Activities and Examples: Using Data in the Classroom Today
This collection contains links to on-line activites for teaching STEM concepts with data of all types and examples that describe ways in which on-line, published, and student-collected data are currently used in teaching and learning.
This collection includes both data activities identified from across the web as well as a local example collection.
The initial example collection was created in collaboration with the Geological Society of America where the examples were given in a poster session "Using Data to Teach Earth Processes: An Illustrated Community Discussion" sponsored by the NAGT On the Cutting Edge program. We invite you to contribute additional examples in any of the STEM disciplines.
Each example includes a description of the activity, its learning goals, the context in which it is used, information on the needed data, tools, and activities and suggestions for evaluation.
Subjectshowing only Environmental Science Show all Subject
Subject Show all Subject
- Water Quality and Quantity including water resource management, water quality and water treatment
- Air Quality
- Energy sources, supply, reserves, uses
- Forest Resources
- Soils and Agriculture
- Oceans and Coastal Resources
- Land Use and Planning planning, zoning, sprawl issues, urban heat island
- Human Population
- Natural Hazards
- Global Change and Climate
Results 11 - 20 of 51 matches
Carbon Dioxide Exercise part of Starting Point-Teaching Entry Level Geoscience:Interactive Lectures:Examples
Students work in groups, plotting carbon dioxide concentrations over time on overheads and estimating the rate of change over five years. -
Global Temperatures part of Starting Point-Teaching Entry Level Geoscience:Teaching with Data:Examples
Students analyze the global temperature record from 1867 to the present. Long-term trends and shorter-term fluctuations are both evaluated. -
The Modern Atmospheric CO2 Record part of Starting Point-Teaching Entry Level Geoscience:Teaching with Data:Examples
Students compare carbon dioxide (CO2) data from Mauna Loa Observatory, Barrow (Alaska), and the South Pole over the past 40 years to help them better understand what controls atmospheric CO2. -
Volcanoes Around the Globe part of Cutting Edge:Visualization:Examples
Undergraduate non-majors use the Arcview geographic information system (GIS) to explore volcanic hazards and the geochemistry of volcanic rocks. Students explore geochemical data from the GEOROC global database and ...
Stratospheric Ozone part of Starting Point-Teaching Entry Level Geoscience:Teaching with Data:Examples
Students explore observational data from ozone-sondes, TOMS, and UARS measurements to learn about changes in stratospheric ozone over the past several decades. -
Using Mass Balance to Understand Atmospheric CFCs part of Starting Point-Teaching Entry Level Geoscience:Teaching with Data:Examples
Students use an interactive online mass balance model help understand the observed levels of chlorofluorocarbon CFC-12 over the recent past. -
Unit 3: Natural and Agricultural Erosion Rates part of A Growing Concern
Students will identify their perceptions of erosion by examining images of mountain and agricultural landscapes and discussing which environment is more erosive. They will use geospatial figures to compare erosion ...
Long Term Ecological Resources part of Merlot Biology Pedagogic Collection:Teaching with Data:Examples
Students analyze data on temperature and precipitation collected from 26 different Long Term Ecological Research sites and compare them with annual net primary productivity. The students then form an ecological rule to explain their results.
Water Quality-Total Dissolved Solids part of Starting Point-Teaching Entry Level Geoscience:Teaching with Data:Examples
Students use a microcomputer connected to a conductivity probe to measure the total dissolved solids in local area water samples. -
Understanding Carbon Storage in Forests part of Earth Exploration Toolbook:GLOBECarbon
DATA: Forest Inventory and Analysis data, TOOLS: isee Player, Spreadsheet application. SUMMARY: Compare field collected data with results produced by a forest biomass model to understand the process and challenges scientists face when doing terrestrial carbon cycle research.