Add to ORKGAnorthosite 60015 contains the lowest initial Sr-87/Sr-86 ratio yet reported for a lunar sample. The initial ratio is equal to that of the achondrite Angra dos Reis and slightly higher than the lowest measured Sr-87/Sr-86 ratio for an inclusion in the C3 carbonaceous chondrite Allende. The Pb-Pb ages of both Angra does Reis and Allende are 4.62 X 10 to the ninth power yr. Thus, the initial Sr/87/Sr-86 ratio found in lunar anorthosite 60015 strongly supports the hypothesis that the age of the Moon is about 4.65 b.y. The U-238/Pb-204 value estimated for the source of the excess lead in "orange soil" 74220 is approximately 35 and lower than the values estimated for the sources of KREEP (600-1000), high-K (300-600), and low-K (100-300) basalts....
Isotopic studies of mare basalts have led workers to conclude that their sources are heterogeneous o...
AbstractDespite more than 40 years of studying Apollo samples, the age and early evolution of the Mo...
Oxide composition of the Moon, evidence for an initially totally molten Moon, geophysical constraint...
Anorthosite 60015 contains the lowest initial Sr-87/Sr-86 ratio (0.69884 + or - 0.00004) yet reporte...
Rb and Sr isotopic data and other chemical data indicate major lunar differentiation at about 4.6 AE...
A synthesis of the early evolution of the moon and of the lunar highland crust is made on the basis ...
U-Th-Pb isotopic data were determined on mineral separates of the diabasic lunar meteorite, Yamato-7...
Establishing the age of the Moon is critical to understanding solar system evolution and the formati...
U-Pb data from lunar meteorites Yamato (Y)-86032 and Y-793274 confirm that they are of lunar origin,...
The volatile elements (e.g., Rb, Pb, Tl, Bi, Cs) seem to have been depleted at the time of lunar acc...
Despite more than 40 years of studying Apollo samples, the age and early evolution of the Moon remai...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/93577/1/j.1945-5100.1996.tb02069.x.pd
Lunar meteorites provide a potential opportunity to expand the study of ancient (>4000 Ma) basaltic ...
We present here an outline of lunar chronology and evolution based on analyses of the isotopic paren...
U-Th-Pb isotopic systematics indicate that Asuka-31 is of lunar origin and was formed 3940±8Ma. The ...
Isotopic studies of mare basalts have led workers to conclude that their sources are heterogeneous o...
AbstractDespite more than 40 years of studying Apollo samples, the age and early evolution of the Mo...
Oxide composition of the Moon, evidence for an initially totally molten Moon, geophysical constraint...
Anorthosite 60015 contains the lowest initial Sr-87/Sr-86 ratio (0.69884 + or - 0.00004) yet reporte...
Rb and Sr isotopic data and other chemical data indicate major lunar differentiation at about 4.6 AE...
A synthesis of the early evolution of the moon and of the lunar highland crust is made on the basis ...
U-Th-Pb isotopic data were determined on mineral separates of the diabasic lunar meteorite, Yamato-7...
Establishing the age of the Moon is critical to understanding solar system evolution and the formati...
U-Pb data from lunar meteorites Yamato (Y)-86032 and Y-793274 confirm that they are of lunar origin,...
The volatile elements (e.g., Rb, Pb, Tl, Bi, Cs) seem to have been depleted at the time of lunar acc...
Despite more than 40 years of studying Apollo samples, the age and early evolution of the Moon remai...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/93577/1/j.1945-5100.1996.tb02069.x.pd
Lunar meteorites provide a potential opportunity to expand the study of ancient (>4000 Ma) basaltic ...
We present here an outline of lunar chronology and evolution based on analyses of the isotopic paren...
U-Th-Pb isotopic systematics indicate that Asuka-31 is of lunar origin and was formed 3940±8Ma. The ...
Isotopic studies of mare basalts have led workers to conclude that their sources are heterogeneous o...
AbstractDespite more than 40 years of studying Apollo samples, the age and early evolution of the Mo...
Oxide composition of the Moon, evidence for an initially totally molten Moon, geophysical constraint...