輪講セミナー(2020年度)

2021.2.4

  • CHAPTER 4 Tectonics
    • Exercises:
      • 4.10 Venusian ridge belts(横田・石田)

2021.1.28

  • CHAPTER 4 Tectonics
    • Exercises:
      • 4.8 Boiled cantaloupe lands on Triton(大川・戸田)
      • 4.9 Io’s crunched crust(長野・江口)

2021.1.21

  • CHAPTER 4 Tectonics
    • Exercises:
      • 4.6 Radiant Earth(長野・江口)
      • 4.7 Planetary warps(豊田・山本)

2021.1.14

  • CHAPTER 4 Tectonics
    • Exercises:
      • 4.3 The fuzzy lithosphere(大川・戸田)
      • 4.4 Hot, flexed lithospheres(笹井・堀川)
      • 4.5 A primary Europan concern(横田・石田)

2021.1.7

  • CHAPTER 4 Tectonics
    • 4.7 Tectonic associations
      • 4.7.5 Terrestrial plate tectonics
    • Exercises:
      • 4.1 Hot and cold asteroids(長野・江口)
      • 4.2 The towering inferno(豊田・山本)

2020.12.24

  • CHAPTER 4 Tectonics
    • 4.7 Tectonic associations
      • 4.7.2 Flexural domes and basins
      • 4.7.3 Stress interactions: refraction of grabens by loads
      • 4.7.4 Io’s sinking lithosphere

2020.12.17

  • CHAPTER 4 Tectonics
    • 4.6 Fractures and faults
      • 4.6.3 Faults: Anderson’s theory of faulting
    • 4.7 Tectonic associations
      • 4.7.1 Planetary grid systems
      • 4.7.2 Flexural domes and basins

2020.12.10

  • CHAPTER 4 Tectonics
    • 4.6 Fractures and faults
      • 4.6.3 Faults: Anderson’s theory of faulting

2020.12.3

  • CHAPTER 4 Tectonics
    • 4.6 Fractures and faults
      • 4.6.3 Faults: Anderson’s theory of faulting
      • Box 4.2 Dip angle of Anderson faults

2020.11.26

  • CHAPTER 4 Tectonics
    • 4.6 Fractures and faults
      • 4.6.3 Faults: Anderson’s theory of faulting

2020.11.19

  • CHAPTER 4 Tectonics
    • 4.6 Fractures and faults
      • 4.6.1 Why faults? Localization
      • 4.6.2 Joints, joint networks, and lineaments

2020.11.5

  • CHAPTER 4 Tectonics
    • 4.5 Flexures and folds
      • 4.5.3 Extension: boudinage or necking instability
      • 4.5.4 Gravitational instability: diapirs and intrusions
    • 4.6 Fractures and faults
      • 4.6.1 Why faults? Localization

2020.10.29

  • CHAPTER 4 Tectonics
    • 4.5 Flexures and folds
      • 4.5.1 Compression: folding of rocks
      • 4.5.2 Folding vs. faulting: fault-bend folds
      • 4.5.3 Extension: boudinage or necking instability

2020.10.22

  • CHAPTER 4 Tectonics
    • 4.5 Flexures and folds
      • 4.5.1 Compression: folding of rocks
        • Box 4.1

2020.10.15

  • CHAPTER 4 Tectonics
    • 4.4 Rates of tectonic deformation
    • 4.5 Flexures and folds
      • 4.5.1 Compression: folding of rocks
        • Box 4.1

2020.10.8

  • CHAPTER 4 Tectonics
    • 4.3 Planetary engines: heat sources and heat transfer
      • 4.3.4 Thermal convection and planetary heat transfer
    • 4.4 Rates of tectonic deformation

2020.9.23

  • CHAPTER 4 Tectonics
    • 4.3 Planetary engines: heat sources and heat transfer
      • 4.3.4 Thermal convection and planetary heat transfer

2020.9.10

  • CHAPTER 4 Tectonics
    • 4.3 Planetary engines: heat sources and heat transfer
      • 4.3.3 Heat transfer by thermal conduction and radiogenic heat production
      • 4.3.4 Thermal convection and planetary heat transfer

