Lesson Plans & Activities
Northwest Passage: Then and Now
Project EXTREMES lessons were written to be stand alone lessons but can be incorporated into a larger unit.
In this lesson, students learn about some of the early explorations of the Northwest Passage, and how the changing sea ice extent has prompted new explorations of this region to transport goods from one region of the Northern Hemisphere to another.
Exploring the New and Old Arctic
This unit consists of 6 lessons, each tied to NGSS nature of science understandings
In this MS/HS unit, students compare and contrast Arctic expeditions of the past (1893-1896 Fram expedition) and the present (2019-2020 MOSAiC expedition) to prepare for the Arctic of the future.Arctic Feedbacks: Not All Warming Is Equal
This storyline unit consists of 10 lessons, each tied to NGSS Earth's systems standards
In this MS/HS unit, students engage with 360° virtual reality tours, authentic Arctic datasets, and app-based labs to construct models and explanations for the unit driving question, "Why might the Arctic be warming twice as fast as the rest of the world?"DISCOVER-AQ Curriculum Overview
The four DISCOVER-AQ modules can be completed independently, sequentially, or extended into a larger unit of study.
The DISCOVER-AQ curriculum integrates real-word research with real-life learning to answer the question: What are the causes and effects of air quality issues and how do they affect human health and the environment?
Oh No, O3zone: “Good Up High, Bad Nearby!”
The four DISCOVER-AQ modules can be completed independently, sequentially, or extended into a larger unit of study.
This module teaches students about ozone’s role in the atmosphere and explores authentic data to compare and contrast conditions that affect ground-level ozone values.
Carbon Gases CSI: Mobile Lab, Methane & More
The four DISCOVER-AQ modules can be completed independently, sequentially, or extended into a larger unit of study.
During this module, students take a virtual mobile lab drive with scientists to investigate and learn about atmospheric carbon gases, their sources, and impacts on air quality.
Precipitation Patterns Around the Globe
Project EXTREMES lessons were written to be stand alone lessons but can be incorporated into a larger unit.
Students apply their knowledge of the water cycle to investigate how annual precipitation patterns are related to geography and biology.
Data Puzzle: On a Budget
This data puzzle is a stand-alone lesson that is part of a larger collection of data puzzles.
The Arctic is currently warming at a rate faster than the global average, a phenomenon known as Arctic amplification. In this Data Puzzle, students analyze authentic Arctic datasets to construct explanatory models for the following question, "Why might the Arctic be warming faster than other places on Earth?"Data Puzzle: Balancing Act
This data puzzle is a stand-alone lesson that is part of a larger collection of data puzzles.
Since the early 2000s, the Greenland Ice Sheet’s mass balance has been consistently negative, meaning more mass is being lost than gained. But this change in mass balance hasn’t always happened at the same rate. What could account for observed changes to the amount of ice in the Greenland Ice Sheet in recent decades?Data Puzzle: To Reflect or Not to Reflect
This data puzzle is a stand-alone lesson that is part of a larger collection of data puzzles.
The color of Earth's surface determines how much of the Sun's energy is reflected or absorbed, where lighter-colored surfaces are more reflective (higher albedo). In this Data Puzzle, students analyze authentic Arctic data to construct explanatory models for the following question, "How might the Arctic’s albedo be affected by the observed decline in sea ice?"Data Puzzle: It's All Connected
This data puzzle is a stand-alone lesson that is part of a larger collection of data puzzles.
What makes the Arctic climate system so unique is the sea ice, which influences the Arctic climate in many ways. In this Data Puzzle, students analyze authentic Arctic data to construct explanatory models for the following question, "What effect, if any, do leads (cracks in the sea ice) have on the transfer of moisture between the Arctic Ocean and atmosphere?"Data Puzzle: What's the Limit?
This data puzzle is a stand-alone lesson that is part of a larger collection of data puzzles.
Moss campion is a hearty flowering plant that thrives in harsh arctic and alpine tundra ecosystems over a wide range of latitudes in North America. In this Data Puzzle, students analyze authentic moss campion growth and survival data to construct explanatory models for the following question, "How is the growth and survival of moss campion affected by latitude?"Data Puzzle: The Tipping Point
This data puzzle is a stand-alone lesson that is part of a larger collection of data puzzles.
Plants like moss campion are uniquely adapted to the cold, dry climate characteristic of the tundra biome...but temperatures are on the rise. In this Data Puzzle, students analyze temperature and reproduction data to construct explanatory models for the following question "How is moss campion reproduction affected by temperature?"Data Puzzle: Wind Farms of the Future
This data puzzle is a stand-alone lesson that is part of a larger collection of data puzzles.
Transitioning from fossil fuels to clean, renewable energy sources like wind is essential if the US is to reduce its carbon emissions. But where should new wind farms be constructed? In this Data Puzzle, students analyze surface roughness and wind speed data to construct an evidence-based explanation for the following question, "Where in the United States (lands and waters) should new wind turbines be constructed to generate the most energy?"