modules included background information, hands-on activities using simple materials, and authentic assessment tools. The modules–Ozone in Our Atmosphere, Atmospheric Dynamics, and Cycles of the Earth and Atmosphere–were not designed to replace existing curricula or textbooks. Rather, they were intended to enhance earth and physical science programs by incorporating atmospheric science concepts. These modules were created by teachers for teachers.

As LEARN was nearing completion, a number of the teachers suggested that it would be useful to have a Web site based on the modules so that the information would be widely available to all. The need for credible and up-to-date teaching materials on issues related to climate change and atmospheric chemistry (in particular, ozone depletion in the stratosphere and ozone pollution in the troposphere) was real. Formatting portions of the Project LEARN teaching modules for the Web would fill this need. With supplemental funding from NSF, LEARN joined forces with the Cooperative Program for Operational Meteorology, Education and Training (COMET®), a premier resource at NCAR in the area of distance learning. Coupling the distance learning expertise of COMET and the teacher enhancement materials contained in the LEARN modules, this Web site was developed for classroom teachers.

We would like to acknowledge the hard work of all the LEARN teachers and the many scientists and staff members at NCAR, UCAR, and COMET who contributed their time and energy to the project.

Grade Level and Time

Most of the activities are designed to be used in grades 6 - 9. Recognizing the wide range of student skills and knowledge in these grades, teachers are encouraged to adapt the basic activity to fit their particular classroom needs. We have tried to give realistic time requirements for all aspects of the activity. Our time estimates are meant to be used as a guide.

Materials Needed

The activities call for simple, low cost or easy to obtain items readily available to most middle school science teachers. Upper elementary or middle school teachers who do not have access to all of the needed laboratory supplies for a particular activity may want to contact their local high school science department to borrow equipment. For the more complicated activities, teachers may want to recruit high school science students to help them in class.

Assessments

Assessment ideas have been included to assist teachers in determining if their students better understand the activity learning concepts. In some cases, the assessments take the form of further experimentation.

Modifications for Alternative Learners

Teachers know their individual students and their needs far better than anyone else. Some suggestions have been included.

Credits

Sponsors
National Science Foundation (NSF)
University Corporation for Atmospheric Research (UCAR)
National Center for Atmospheric Research (NCAR)
Cooperative Program for Operational Meteorology, Education and Training (COMET®)

Project Manager
Sandra Henderson - UCAR/Office of Education & Outreach (OEO)

COMET Project Leads
Heidi Godsil - UCAR/COMET
Patrick Parrish - UCAR/COMET

Graphic Interface Design
Heidi Godsil - UCAR/COMET

Illustration/Animation
Steve Deyo - UCAR/COMET
Heidi Godsil - UCAR/COMET

Instructional Designers
Steve Holman - Science Teacher, McNary High School, Salem, OR
Marianne Weingroff - UCAR/COMET

Teacher Evaluators
Judith Anderson - Kim High School, Kim, CO
Joan Berryman - Columbine Middle School, Montrose, CO
Kelly Estes - Monarch K-8, Louisville, CO
Nancy Farley - J.S. Clark Magnet School, Monroe, LA
Molly Gehley - McNary High School, Salem, OR
Steve Holman - McNary High School, Salem, OR
Jenny Price - Rishel Middle School, Denver, CO
Dave Reddish - Columbine Middle School, Montrose, CO
Janet Stellema - Monarch K-8, Louisville, CO
Don Uhland - Westlake Middle School, Broomfield, CO

Project Scientists
Richard Cianflone - NWS/COMET
Peter Harley - NCAR/Atmospheric Chemistry Division (ACD)
Charles Knight - NCAR/Mesoscale and Microscale Meteorology Division (MMM)
Barry Lefer - NCAR/ACD
Peggy LeMone - NCAR/Mesoscale and Microscale Meteorology Division (MMM)
Bill Mankin - NCAR/ACD

Multimedia Authoring 
Lorrie Fyffe - UCAR/COMET
Marianne Weingroff - UCAR/COMET

Software Testing/Editing/Quality Assurance
Kay Levesque - UCAR/COMET
Michael Smith - UCAR/COMET

