Back to search results

Introduction to planetary geomorphology

Enlarge text Shrink text
  • Book

Nearly all major planets and moons in our Solar System have been visited by spacecraft and the data they have returned has revealed the incredible diversity of planetary surfaces. Featuring a wealth of images, this textbook explores the geological evolution of the planets and moons. Introductory chapters discuss how information gathered from spacecraft is used to unravel the geological complexities of our Solar System. Subsequent chapters focus on current understandings of planetary systems. The textbook shows how planetary images and remote sensing data are analyzed through the application of fundamental geological principles. It draws on results from spacecraft sent throughout the Solar System by NASA and other space agencies. Aimed at undergraduate students in planetary geology, geoscience, astronomy and solar system science, it highlights the differences and similarities of the surfaces at a level that can be readily understood by non-specialists.

Title Introduction to planetary geomorphology / Ronald Greeley. [electronic resource]
Publisher Cambridge : Cambridge University Press
Creation Date 2013
Notes Title from publisher's bibliographic system (viewed on 05 Oct 2015).
Includes bibliographical references and index.
English
Content Cover
Contents
Foreword
Preface
Acknowledgments
Chapter 1 Introduction
1.1 Solar System overview
1.1.1 The terrestrial planets
1.1.2 The giant planets
1.1.3 Small bodies, Pluto, and "dwarf planets"
1.2 Objectives of Solar System exploration
1.2.1 Planetary geology objectives
1.2.2 Astrobiology
1.3 Strategy for Solar System exploration
1.4 Flight projects
1.5 Planetary data
1.6 Planetary research results
Assignments
Chapter 2 Planetary geomorphology methods
2.1 Introduction
2.2 Approach
2.3 Planetary geologic maps
2.4 Geologic time
2.5 Remote sensing data
2.5.1 Visible imaging data2.5.2 Multispectral data
2.5.3 Thermal data
2.5.4 Radar imaging data
2.5.5 Ultraviolet, X-ray, and gamma-ray data
2.6 Geophysical data
2.7 Image processing
2.8 Resolution
2.9 Electronic data records (EDRs)
2.10 Cartography
Chapter 3 Planetary morphologic processes
3.1 Introduction
3.2 Tectonism
3.3 Volcanic processes
3.3.1 Volcanic eruptions
3.3.2 Volcanic morphology
3.3.3 Volcanic craters
3.3.4 Intrusive structures
3.4 Impact cratering
3.4.1 Impact cratering mechanics
3.4.2 Impact craters on Earth
3.4.3 Impact craters and planetary environments3.5 Gradation
3.5.1 Weathering
3.5.2 Mass wasting
3.5.3 Processes associated with the hydrologic cycle
3.5.4 Aeolian processes
3.5.5 Periglacial processes
3.6 Summary
Chapter 4 Earth's Moon
4.1 Introduction
4.2 Lunar exploration
4.2.1 Pre-Apollo studies
4.2.2 The Apollo era
4.2.3 Post-Apollo exploration
4.3 Interior characteristics
4.4 Surface composition
4.5 Geomorphology
4.5.1 Impact craters and basins
4.5.2 Highland plains
4.5.3 Mare terrains
4.5.4 Sinuous rilles
4.5.5 Volcanic constructs
4.5.6 Tectonic features4.5.7 Gradational features
4.6 Geologic history of the Moon
Chapter 5 Mercury
5.1 Introduction
5.2 Mercury exploration
5.3 Interior characteristics
5.4 Surface composition
5.5 Geomorphology
5.5.1 General physiography
5.5.2 Impact craters
5.5.3 Multi-ring basins
5.5.4 Volcanic features
5.5.5 Tectonic features
5.5.6 Gradation features
5.6 Geologic history
Chapter 6 Venus
6.1 Introduction
6.2 Venus exploration
6.3 Interior characteristics
6.4 Surface compositions
6.5 Geomorphology
6.5.1 General physiography
6.5.2 Impact craters6.5.3 Volcanic features
6.5.4 Tectonic features
6.5.5 Gradation features
6.6 Geologic history
Chapter 7 Mars
7.1 Introduction
7.2 Exploration
7.3 Interior
7.4 Surface composition
7.5 Geomorphology
7.5.1 Physiography
7.5.2 Impact craters
7.5.3 Volcanic features
7.5.4 Tectonic features
7.5.5 Gradation features
7.6 Geologic history
Chapter 8 The Jupiter system
8.1 Introduction
8.2 Exploration
8.3 Jupiter
8.4 Io
8.4.1 Impact features (none!)
8.4.2 Volcanic features
8.4.3 Tectonic features
8.4.4 Gradation features
8.4.5 Io summary
Extent 1 online resource (xiii, 238 pages) : digital, PDF file(s).
Language English
National Library system number 997010720759605171
MARC RECORDS
Tags

Have more information? Found a mistake?

More on this subject

The story of our earth : the Science of geology, history of the world read from rocks and mineral deposits / by William J.Miller.

William J. Miller (William John), 1880-1965

Book
The Story of the Earth in 25 Rocks : Tales of Important Geological Puzzles and the People Who Solved Them / Donald R. Prothero.
Book
Worlds fantastic, worlds familiar : a guided tour of the solar system / Bonnie J. Buratti, Jet Propulsion Laboratory, California Institute of Technology. [electronic resource]
Book

This may also interest you

Freedom Under Siege: The Last Seder in Kfar Etzion

Freedom Under Siege: The Last Seder in Kfar Etzion

On the 14th of Nissan (April 23), the eve of Passover 1948, the defenders of Gush Etzion knew that their fate was sealed – and that if they stayed where they were, they would die. They were surrounded by Arab villages which served as bases for the Arab Legion, a Jordanian military force that outmat

To the article on our blog
From Ben Shemen to the Concentration Camp and Back: The Story of a Family Photo

From Ben Shemen to the Concentration Camp and Back: The Story of a Family Photo

Family. Young men and women who share DNA or marital ties, and three little children, all of them smiling for a photographer, frozen in one moment in time and in a single place: Kovno, 1939. Just a few months before the whole world turned upside down. Ostensibly, this is a perfectly ordinary family

To the article on our blog
World War II

World War II

World War II was the most destructive and deadly war in human history. The war officially began when Nazi Germany invaded Poland on September 1, 1939. Although the invasion of Poland is commonly seen as the first act of war, Nazi Germany’s annexation of Austria and its occupation of Czechoslovakia i

More on this subject