2020.1.23
- CHAPTER 7 Regoliths, weathering, and surface texture
- 7.3 Weathering: processes at the surface/atmosphere interface
- 7.3.2 Physical weathering
- 7.3 Weathering: processes at the surface/atmosphere interface
2020.1.16
- CHAPTER 7 Regoliths, weathering, and surface texture
- 7.3 Weathering: processes at the surface/atmosphere interface
- 7.3.2 Physical weathering
- 7.3 Weathering: processes at the surface/atmosphere interface
2020.1.9
- CHAPTER 7 Regoliths, weathering, and surface texture
- 7.3 Weathering: processes at the surface/atmosphere interface
- 7.3.2 Physical weathering
- 7.3 Weathering: processes at the surface/atmosphere interface
2019.12.16
- CHAPTER 7 Regoliths, weathering, and surface texture
- 7.2 Temperatures beneath planetary surfaces
- 7.2.1 Diurnal and seasonal temperature cycles
- 7.2.2 Heat transfer in regoliths
- 7.2.3 Thermal inertia
- 7.2 Temperatures beneath planetary surfaces
2019.12.12
- CHAPTER 7 Regoliths, weathering, and surface texture
- 7.1 Lunar and asteroid regoliths: soil on airless bodies
- 7.1.3 Radiation effects on airless bodies
- 7.2 Temperatures beneath planetary surfaces
- 7.2 Temperatures beneath planetary surfaces
- 7.1 Lunar and asteroid regoliths: soil on airless bodies
2019.12.5
- CHAPTER 7 Regoliths, weathering, and surface texture
- 7.1 Lunar and asteroid regoliths: soil on airless bodies
- Box 7.1 Growth of the lunar regolith
- 7.1.1 Impact comminution and gardening
- 7.1.2 Regolith maturity
- 7.1 Lunar and asteroid regoliths: soil on airless bodies
2019.11.21
- CHAPTER 7 Regoliths, weathering, and surface texture
- 7.1 Lunar and asteroid regoliths: soil on airless bodies
- Box 7.1 Growth of the lunar regolith
- 7.1 Lunar and asteroid regoliths: soil on airless bodies
2019.11.14
- CHAPTER 6 Impact cratering
- Exercises:
- 6.5 Titan gets its kicks!(山本・堀川・山本)
- Exercises:
- CHAPTER 7 Regoliths, weathering, and surface texture
- 7.1 Lunar and asteroid regoliths: soil on airless bodies
- 7.1.1 Impact comminution and gardening
- 7.1 Lunar and asteroid regoliths: soil on airless bodies
2019.10.31
- CHAPTER 7 Regoliths, weathering, and surface texture
- 7.1 Lunar and asteroid regoliths: soil on airless bodies
2019.10.24
- CHAPTER 6 Impact cratering
- Exercises:
- 6.3 Swedish rock rain(豊田・笹井・河本)
- 6.4 Those blasted Martian rocks!(中村・長野・仲村)
- Exercises:
2019.10.17
- CHAPTER 6 Impact cratering
- 6.9 Impact cratering and planetary evolution
- 6.9.5 Impact-induced volcanism?
- 6.9.6 Biological extinctions
- Exercises:
- 6.1 Crater dimensions(横田・大川)
- 6.2 Crater collapse(杉村・尾山)
- 6.9 Impact cratering and planetary evolution
2019.10.10
- CHAPTER 6 Impact cratering
- 6.9 Impact cratering and planetary evolution
- 6.9.1 Planetary accretion
- 6.9.2 Impact catastrophism
- 6.9.3 Origin of the Moon
- 6.9.4 Late Heavy Bombardment
- 6.9 Impact cratering and planetary evolution
2019.10.3
- CHAPTER 6 Impact cratering
- 6.8 Dating planetary surfaces with impact craters
- 6.8.2 b<2 population evolution
- 6.8.3 Leading/trailing asymmetry
- 6.8 Dating planetary surfaces with impact craters
2019.9.26
- CHAPTER 6 Impact cratering
- 6.7 Cratered landscapes
- 6.7.2 Evolution of crater populations
- 6.8 Dating planetary surfaces with impact craters
- 6.8.1 b>2 population evolution
- 6.7 Cratered landscapes
2019.9.5
- CHAPTER 6 Impact cratering
- 6.7 Cratered landscapes
- 6.7.1 Description of crater populations
- 6.7.2 Evolution of crater populations
- 6.7 Cratered landscapes
2019.8.1
- CHAPTER 6 Impact cratering
- 6.7 Cratered landscapes
- 6.7.1 Description of crater populations
- 6.7 Cratered landscapes
2019.7.25
- CHAPTER 6 Impact cratering
- 6.5 Scaling of crater dimensions
- 6.5.2 Impact melt mass
- 6.6 Atmospheric interactions
- 6.7 Cratered landscapes
- 6.5 Scaling of crater dimensions
2019.7.18
- CHAPTER 6 Impact cratering
- 6.4 Ejecta deposits
- 6.4.3 Secondary craters
- 6.4.4 Oblique impact
- 6.4.5 Scaling of crater dimensions
- 6.5 Scaling of crater dimensions
- 6.5.1 Crater diameter scaling
- 6.4 Ejecta deposits
2019.7.11
- CHAPTER 6 Impact cratering
- 6.4 Ejecta deposits
- 6.4.1 Ballistic sedimentation
- 6.4.2 Fluidized ejecta blankets
- 6.4 Ejecta deposits
2019.6.20
- CHAPTER 6 Impact cratering
- 6.4 Ejecta deposits
2019.6.13
- CHAPTER 6 Impact cratering
- 6.3 Cratering mechanics
- Box 6.1 Maxwell’s Z model of crater excavation
- 6.3 Cratering mechanics
2019.6.6
- CHAPTER 6 Impact cratering
- 6.3 Cratering mechanics
- 6.3.3 Modification
- 6.3 Cratering mechanics
2019.5.23
- CHAPTER 6 Impact cratering
- 6.3 Cratering mechanics
- 6.3.2 Excavation
- 6.3.3 Modification
- 6.3 Cratering mechanics
2019.5.16
- CHAPTER 6 Impact cratering
- 6.3 Cratering mechanics
- 6.3.1 Contact and compression
- 6.3.2 Excavation
- 6.3 Cratering mechanics
2019.5.9
- CHAPTER 6 Impact cratering
- 6.3 Cratering mechanics
- 6.3.1 Contact and compression
- 6.3 Cratering mechanics
2019.4.26
- CHAPTER 6 Impact cratering
- 6.2 Impact crater morphology
- 6.2.4 Aberrant crater types
- 6.2.5 Degraded crater morphology
- 6.3 Cratering mechanics
- 6.2 Impact crater morphology
2019.4.19
- CHAPTER 6 Impact cratering
- 6.2 Impact crater morphology
- 6.2.2 Complex craters
- 6.2.3 Multiring basins
- 6.2 Impact crater morphology
2019.4.12
- CHAPTER 6 Impact cratering
- 6.1 History of impact crater studies
- 6.2 Impact crater morphology
- 6.2.1 Simple craters
