Thematische Bibliographien / Planetary bodies / Bücher

Bücher zum Thema „Planetary bodies“

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Autor: Grafiati
Veröffentlicht am 8. Juni 2024

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1

Mann, Ingrid, Akiko Nakamura und Tadashi Mukai, Hrsg. Small Bodies in Planetary Systems. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-540-76935-4.

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2

Nakamura, A. M., T. Mukai und Ingrid Mann. Small bodies in planetary systems. Berlin: Springer, 2009.

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3

Hanslmeier, Arnold, Stephan Kempe und Joseph Seckbach, Hrsg. Life on Earth and other Planetary Bodies. Dordrecht: Springer Netherlands, 2012. http://dx.doi.org/10.1007/978-94-007-4966-5.

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4

1929-, Teisseyre R., Leliwa-Kopystyński J. 1937-, Lang B und Bakun-Czubarow N, Hrsg. Evolution of the Earth and other planetary bodies. Amsterdam: Elsevier, 1992.

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5

United States. National Aeronautics and Space Administration., Hrsg. Solar wind effects on atmospheres of the weakly magnetized bodies--Mars, Titan, and the moon: Final technical report. [Washington, DC: National Aeronautics and Space Administration, 1996.

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6

Luhmann, Janet G. Solar wind effects on atmospheres of the weakly magnetized bodies--Mars, Titan, and the moon: Final technical report. [Washington, DC: National Aeronautics and Space Administration, 1996.

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7

Digitalis, Raven. Planetary spells & rituals: Practicing dark & light magick aligned with the cosmic bodies. Woodbury, Minn: Llewellyn Publications, 2010.

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8

Digitalis, Raven. Planetary spells & rituals: Practicing dark & light magick aligned with the cosmic bodies. Woodbury, Minn: Llewellyn Publications, 2010.

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9

National Research Council (U.S.). Task Group on Sample Return from Small Solar System Bodies. Evaluating the biological potential in samples returned from planetary satellites and small solar system bodies: Framework for decision making. Washington, D.C: National Academy Press, 1998.

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10

MEVTV, Workshop on the Evolution of Magma Bodies on Mars (1990 San Diego Calif ). MEVTV Workshop on the Evolution of Magma Bodies on Mars: Held at San Diego, California, January 15-17, 1990. Houston, Tex: The Institute, 1990.

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11

National Research Council (U.S.). Committee on Microgravity Research., Hrsg. Microgravity research in support of technologies for the human exploration and development of space and planetary bodies. Washington, D.C: National Academy Press, 2000.

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12

United States. National Aeronautics and Space Administration., Hrsg. Planetary systems around neutron stars: A summary of research, March 1, 1993 through September 30, 1997 : grant no.--NAG W-3405. [Washington, DC: National Aeronautics and Space Administration, 1997.

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13

United States. National Aeronautics and Space Administration., Hrsg. Integration of planetary protection activities: Final technical report for NASA cooperative agreement NCC 2-706, period of performance January 1, 1991 to April 30, 1995. [Washington, DC: National Aeronautics and Space Administration, 1995.

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14

United States. National Aeronautics and Space Administration., Hrsg. Integration of planetary protection activities: Final technical report for NASA cooperative agreement NCC 2-706, period of performance January 1, 1991 to April 30, 1995. [Washington, DC: National Aeronautics and Space Administration, 1995.

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15

Bruce, Hapke, und United States. National Aeronautics and Space Administration., Hrsg. Workshop on the Space Environment: The Effects on the Optical Properties of Airless Bodies, held at Lunar and Planetary Institute, Houston, Texas, November 9-10, 1992. Houston, TX: Lunar and Planetary Institute, 1992.

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16

J, Oró, und COSPAR. (26th : 1986 : Toulouse, France), Hrsg. Environments of planetary bodies and shuttle: Proceedings of Workshop I and XII of the COSPAR twenty-sixth Plenary Meeting held in Toulouse, France, 30th June-11th July 1986. Oxford [Oxfordshire]: Published for the Committee on Space Research by Pergamon Press, 1987.

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17

Knox, Kim. Planetary Bodies. Ellora's Cave Publishing, Incorporated, 2014.

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18

I. Mann,A. M. Nakamura,T. Mukai. Small Bodies in Planetary Systems. Springer, 2009.

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19

Various, Akiko Nakamura, Tadashi Mukai und Ingrid Mann. Small Bodies in Planetary Systems. Springer, 2011.

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20

Small Bodies In Planetary Systems. Springer, 2008.

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21

Heller, Gerhard. Thermophysics of Spacecraft and Planetary Bodies. Elsevier Science & Technology Books, 2012.

