What kind of thing is a planet?
What kind of thing is a planet?
Front matter
Declaration
Preamble
Abstract
Introduction
Acknowledgements
Thesis
1. Review and Theory
2. Tools and Methods
2.1. The analytical toolkit
2.2. Numerical methods and the Underworld code
2.3. Suite-modelling, PlanetEngine and Everest
2.4. Conclusion
3. Everest: a Framework for Abstractified Science
3.1. Introduction
3.2. Motivation
3.3. Doctrine
3.4. Framework
3.5. Implementation
3.6. Demonstration
3.7. Discussion
3.8. Conclusion
4. Scaling Behaviours of Linear Rheologies: Constant Viscosity
4.1. Introduction
4.2. Background
4.2.1. Basics of convection
4.2.2. Simple isoviscous rheology
4.2.3. Isoviscous rheology with internal and mixed heating
4.2.4. Isoviscous rheology in cylindrical geometry
4.2.5. Conclusion
4.3. Methods
4.4. Results
4.5. Discussion
4.6. Conclusion
5. Scaling Behaviours of Linear Rheologies: Temperature-Dependent Viscosity
5.1. Introduction
5.2. Conclusion
6. Mode Boundaries in Viscoplastic Rheology
6.1. Introduction
6.2. Conclusion
7. Big Data Methods for Computational Geodynamics
7.1. Introduction
7.2. Conclusion
8. Discussion
9. Conclusion
End matter
References
Appendices
Tables
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9.
Conclusion
ΒΆ
8.
Discussion
References
