This American Public Media Educate podcast features PolarTREC alumni, Melissa Lau. She talks about how her experiences in PolarTREC has influenced how she approaches teaching climate change in the classroom. Here's the link to the Education podcast:
Melissa Lau spent a month in the tundra ecosystem gathering data using a device called a Greenseeker. This device measures exactly how green a plant is by calculating its NDVI or Normalized Difference Vegetation Index. In this lesson, students will explore light waves, how they interact with plants, and find out how green is green.
Educator Allyson Woodard and the Permafrost & Community Team discuss permafrost and how members of the community of Telida are helping to collect data to study the science of permafrost in their Alaskan village. This presentation was broadcast live from the Oregon Museum of Science and Industry (OMSI) in Portland, Oregon on 28 March 2019.
PolarTREC, funded by ARCUS (Arctic Research Consortium of the United States) and NSF (the National Science Foundation), brings educators to Polar Regions for immersive field work with researchers. This professional development opportunity allows educators to share real world experience with polar science in their communities, in the form of outreach and education. As an exhibit developer who
PolarTREC, funded by ARCUS (Arctic Research Consortium of the United States) and the NSF (National Science Foundation), endeavors to connect educators and researchers in real field work experiences. Educators then take that experience back to their learners and community and share their experience in the form of lessons, lectures, and enhanced experiences in the classroom. As
PolarConnect event with teacher Melissa Lau and researchers Jeremy May and Matthew Simon discussing their research on Phenology and Vegetation Change in the Warming Arctic. This presentation was broadcast live from Toolik Field Station, Alaska on 20 June 2018.
Students will learn about the difference between the methods of neutrino detection – optical versus radio. This will then allow them to understand why the relative size of the detectors is so different. Students will also engage in a hands-on activity to understand scale through creating models of the two detectors.