2020.9.3

  • CHAPTER 4 Tectonics
    • 4.3 Planetary engines: heat sources and heat transfer
      • 4.3.3 Heat transfer by thermal conduction and radiogenic heat production

2020.8.6

  • CHAPTER 4 Tectonics
    • 4.3 Planetary engines: heat sources and heat transfer
      • 4.3.1 Accretional heat
      • 4.3.2 Tidal dissipation in planetary interiors

2020.7.30

  • CHAPTER 4 Tectonics
    • 4.2 Sources of tectonic stress
      • 4.2.2 Internal sources of tectonic stress
    • 4.3 Planetary engines: heat sources and heat transfer
      • 4.3.1 Accretional heat

2020.7.16

  • CHAPTER 4 Tectonics
    • 4.2 Sources of tectonic stress
      • 4.2.1 External sources of tectonic stress
      • 4.2.2 Internal sources of tectonic stress

2020.7.9

  • CHAPTER 4 Tectonics
    • 4.1 What is tectonic deformation?
      • 4.1.1 Rheologic structure of planets
      • 4.1.2 One- and multiple-plate planets

2020.7.2

  • CHAPTER 11 Ice
    • Exercises:
      • 11.4 Only the surface matters!(長野・横田)
      • 11.5 Permafrosty Mars(大川・石田)
  • CHAPTER 4 Tectonics
    • 4.1 What is tectonic deformation?
      • 4.1.1 Rheologic structure of planets

2020.6.25

  • CHAPTER 11 Ice
    • Exercises:
      • 11.1 Rheology in space(豊田・戸田)  
      • 11.2 The inner heat(笹井・堀川)
      • 11.3 Infinite flowing ice(山本・江口)

2020.6.18

  • CHAPTER 11 Ice
    • 11.5 Ice in the ground
      • 11.5.2 Patterned ground
      • 11.5.3 Thermokarst

2020.6.11

  • CHAPTER 11 Ice
    • 11.5 Ice in the ground
      • 11.5.1 Permafrost
      • 11.5.2 Patterned ground

2020.6.4

  • CHAPTER 11 Ice
    • 11.4 Glacial landforms
      • 11.4.2 Glacial deposition
    • 11.5 Ice in the ground
      • 11.5.1 Permafrost

2020.5.28

  • CHAPTER 11 Ice
    • 11.4 Glacial landforms
      • 11.4.2 Glacial deposition

2020.5.21

  • CHAPTER 11 Ice
    • 11.4 Glacial landforms
      • 11.4.1 Glacial erosion

2020.5.14

  • CHAPTER 11 Ice
    • 11.3 Glacier morphology
      • 11.3.1 Flow velocities in glaciers and ice sheets
      • 11.3.2 Longitudinal flow regime and crevasses
      • 11.3.3 Ice-sheet elevation profile

2020.5.7

  • CHAPTER 11 Ice
    • 11.2 Flow of glaciers
      • 11.2.4 Basal sliding
    • 11.3 Glacier morphology
      • 11.3.1 Flow velocities in glaciers and ice sheets

2020.4.30

  • CHAPTER 11 Ice
    • 11.2 Flow of glaciers
      • 11.2.2 The plastic-flow approximation
      • 11.2.3 Other ices, other rheologies
      • 11.2.4 Basal sliding
      • Box 11.1 Salt glaciers and solution creep

2020.4.23

  • CHAPTER 11 Ice
    • 11.2 Flow of glaciers
      • 11.2.1 Glen’s law
      • 11.2.2 The plastic-flow approximation

2020.4.16

  • CHAPTER 11  Ice
    • 11.1 Ice on planetary surfaces
      • 11.1.2 Glacier classification
      • 11.1.3 Rock Glaciers
    • 11.2 Flow of glaciers

2020.4.9

  • CHAPTER 11  Ice
    • 11.1 Ice on planetary surfaces
      • 11.1.1 Ice within the hydrologic cycle
      • 11.1.2 Glacier classification

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