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22

Hanslmeier, Arnold, Stephan Kempe und Joseph Seckbach. Life on Earth and Other Planetary Bodies. Springer London, Limited, 2012.

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23

Hanslmeier, Arnold, Stephan Kempe und Joseph Seckbach. Life on Earth and Other Planetary Bodies. Springer, 2014.

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24

Steiner, Rudolf. Man's Connection With The Various Planetary Bodies. Kessinger Publishing, LLC, 2005.

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25

Board, Space Studies, Division on Earth and Life Studies, National Academies of Sciences, Engineering, and Medicine, Board on Life Sciences und Division on Engineering and Physical Sciences. Planetary Protection Considerations for Missions to Solar System Small Bodies: Report Series--Committee on Planetary Protection. National Academies Press, 2023.

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26

Planetary Protection Considerations for Missions to Solar System Small Bodies. Washington, D.C.: National Academies Press, 2022. http://dx.doi.org/10.17226/26714.

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27

Yung, Yuk L., und William B. DeMore. Photochemistry of Planetary Atmospheres. Oxford University Press, 1999. http://dx.doi.org/10.1093/oso/9780195105018.001.0001.

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Eleven planetary atmospheres are included for detailed study in this reference/text, four for the giant planets (Jupiter, Saturn, Uranus, and Neptune), four for the small bodies (Io, Titan, Triton, and Pluto), and three for the terrestrial planets (Mars, Venus, and Earth). The authors have carried out a comprehensive survey of the principal chemical cycles that control the present composition and past history of planetary atmospheres, using the database provided by recent spacecraft missions supplemented by Earth-based observations.
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28

Assessment of Planetary Protection Requirements for Spacecraft Missions to Icy Solar System Bodies. Washington, D.C.: National Academies Press, 2012. http://dx.doi.org/10.17226/13401.

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29

Committee on Planetary Protection Standards for Icy Bodies in the Outer Solar System, Space Studies Board, National Research Council und Division on Engineering and Physical Sciences. Assessment of Planetary Protection Requirements for Spacecraft Missions to Icy Solar System Bodies. National Academies Press, 2012.

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30

Board, Space Studies, National Research Council, Division on Engineering and Physical Sciences und Planetary Protection Standards for Icy Bodies in the Outer Solar System Committee. Assessment of Planetary Protection Requirements for Spacecraft Missions to Icy Solar System Bodies. National Academies Press, 2012.

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31

Committee on Planetary Protection Standards for Icy Bodies in the Outer Solar System, Space Studies Board, National Research Council und Division on Engineering and Physical Sciences. Assessment of Planetary Protection Requirements for Spacecraft Missions to Icy Solar System Bodies. National Academies Press, 2012.

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32

Committee on Planetary Protection Standards for Icy Bodies in the Outer Solar System, Space Studies Board, National Research Council und Division on Engineering and Physical Sciences. Assessment of Planetary Protection Requirements for Spacecraft Missions to Icy Solar System Bodies. National Academies Press, 2012.

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33

(US), National Research Council, und Task Group on Sample Return from Small Solar System Bodies. Evaluating the Biological Potential in Samples Returned from Planetary Satellites and Small Solar System Bodies: Framework for Decision Making. National Academies Press, 1998.

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34

Evaluating the Biological Potential in Samples Returned from Planetary Satellites and Small Solar System Bodies. Washington, D.C.: National Academies Press, 1998. http://dx.doi.org/10.17226/6281.

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35

Life on Earth and Other Planetary Bodies Cellular Origin Life in Extreme Habitats and Astrobiology. Springer, 2012.

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36

Microgravity Research in Support of Technologies for the Human Exploration and Development of Space and Planetary Bodies. Washington, D.C.: National Academies Press, 2000. http://dx.doi.org/10.17226/9452.

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37

Committee on Microgravity Research, Mathematics, and Applications Commission on Physical Sciences, Space Studies Board und National Research Council. Microgravity Research in Support of Technologies for the Human Exploration and Development of Space and Planetary Bodies. National Academies Press, 2000.

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38

Committee on Microgravity Research, Mathematics, and Applications Commission on Physical Sciences, Space Studies Board, National Research Council und Division on Engineering and Physical Sciences. Microgravity Research in Support of Technologies for the Human Exploration and Development of Space and Planetary Bodies. National Academies Press, 2000.

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39

Committee on Microgravity Research, Mathematics, and Applications Commission on Physical Sciences, Space Studies Board und National Research Council. Microgravity Research in Support of Technologies for the Human Exploration and Development of Space and Planetary Bodies. National Academies Press, 2000.

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40

Ormsby, Frank Earl. Law and the Prophets: A Scientific Work on the Relationship Between Physical Bodies, Vegetable, Animal, Human, and Planetary. Kessinger Publishing, 2003.

