The objectives of this lesson are:
* Students will know that climate change is happening most quickly in Arctic regions.
* Students will know that a warming climate is causing permafrost to thaw.
* Students will know that thawing permafrost is impacting infrastructure in Alaska, including roads and buildings.
* Students will design an engineering solution to create stable
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.
PolarTREC, the teacher-research program run through ARCUS (Arctic Research Consortium of the United States) and the National Science Foundation is a transformative, inspirational, and highly valuable experience for science teachers. Being provided with the opportunity to engage in authentic scientific practices allows teachers to enrich their own classroom activities and inspires the next generation of young scientists to
Lesley Anderson was connected with local California radio station KSON before and during her trip to South Pole, Antarctica as part of the PolarTREC program.
1. KSON Radio Station hosts a live interview with Lesley Anderson at the food fund in Bonita, CA.:
http://www.kson.com/media/audio-channel/john-and-tammys-food-fund-friday-bonita
2. Article in John & Tammy Blog (see downloadable article).
3. Facebook post during her stay
The Star News, a Chula Vista newspaper interviews Lesley Anderson about her experience studying neutrinos at the South Pole and her plans to bring the research back into her classroom.
2017 Antarctica Day celebration with PolarTREC teacher Lesley Anderson speaking from the South Pole, and researcher Dr. Jim Madsen discussing the IceCube Neutrino Observatory and the Askaryan Radio Array. This event was held on 4 December 2017.
Students will use a model to explore the relationships between sunlight and release of carbon dioxide (CO2) from thawing Arctic watersheds.
After studying the carbon cycle, students are asked to reflect on how natural phenomena – thawing of permafrost, interactions of soil microbes on dissolved carbon, and amount of sunlight – interconnect and influence the release of CO2
Models are great to use to make a concept easier to understand, to visualize a process or outcome, and also to allow a scientist to test selected variables. IMOLD is a great model of leaf decomposition, because it allows the students to interact with two variables affecting decomposition rates, and test those variables in many more ways than they could
This lesson describes how decomposition happens, and the role of microorganisms in this process. The animation, which runs for 3:23 minutes total time, covers information that students may or may not be familiar with. Here is one suggestion for working your students through the animation. By actively taking notes during the animations, students can engage in a dialogue with the