-
Series: Cambridge planetary science series, 8
-
Year: 1,993
-
City: Cambridge [England] ; New York
-
Pages: xiii, 263 pages : ill ; 26 cm
-
Pages In File: 278
-
Language: English
-
Library: kolxo3
-
Issue: 71
-
Identifier: 0521261031,9780521261036,0521619238,9780521619233
-
Dpi: 300
-
Color: 1
-
Org File Size: 7,549,044
-
Extension: djvu
-
Toc: Content: 1. The multi-ring basin problem. 1.1. Multi-ring basins and their significance. 1.2. Overview of the lunar multi-ring basin controversy. 1.3. The approach of this book -- 2. From crater to basin. 2.1. The cratering process. 2.2. The morphology of fresh lunar craters. 2.3. Size-dependent morphologic thresholds: crater to basin. 2.4. Inventory of lunar multi-ring basins -- 3. The 'archetype' basin: Orientale. 3.1. Regional geology of the Orientale impact site. 3.2. Orientale morphology and geological units. 3.3. Rings and basin structures. 3.4. Remote sensing of Orientale basin deposits. 3.5. Orientale ejecta at Apollo landing sites? 3.6. The formation and evolution of the Orientale basin -- 4. An ancient basin: Nectaris. 4.1. Regional geology and setting. 4.2. Nectaris morphology and geological units. 4.3. Remote sensing observations of Nectaris basin deposits. 4.4. Apollo 16 site petrology -- the Nectaris component. 4.5. The formation and evolution of the Nectaris Basin -- 5. A modified basin: Crisium. 5.1. Regional geological setting. 5.2. Crisium morphology and geological units. 5.3. Structural geology and rings of the Crisium basin. 5.4. Composition of Crisium basin deposits. 5.5. Crisium ejecta: petrology of the Luna 20 site. 5.6. The formation and evolution of the Crisium basin -- 6. A transitional basin: Serenitatis. 6.1. Regional geological setting and basin definition. 6.2. Serenitatis morphology and geological units. 6.3. Serenitatis basin rings and structure. 6.4. Orbital geochemical data for Serenitatis basin deposits. 6.5. Apollo 17 site geology -- the Serenitatis basin ''melt sheet'' 6.6. The formation and evolution of the Serenitatis basin -- 7. The largest basin: Imbrium. 7.1. Regional geology and settings. 7.2. Imbrium morphology and geological units. 7.3. Imbrium rings and basin structures. 7.4. Remote-sensing data: the composition of Imbrium ejecta. 7.5. The Fra Mauro Formation: pe