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200 00$aMeteorites and asteroids$b[electronic resource] $eclassification, geology, and exploration /$fAkilina Dementieva and Danilo Ostrogorsky, editors
210   $aNew York $cNova Science Publishers$dc2012
215   $a1 online resource (186 p.)
225 0 $aSpace science, exploration and policies series
300   $aDescription based upon print version of record.
311   $a1-61942-115-1 
320   $aIncludes bibliographical references and index.
327   $a""METEORITES AND ASTEROIDS ""; ""METEORITES AND ASTEROIDS ""; ""CONTENTS ""; ""PREFACE ""; ""METEORITES AND THEIR ASTEROIDAL PARENT BODIES""; ""ABSTRACT ""; ""INTRODUCTION ""; ""Meteorite Diversity and Classification ""; ""Classification of Chondrites ""; ""Classification of Nonchondritic Meteorites ""; ""Measuring and Interpreting Asteroid Spectra ""; ""Visible Analysis of Spectra ""; ""Visible/Near-Infrared Mineralogical Analysis of Spectra ""; ""Effects of Surface Properties on Asteroid Spectra""; ""METEORITES AND POSSIBLE PARENT BODIES ""; ""Ordinary Chondrites and the S-Type Asteroids ""
327   $a""HEDs and Asteroid 4-Vesta """"CM Chondrites and the C-Type Asteroids ""; ""Iron Meteorites and M-Type Asteroids""; ""Aubrites and E-Types""; ""Ureilites and F-Types ""; ""CONCLUSION ""; ""ACKNOWLEDGMENTS ""; ""REFERENCES ""; ""EXTRATERRESTRIAL MATERIAL  AND CHANGES OF THE EARTHa???S CLIMATE ""; ""ABSTRACT ""; ""INTRODUCTION ""; ""THE INFLUENCE OF CONTINUOUS FLUX  OF EXTRATERRESTRIAL SUBSTANCE  ON ATMOSPHERIC PROCESSES ""; ""POSSIBLE INFLUENCE OF ASTEROID IMPACT  ON ATMOSPHERIC PROCESSES ""; ""The Hallstatt Cycle and Taurid Stream ""
327   $a""Possible Climatic Consequences of Impact of a Stony Asteroid with a Diameter of 250 M """"CONCLUSION ""; ""REFERENCES ""; ""THE DIVERSION AND EXPLOITATION OF ICE-RICH NEOS USING  THE SOLAR COLLECTOR  ""; ""ABSTRACT""; ""INTRODUCTION: THE NEO THREAT, THE NEO OPPORTUNITY  ""; ""THE SOLAR COLLECTOR (SC) ""; ""MODELING THE SOLAR COLLECTOR AS A NEO DEFLECTOR ""; ""DETERMINATION OF EM PENETRATION DEPTH FOR AN EXTRATERRESTRIAL SAMPLE   ""; ""CONSTRAINTS ON SOLAR COLLECTOR DESIGN AND POSITION  ""; ""ASSUMED NEO PROPERTIES""; ""MINIMUM SOLAR COLLECTOR SIZE""
327   $a""SCENARIO 1: DIVERTING AN EARTH-THREATENING NEO """"SCENARIO 2: STEERING A SMALL NEO  INTO HIGH EARTH ORBIT ""; ""CONCLUSION ""; ""ACKNOWLEDGMENTS ""; ""REFERENCES""; ""RADAR CHARACTERISTICS OF ASTEROID 33342 (1998 WT24)""; ""ABSTRACT ""; ""INTRODUCTION ""; ""RADAR DATA ANALYSIS ""; ""CHARACTERISTICS OF THE ASTEROID ""; ""RESULTS COMPARISON ""; ""SCATTERING PROPERTIES OF ASTEROID ""; ""CONCLUSION ""; ""REFERENCES ""; ""ASTEROIDS DIMENSIONS AND THE TRUNCATED PARETO DISTRIBUTION""; ""Abstract""; ""1.Introduction""; ""2.StatisticalDistribution""; ""3.ApplicationtotheAsteroids""
327   $a""4.SimulatingParetoTails""""4.1.Accretion""; ""4.2.Fragmentation""; ""4.2.1.Fractaldistributionoffragmentssize""; ""5.Conclusions""; ""References""; ""HILDA ASTEROIDS IN THE JUPITER NEIBORHOOD""; ""Abstract""; ""1.Introduction""; ""2.HildaAsteroidGroup""; ""3.DynamicalEvolutionofHildaAsteroidsRemovedfromtheResonance""; ""4.RelationwithJFCs""; ""4.1.TheRelationwithQuasi-HildasandtheSL9Case""; ""5.ImpactCrateringontheGalileanSystem""; ""6.Conclusion""; ""References""; ""ASTEROIDS APOPHIS AND 1950 DA:  1000 YEARS ORBIT EVOLUTION  AND POSSIBLE USE ""; ""ABSTRACT ""; ""1. INTRODUCTION ""
327   $a""2. PROBLEM STATEMENT ""
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200 10$aJulia Quick Syntax Reference $eA Pocket Guide for Data Science Programming /$fby Antonello Lobianco
205   $a1st ed. 2019.
210  1$aBerkeley, CA :$cApress :$cImprint: Apress,$d2019.
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327   $aPart 1. Language Core -- 1. Getting Started -- 2. Data Types and Structures -- 3. Control Flow and Functions -- 4. Custom Types -- 5. Input ? Output -- 6. Metaprogramming and Macros -- 7. Interfacing Julia with Other Languages -- 8. Efficiently Write Efficient Code -- Part 2. Packages Ecosystem -- 9. Working with Data -- 10. Mathematical Libraries -- 11. Utilities.
330   $aThis quick Julia programming language guide is a condensed code and syntax reference to the Julia 1.x programming language, updated with the latest features of the Julia APIs, libraries, and packages. It presents the essential Julia syntax in a well-organized format that can be used as a handy reference. This book provides an introduction that reveals basic Julia structures and syntax; discusses data types, control flow, functions, input/output, exceptions, metaprogramming, performance, and more. Additionally, you'll learn to interface Julia with other programming languages such as R for statistics or Python. You will learn how to use Julia packages for data analysis, numerical optimization and symbolic computation, and how to disseminate your results in dynamic documents or interactive web pages. In this book, the focus is on providing important information as quickly as possible. It is packed with useful information and is a must-have for any Julia programmer. You will: Set up the software needed to run Julia and your first Hello World example Work with types and the different containers that Julia makes available for rapid application development Use vectorized, classical loop-based code such as logical operators and blocks Explore functions by looking at arguments, return values, polymorphism, parameters, anonymous functions, and broadcasts Build custom structures in Julia Interface Julia with other languages such as C/C++, Python, and R Program a richer API, modifying the code before it is executed using expressions, symbols, macros, quote blocks, and more Maximize your code?s performance .
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615  0$aComputer science$xMathematics.
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615 24$aArtificial Intelligence.
615 24$aData Mining and Knowledge Discovery.
615 24$aMathematics of Computing.
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