Physics
Scientific paper
Nov 1984
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1984lpsc...15..161l&link_type=abstract
(Lunar and Planetary Institute, NASA, American Geophysical Union, et al., Lunar and Planetary Science Conference, 15th, Houston,
Physics
3
Core Sampling, Lunar Composition, Lunar Soil, Regolith, Trace Elements, Apollo 17 Flight, Drilling, Nickel, Phosphorus, Potassium, Rare Earth Elements, Thorium, Moon, Samples, Lunar, Agglutinates, Regolith, Evolution, Apollo 17, Core Tube Samples, Chemistry, Major Elements, Minor Elements, Inaa, Trace Elements, Neutron Activation Analysis, Depth, Comparisons, Soil, Stratigraphy, Composition, Formation, Chronology, Models, Mixing, 70001, 70002, 70003, 70004, 70005, 70006, 70008, 70009, Enrichment, Basalts, G
Scientific paper
Chemical data are reported for agglutinates from 26 depth intervals of the Apollo 17 deep drill core, and the compositions of the agglutinates are compared with those of the soils in which they occur. The agglutinate sequence suggests a scenario in which several closely-spaced depositional events were involved in the formation of the drill core, rather than a continuous accumulation process.
Laul J. C.
Papike James J.
Simon Steven B.
Smith Matthew R.
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