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41

Board, Space Studies, Task Group on Sample Return from Small Solar System Bodies, National Research Council und Division on Engineering and Physical Sciences. Evaluating the Biological Potential in Samples Returned from Planetary Satellites and Small Solar System Bodies: Framework for Decision Making. National Academies Press, 1998.

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42

Board, Space Studies, Task Group on Sample Return from Small Solar System Bodies, National Research Council und Division on Engineering and Physical Sciences. Evaluating the Biological Potential in Samples Returned from Planetary Satellites and Small Solar System Bodies: Framework for Decision Making. National Academies Press, 1998.

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43

Board, Space Studies, Task Group on Sample Return from Small Solar System Bodies, National Research Council und Division on Engineering and Physical Sciences. Evaluating the Biological Potential in Samples Returned from Planetary Satellites and Small Solar System Bodies: Framework for Decision Making. National Academies Press, 1998.

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44

Schrijver, Karel. Aged Stars and Disrupted Exosystems. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198799894.003.0008.

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Several chapters in this book illustrate the long, complex paths that the scientific community takes to uncover the workings of the Universe. This chapter focuses on the chemical analysis of stars by spectrographically unravelling their light into its constituent colors that, in retrospect, revealed the first evidence of planetary systems, although that remained unrecognized for a long time. A century ago astronomers discovered that many burned-out stars, no longer working as fusion reactors, had unexpected chemicals in their atmospheres. Now these are recognized as evaporated fragments of planetary-system bodies that came too close to the dead star and were eventually pulled into it. With aged stars first clearing their neighborhood by swelling into giants, how can it be that fragments of planetary-system bodies end up in a continuing stream of material crashing into the resulting white dwarfs, ongoing even as they are observed many millions of years after that occurred?
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45

Schrijver, Karel. Lone Rovers. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198799894.003.0007.

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How do stars and planets break the bonds of gravity, and how do we know they do? Most stars form with hundreds, if not thousands, of nearby neighbors, and yet the Sun is all alone; we learn about its crowded birthplace from decayed radioactive products and by the examples of stellar clusters all around in which supernova explosions can either trigger starbirth or terminate the growth of planetary systems. Planets form as the entourage of stars, and yet many have been found floating freely in interstellar space; such dark bodies, thrown free from their original planetary systems by migrating sibling planets and now drifting far from stars, are found by their bending of starlight, working as gravitational lenses—as predicted by Albert Einstein—when they pass in front of distant stars.
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46

Grier, Jennifer A., und Andrew S. Rivkin. Guide to the Universe: Inner Planets. ABC-CLIO, LLC, 2009. http://dx.doi.org/10.5040/9798400660443.

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An expert in planetary sciences offers an accessible synopsis of scientific knowledge about the celestial bodies with which we are most familiar—Mercury, Venus, Earth, and Mars. This volume in the Greenwood Guides to the Universe series covers the inner planets–Mercury, Venus, Earth, and Mars. Thematic chapters discuss all of the many areas of astronomical research surrounding each subject, providing readers with the most up-to-date understanding of current knowledge and the ways in which it has been obtained. Like all of the books in this series, Inner Planets is scientifically sound, but written with the student in mind. It is an excellent first step for researching the exciting scientific discoveries of the Earth and its closest neighbors.
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47

Schrijver, Karel. Exploring the Solar System. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198799894.003.0003.

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In this chapter, the author summarizes the properties of the Solar System, and how these were uncovered. Over centuries, the arrangement and properties of the Solar System were determined. The distinctions between the terrestrial planets, the gas and ice giants, and their various moons are discussed. Whereas humans have walked only on the Moon, probes have visited all the planets and several moons, asteroids, and comets; samples have been returned to Earth only from our moon, a comet, and from interplanetary dust. For Earth and Moon, seismographs probed their interior, whereas for other planets insights come from spacecraft and meteorites. We learned that elements separated between planet cores and mantels because larger bodies in the Solar System were once liquid, and many still are. How water ended up where it is presents a complex puzzle. Will the characteristics of our Solar System hold true for planetary systems in general?
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48

Marchi, Simone, Carol A. Raymond und Christopher T. Russell, Hrsg. Vesta and Ceres. Cambridge University Press, 2022. http://dx.doi.org/10.1017/9781108856324.

