The Floating Lithosphere - Isostasy
This activity was selected for the On the Cutting Edge Reviewed Teaching Collection
This activity has received positive reviews in a peer review process involving five review categories. The five categories included in the process are
- Scientific Accuracy
- Alignment of Learning Goals, Activities, and Assessments
- Pedagogic Effectiveness
- Robustness (usability and dependability of all components)
- Completeness of the ActivitySheet web page
For more information about the peer review process itself, please see https://serc.carleton.edu/teachearth/activity_review.html.
Initial Publication Date: September 5, 2006 | Reviewed: November 1, 2012
- First Publication: September 5, 2006
- Reviewed: November 1, 2012 -- Reviewed by the On the Cutting Edge Activity Review Process
DOIThis page currently has no DOI, but you may request a DOI be assigned. |
Cite thisSummary
This activity lays the mathematical underpinning for studying isostasy in the Earth. Students numerically and then analytically determine the relations governing the depth of compensation in a variety of situations including a block of ice floating in water. Students recreate spreadsheets shown in the PowerPoint module on their own with formulas that answer various pieces of the overall question. This modules is the first in a set of three exploring isostacy.
Share your modifications and improvements to this activity through the Community Contribution Tool »
Learning Goals
- Gain conceptual understanding by exploring the analogy of ice floating in water.
- Numerically determine the difference in floating levels between oceanic and continental crust.
- Analytically derive this difference in floating levels.
Context for Use
This module was designed to be used in an undergraduate mathematical geology class where students are asked to look at geological questions mathematically and may spend more time on the math than on the geology.
Description and Teaching Materials
This module is one of several developed by Dr. Vacher. The module presentation can be found at www.powershow.com
The Powerpoint file is considered to be the student version. There is also an instructor's version that has active spreadsheets in it. There are instructions for requesting this version on the website.
Teaching Notes and Tips
These modules were developed as essentially self-paced, take-home lab assignments. Students are supposed to work through the modules, slide by slide, building their own worksheets as they go along, taking note of instructions and prompts, hints, and queries.
Students must have access to computers equipped with a spreadsheet program such as Excel.
Assessment
The easiest way to test student work on this module is to ask students to hand in a copy of their worksheets starting with a different set of input data. The module also ends with homework assignment questions.
References and Resources