Students collect data for this term project starting with the first lab exercise and continuing throughout the semester. As each unit is covered in the text, class, and lab, students are directed to collect data relevant to their term project. For example: Topographic maps are covered at the start of the semester and students must locate their home; describe its location using the Public Land Survey, Universal Transverse Mercator, and Longitude-Latitude Systems; and describe the local topography. When natural hazards (flooding, slopes, earthquakes, volcanoes, and radon gas) are covered, students must use web resources (some of which are provided by the instructor at http://www2.ivcc.edu/phillips/geology/environmental_research.htm), local resources (such as the local fire chief, library, mayor, relatives, and neighbors), and personal observation to identify hazards and assess the risk they pose; these hazards are submitted as part of a lab assignment. The information collected is analyzed using the principles discussed in class and feedback is provided on pieces that are submitted throughout the semester. At the conclusion of the semester, students organize the collected information, add illustrations (maps and photos), analyze and evaluate the materials collected, and conclude the report with a discussion of how the area should be developed in the future based on the principles learned in the class.

The activity shows the students the immediate relevance of the material as it is covered, shows the students the types of information publicly available, and helps them develop critical analysis skills. The activity introducers students to basic geologic knowledge and shows them how to make use of it.

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This unit delves into the fundamental science and historical contexts to help students explore the question "How can knowledge gained from the Manhattan Project and the Hanford Site contribute using nuclear technologies to positively impact humanity in the future?."Nuclear Chemistry is a great capstone unit for a standard high school chemistry course in that it is fantastic opportunity for students to explore the crossroads between scientific knowledge and the societal implications of new discoveries. Students will have the opportunity to Delve deep into the science standards while also connecting their learning to what it means for us as a global society.

This is the Justice Department's Radiation Exposure Compensation Program homepage. This site features information about the Radiation Exposure Compensation Act, including claimant categories, claim forms, and the Energy Employees Occupational Illness Compensation Program Act. This site also provides a table illustrating a summary of all claims received and compensation paid to date.

The mission of Southwest Research and Information Center is to promote the health of people and communities, protect natural resources, ensure citizen participation, and secure environmental and social justice now and for future generations. The Uranium Impact Assessment Program contains information about current issues dealing with the Navajo Nation. Useful fact sheets are found on this site.

This is an educational and public program designed to increase awareness of uranium health effects and environmental issues for students and community members that are impacted by uranium mining on the Navajo Nation. The site contains lesson plans, teaching resources and information about problem-based learning. There is also a paper on bridging indigenous and traditional scientific approaches as well as many useful links to additional resources.