Copyright Administration
Lorrie Fyffe - UCAR/COMET
Sandra Henderson - UCAR/OEO
Annette Lampert - OEO
Barb Petruzzi - UCAR/COMET

Hardware/Software Support
Dennis Ward - UCAR/COMET
Carl Whitehurst - UCAR/COMET

Instructional Materials
This Web site was based primarily on LEARN's teaching modules Cycles of the Earth and Atmosphere: Their Impact on Climate Change and Ozone in Our Atmosphere. Activities and readings from Project LEARN are now within the UCAR Center for Science Education Learning Zone webpages. Please see the related links section at the bottom of this page for some of the activities and materials that were associated with this project.

Additional Instructional Materials Provided By
Science Discovery, University of Colorado
Lawrence Livermore National Laboratory/Science and Technology Education Program
National Aeronautics and Space Administration (NASA)/Goddard Space Flight Center
National Oceanic and Atmospheric Administration (NOAA)
Spatial Climate Analysis Service, Oregon State University
United States Department of Agriculture (USDA)/Forest Service (FS)
U.S. Department of the Interior/United States Geological Survey (USGS)

Type of Collaboration: Connect with Teachers and Faculty, Develop Instructional Materials

Project Resilience

Principal Investigator: Becca Hatheway 
Funder: National Academies of Sciences, Engineering, and Medicine

Short Summary:

With the Project Resilience curriculum, high school students examine the environmental challenges facing communities along the Gulf of Mexico and learn about resilience planning using a resilience planning toolkit. The curriculum spans about 20 days of class time, divided into seven lessons, with an optional student project extension (Lesson 8). The first four lessons of the curriculum, focus on learning about the environmental challenges and scientific processes in the Mississippi River delta. Students gain an understanding of what the Mississippi River delta is and how it forms, why deltaic formation is important for coastal communities in the Gulf region (including the importance of wetlands and estuaries), and why the deltaic coast is vulnerable. Lessons 5-7 of the curriculum, focus on resilience planning and adaptation strategies using a resilience toolkit. As a case study, students explore current and future projects planned for Terrebonne Parish, Louisiana, including criteria for choosing and evaluating factors that put communities at risk, and the scope of different types of projects. Project Resilience then leads students through the development of a School Resilience Plan, which contains student-designed projects to address one or more environmental challenges affecting their school campus. An extension of the curriculum is to implement one of the student projects from the School Resilience Plan. Project Resilience was developed by UCAR Center for Science Education and the South Louisiana Wetlands Discovery Center (SLWDC), and was piloted and field-tested in the four Terrebonne Parish high schools. This project was supported by the Gulf Research Program of the National Academies of Sciences, Engineering, and Medicine under Grant Agreement number 2000009811.

Education Level: High School
Type of Collaboration: Connect with Teachers and Faculty, Develop Instructional Materials, Reach Underserved Audiences

STEM Career Connections

Principal Investigator: John Ristvey
Funder: National Science Foundation 

Short Summary:

The STEM Career Connections project is a partnership between the UCAR Center for Science Education, the University of Colorado, Boulder, and the Vail Valley Foundation. This project aims to develop an innovative career readiness model for both in and out of school settings that will profoundly increase the knowledge of and interest in STEM and computing careers for middle school youth in rural, economically disadvantaged mountain state communities. To achieve this goal, we have three integral components of the project: 1) a community partnership working together to support youth engagement in STEM and computing career pathways, 2) a STEM curriculum where youth use advanced sensor technologies to engage in science and engineering investigations, and 3) integrated career experiences that encourage youth to make personally-relevant connections with local STEM and computing occupations. Funded by the National Science Foundation, this project aims to advance the efforts of the Innovative Technology Experiences for Students and Teachers (ITEST) program.

 

Education Level: Middle School
Type of Collaboration: Connect with Teachers and Faculty, Develop Instructional Materials, Reach Underserved Audiences