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The NASA Dawn mission, launched in 2007, aimed to visit two of the most massive protoplanets of the main asteroid belt: Vesta and Ceres. The aim was to further our understanding of the earliest days of the Solar System, and compare the two bodies to better understand their formation and evolution. This book summarises state-of-the-art results from the mission, and discusses the implications for our understanding not only of the asteroid belt but the entire Solar System. It comprises of three parts: Part 1 provides an overview of the main belt asteroids and provides an introduction to the Dawn mission; Part 2 presents key findings from the mission; and Part 3 discusses how these findings provide insights into the formation and evolution of the Solar System. This is a definitive reference for academic researchers and professionals of planetary science, asteroid science and space exploration.
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49

Caputi, Jane. Call Your "Mutha". Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780190902704.001.0001.

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The proposed new geological era, The Anthropocene (a.k.a. Age of Humans, Age of Man), marking human domination of the planet long called Mother Earth, is truly The Age of the Motherfucker. The ecocide of the Anthropocene is the responsibility of Man, the Western- and masculine-identified corporate, military, intellectual, and political class that masks itself as the exemplar of the civilized and the human. The word motherfucker was invented by the enslaved children of White slave masters to name their mothers’ rapist/owners. Man’s strategic motherfucking, from the personal to the planetary, is invasion, exploitation, spirit-breaking, extraction and toxic wasting of individuals, communities, and lands, for reasons of pleasure, plunder, and profit. Ecocide is attempted deicide of Mother Nature-Earth, reflecting Man’s goal to become the god he first made in his own image. The motivational word Motherfucker has a flip side, further revealing the Anthropocene as it signifies an outstanding, formidable, and inexorable force. Mother Nature-Earth is that “Mutha’ ”—one defying translation into heteropatriarchal classifications of gender, one capable of overwhelming Man, and not the other way around. Drawing upon Indigenous and African American scholarship; ecofeminism; ecowomanism; green activism; femme, queer, and gender non-binary philosophies; literature and arts; Afrofuturism; and popular culture, Call Your “Mutha’ ” contends that the Anthropocene is not evidence of Man’s supremacy over nature, but that Mother Nature-Earth, faced with disrespect, is going away. It is imperative now to call the “Mutha’ ” by decolonizing land, bodies, and minds, ending rapism, feeding the green, renewing sustaining patterns, and affirming devotion to Mother Nature-Earth.
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50

Stubbe, Peter. Legal Consequences of the Pollution of Outer Space with Space Debris. Oxford University Press, 2017. http://dx.doi.org/10.1093/acrefore/9780190647926.013.68.

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This is an advance summary of a forthcoming article in the Oxford Encyclopedia of Planetary Science. Please check back later for the full article.Space debris has grown to be a significant problem for outer space activities. The remnants of human activities in space are very diverse; they can be tiny paint flakes, all sorts of fragments, or entirely intact—but otherwise nonfunctional spacecraft and rocket bodies. The amount of debris is increasing at a growing pace, thus raising the risk of collision with operational satellites. Due to the relative high velocities involved in on-orbit collisions, their consequences are severe; collisions lead to significant damage or the complete destruction of the affected spacecraft. Protective measures and collision avoidance have thus become a major concern for spacecraft operators. The pollution of space with debris must, however, not only be seen as an unfavorable circumstance that accompanies space activities and increases the costs and complexity of outer space activities. Beyond this rather technical perspective, the presence of man-made, nonfunctional objects in space represents a global environmental concern. Similar to the patterns of other environmental problems on Earth, debris generation appears to have surpassed the absorption capacity of the space environment. Studies indicate that the evolution of the space object environment has crossed the tipping point to a runaway situation in which an increasing number of collisions―mostly among debris―leads to an uncontrolled population growth. It is thus in the interest of all mankind to address the debris problem in order to preserve the space environment for future generations.International space law protects the space environment. Article IX of the Outer Space Treaty obligates States to avoid the harmful contamination of outer space. The provision corresponds to the obligation to protect the environment in areas beyond national jurisdiction under the customary “no harm” rule of general environmental law. These norms are applicable to space debris and establish the duty not to pollute outer space by limiting the generation of debris. They become all the more effective when the principles of sustainable development are taken into account, which infuse considerations of intra- as well as inter-generational justice into international law. In view of the growing debris pollution and its related detrimental effects, it is obvious that questions of liability and responsibility will become increasingly relevant. The Liability Convention offers a remedy for victims having suffered damage caused by space debris. The launching State liability that it establishes is even absolute for damage occurring on the surface of the Earth. The secondary rules of international responsibility law go beyond mere compensation: States can also be held accountable for the environmental pollution event itself, entailing a number of consequential obligations, among them―under certain circumstances―a duty to active debris removal. While international law is, therefore, generally effective in addressing the debris problem, growing use and growing risks necessitate the establishment of a comprehensive traffic management regime for outer space. It would strengthen the rule of law in outer space and ensure the sustainability of space utilization.
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