Difference between revisions of "Lane"
Line 5: | Line 5: | ||
Lat: 9.5°S, Long: 132.0°E, Diam: 55 km, Depth: km, Rükl: ''(farside)'', [[Stratigraphy|Upper Imbrian]]<br /> | Lat: 9.5°S, Long: 132.0°E, Diam: 55 km, Depth: km, Rükl: ''(farside)'', [[Stratigraphy|Upper Imbrian]]<br /> | ||
|} | |} | ||
− | [http://www.lpod.org/coppermine/displayimage.php?pid=1480&fullsize=1 [[Image: | + | [http://www.lpod.org/coppermine/displayimage.php?pid=1480&fullsize=1 [[Image:Normal_lane-clem1.jpg|external image normal_lane-clem1.jpg]]][[Image:Lane.jpg|Lane.jpg]]<br /> Left:''[http://lpod.org/coppermine/displayimage.php?pos=-1480 Clementine] .'' Right: '''''LROC'''''<br /> |
==Images== | ==Images== | ||
[http://www.lpod.org/coppermine/thumbnails.php?album=search&type=full&search=Lane LPOD Photo Gallery] [http://www.lpi.usra.edu/resources/lunar_orbiter/bin/srch_nam.shtml?Lane%7C0 Lunar Orbiter Images] [http://www.lpi.usra.edu/resources/apollo/search/feature/?feature=Lane Apollo Images]<br /> <br /> | [http://www.lpod.org/coppermine/thumbnails.php?album=search&type=full&search=Lane LPOD Photo Gallery] [http://www.lpi.usra.edu/resources/lunar_orbiter/bin/srch_nam.shtml?Lane%7C0 Lunar Orbiter Images] [http://www.lpi.usra.edu/resources/apollo/search/feature/?feature=Lane Apollo Images]<br /> <br /> |
Latest revision as of 02:00, 16 April 2018
Contents
Lane
Lat: 9.5°S, Long: 132.0°E, Diam: 55 km, Depth: km, Rükl: (farside), Upper Imbrian |
Left:Clementine . Right: LROC
Images
LPOD Photo Gallery Lunar Orbiter Images Apollo Images
Maps
(LAC zone 84D1) USGS Digital Atlas PDF
Description
Description: Wikipedia
Additional Information
Nomenclature
Jonathan Homer Lane (August 9, 1819 – May 3, 1880) was an American astrophysicist and inventor. He was particularly interested in astronomy, and was the first to perform a mathematical analysis of the Sun as a gaseous body. His investigations demonstrated the thermodynamic relations between pressure, temperature, and density of the gas within the Sun, and formed the foundation of what would in the future become the theory of stellar evolution.
LPOD Articles
Bibliography