Understanding Radioactivity in Geology: The Basics of Decay
This activity is part of the On the Cutting Edge Exemplary Teaching Activities collection and has been reviewed by 1 other review process
HideSummary
One of a collection of PowerPoint/Excel modules designed to reinforce quantitative skills in geologic context. The module explores the exponential decay of radioactive parents through the analogy with popping popcorn. Students build a spreadsheet to calculate the number of unpopped kernels of popcorn as a function of time starting with the probability that a given kernel will pop during a 10-sec interval. The module introduces the mathematics of the exponential function as a modeling function in both analytical and numerical contexts.
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Learning Goals
Students will:
- Consider a familiar occurrence of exponential decay in a quantitative way.
- Gain experience in forward modeling of an exponential decay phenomenon.
- Consider the relationship between the decay constant and the probability that a particular parent atom of a radioactive isotope will convert to its radiogenic daughter atom
- Gain experience in fitting a trendline to a column of data.
Context for Use
This activity was designed for an upper-division math-in-geology course for geology majors but can easily be used in an introductory undergraduate geoscience class, as well as a high school pre-calculus class.
Description and Teaching Materials
module (PowerPoint 703kB Dec24 06)
Teaching Notes and Tips
The module is intended as a stand-alone resource. It can be used as a lab exercise or handwork assignment, or as the basis of an interactive classroom activity with just-in-time teaching of mathematical problem solving. The problem context and the mathematical content are developed within the module.
Assessment
The module ends with hand-in questions that the students answer by manipulating the spreadsheets that they prepared while working through the module.