Provide one or more context images, a very brief summary of the geology of the site, and a list of the sampling sites commenting on why they were chosen and what might be sampled there. Plan a rover mission which lands in a safe location and collects the maximum number of different types of material, within a total driving range of 5 km (and of course avoiding any obstacles). Mars: geological history Martian time scale age estimates.Įxercise: download all or part of a Mars Odyysey THEMIS visible image, a Global Surveyor MOC image or a HiRISE browse image of an interesting area, and choose just a section if the image is very large. Reading: The geology of Mars: new insights and outstanding questions (by Jim Head, Brown University): - read it over 2 weeks. Geology of Mars: basic mapping using sample data from Mars Odyssey (4) Draw a geological map with estimates of stratigraphic ages (Amazonian, Hesperian, Noachian) and a cross-section. (3) Use the USGS Planetary Nomenclature website to make a map showing feature names in your area. During mapping, refer to the THEMIS version on screen where you can zoom in and out to look at context or greater detail as needed. (2) identify the same area in the THEMIS Day IR Global Mosaic, make a screen grab of it and crop to the same boundaries as (1). (1) use Map-A-Planet to define an area 5 degrees across in an interesting area (including at least two major units), labelling its borders. Exercise: Choose a map area and make four maps of it. (2) Mars data sets and introduction to geology (1) Class presentation of the last assignment. Study Break, a sort of mini-reading week. (4) Draw a geological map with estimates of stratigraphic ages (Copernican, Imbrian etc.) and a cross-section. (2) Use the USGS Planetary Nomenclature website to make a map showing feature names in your area. During mapping, refer to the Quickmap version on screen where you can zoom in and out to look at context or greater detail as needed. ![]() (1) use LRO Quickmap (or JMars for the Moon) to define an area 5 degrees across on a mare/highland boundary, labelling its borders. Extension to other worlds.Įxercise: Choose a map area and make these maps of it. Geological history of the Moon mapping using Clementine or Apollo images. ![]() Shoemaker and Hackman, "Stratigraphic Basis for a Lunar Time Scale", pp. Moon mapping examples: local history, relative ages, crater density etc. Observing and interpreting material units and sequences. Hand in the set of annotated images, including image identification numbers. Order by level of detail and outline each image on the one before, zooming in as in the example provided. Also download a context map of the area from the USGS nomenclature map (link below). Introduction to planetary mappingĮxercise: download images of the Moon from (1) Lunar Orbiter 4, (2) Apollo Metric Camera, (3) Clementine UV/VIS and (4) Lunar Reconnaissance Orbiter LROC (Narrow Angle), all of the same area. Raw NASA data, not maps or press images! (10%) ![]() Paper 1348, 1987: Read Chapters 3 and 5.Įxercise: download and print 5 images from any 5 different missions, with the image ID numbers, approximate image dimensions and location. Wilhelms, "The Geologic History of the Moon", USGS Prof. NASA's Planetary Image Atlas and other resourcesĭ. Introductions purpose of course planetary map and data resources.įirst meeting - in Map and Data Centre, Weldon Library, time to be arranged by email. As soon as you decide you are taking this course, email the instructor: 18 - 23 NOTE: First class (week 2 in schedule) will be held in the Map and Data Centre, Weldon Library.Īssignment (to be completed before the next class) (% marks) Try out the Lunar Reconnaissance Orbiter (LRO) satellite tracker, an incredible new tool located in the "Overlays" panel.Ī timelapse of the LRO passing over the lunar terrain in the new QuickMap 3D (3D Projection with Satellite Tracking engaged).Planetary Image Interpretation - Schedule Planetary Image Interpretation For additional help and to familiarize yourself with the interface and tools, please download our updates guide. To utilize these features, navigate to the QuickMap site located at. ![]() Boolean expressions to help filter data.New projections, layers, tools, and search capabilities.The LROC QuickMap data visualization tool just underwent a major revamp! Now known as Quickmap 3D, the tried and true tool is even more powerful! A "Quickmap 3D" view of the lunar nearside with the NAC Anaglyph locations layer turned on.
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