輪講セミナー（2018年度）

2019.1.24

CHAPTER 3　Strength versus gravity
- 3.6 Clues to topographic support
  - 3.6.3 Geoid anomalies

2019.1.17

CHAPTER 3　Strength versus gravity
- 3.6 Clues to topographic support
  - 3.6.2 Anomalies in the acceleration of gravity
  - 3.6.3 Geoid anomalies

2019.1.10

CHAPTER 3　Strength versus gravity
- 3.6 Clues to topographic support
  - 3.6.1 Flexural profiles
  - 3.6.2 Anomalies in the acceleration of gravity

2018.12.20

CHAPTER 3　Strength versus gravity
- 3.6 Clues to topographic support
  - 3.6.1 Flexural profiles

2018.12.13

CHAPTER 3　Strength versus gravity
- 3.5 Mechanisms of topographic support
  - 3.5.5 Floating elastic shells: flexural support of topographic loads

2018.12.6

CHAPTER 3　Strength versus gravity
- 3.5 Mechanisms of topographic support
  - 3.5.4 Dynamic topography
  - 3.5.5 Floating elastic shells: flexural support of topographic loads

2018.11.29

CHAPTER 3　Strength versus gravity
- 3.5 Mechanisms of topographic support
  - 3.5.4 Dynamic topography

2018.11.22

CHAPTER 3　Strength versus gravity
- 3.5 Mechanisms of topographic support
  - 3.5.3 The topographic advantages of density differences: isostatic support

2018.11.15

CHAPTER 3　Strength versus gravity
- 3.5 Mechanisms of topographic support
  - 3.5.2 Viscous relaxation of topography
  - 3.5.3 The topographic advantages of density differences: isostatic support

2018.11.8

CHAPTER 3　Strength versus gravity
- 3.5 Mechanisms of topographic support
  - 3.5.2 Viscous relaxation of topography

2018.11.1

CHAPTER 3　Strength versus gravity
- 3.5 Mechanisms of topographic support
  - 3.5.1 Plastic strength: Jeffreys’ limit again
  - 3.5.2 Viscous relaxation of topography

2018.10.11

CHAPTER 3　Strength versus gravity
- 3.4 The nature of strength
  - 3.4.4 Planetary strength profiles

2018.10.4

CHAPTER 3　Strength versus gravity
- 3.4 The nature of strength
  - 3.4.3 Creep: strength cannot endure

2018.9.27

CHAPTER 3　Strength versus gravity
- 3.4 The nature of strength
  - 3.4.3 Creep: strength cannot endure

2018.8.2

CHAPTER 3　Strength versus gravity
- 3.4 The nature of strength
  - 3.4.2 Long-term strength

2018.7.26

CHAPTER 3　Strength versus gravity
- 3.4 The nature of strength
  - 3.4.2 Long-term strength

2018.7.23

CHAPTER 3　Strength versus gravity
- 3.4 The nature of strength
  - 3.4.2 Long-term strength

2018.7.19

CHAPTER 3　Strength versus gravity
- 3.4 The nature of strength
  - 3.4.2 Long-term strength

2018.7.12

CHAPTER 3　Strength versus gravity
- 3.4 The nature of strength
  - 3.4.1 Rheology: elastic, viscous, plastic, and more
  - 3.4.2 Long-term strength

2018.6.28

CHAPTER 3　Strength versus gravity
- 3.3 Linking stress and strain: Jeffrey’s theorem
  - 3.3.2 Elastic stress solutions and a limit theorem
  - 3.3.3 A model of planetary topography

2018.6.14

CHAPTER 3　Strength versus gravity
- 3.3 Linking stress and strain: Jeffrey’s theorem
  - 3.3.2 Elastic stress solutions and a limit theorem

2018.6.7

CHAPTER 3　Strength versus gravity
- 3.3 Linking stress and strain: Jeffrey’s theorem
  - 3.3.1 Elastic deformation and topographic support

2018.5.31

CHAPTER 3　Strength versus gravity
- 3.2 Stress and strain: a primer
  - 3.2.4 Stress, strain, and time: viscosity
- 3.3 Linking stress and strain: Jeffrey’s theorem
  - 3.3.1 Elastic deformation and topographic support

2018.5.10

CHAPTER 3　Strength versus gravity
- 3.2 Stress and strain: a primer
  - 3.2.3 Stress and strain combined: Hooke’s law

2018.4.26

CHAPTER 3　Strength versus gravity
- 3.2 Stress and strain: a primer
  - 3.2.2 Stress

2018.4.19

CHAPTER 3　Strength versus gravity
- 3.2 Stress and strain: a primer
  - 3.2.1 Strain
  - 3.2.2 Stress

2018.4.12

CHAPTER 3　Strength versus gravity
- 3.1 Topography and stress
  - Box 3.1 Collapse of topography on a strengthless planet