Structural geology: A quantitative introduction
Language: English Publication details: UK: Cambridge University Press, 2020. Description: xi, 450p.; 25cmsISBN: 9781107035065Subject(s): Scope of structural geology -- Mathematical tools | Physical concepts -- Elastic-brittle deformation | Elastic-viscous deformationDDC classification: 551.8 P65| Item type | Current library | Call number | Copy number | Status | Date due | Barcode |
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Dr. S. R. Ranganathan Library General Stacks | 551.8 P65:1 (Browse shelf(Opens below)) | 2 | Available | 3056 |
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| 551.8 F67, 2:3 Structural geology | 551.8 F67, 2:4 Structural geology | 551.8 P65 Structural geology: A quantitative introduction | 551.8 P65:1 Structural geology: A quantitative introduction | 551.8 P75 Analysis of geological structures | 551.8 P75:1 Analysis of geological structures | 551.8028 M37 Basic methods of structural geology |
Tackling structural geology problems today requires a quantitative understanding of the underlying physical principles, and the ability to apply mathematical models to deformation processes within the Earth. Accessible yet rigorous, this unique textbook demonstrates how to approach structural geology quantitatively using calculus and mechanics, and prepares students to interface with professional geophysicists and engineers who appreciate and utilize the same tools and computational methods to solve multidisciplinary problems. Clearly explained methods are used throughout the book to quantify field data, set up mathematical models for the formation of structures, and compare model results to field observations. An extensive online package of coordinated laboratory exercises enables students to consolidate their learning and put it into practice by analyzing structural data and building insightful models. Designed for single-semester undergraduate courses, this pioneering text prepares students for graduates studies and careers as professional geoscientists.
Presents a rigorous quantitative approach to structural geology balanced with description and geological examples from the field
Complemented by a website hosting a wealth of supplementary teaching resources, including a lab manual of practical activities and computational MATLAB exercises that help develop programming skills
Illustrated throughout in full color, with electronic figures available to instructors and MATLAB® scripts for solving problems and recreating model plots, and worked problems that offer examples of how to address questions in structural geology
Assumes one year each of college-level physics and calculus
Table of Contents:
Contents
List of Boxes
Preface
1. Scope of Structural Geology
2. Mathematical Tools
3. Physical Concepts
4. Elastic-brittle Deformation
5. Elastic-ductile Deformation
6. Elastic-viscous Deformation
7. Fractures
8. Faults
9. Folds
10. Fabrics
11. Intrusions