Bielefeld, : transcript Verlag, 2015

3-8394-0239-5

1 online resource (370)

Film

AP 49400

Zeitraffer; Zeitlupe; Zeitperspektive; Film; Medien; Medienwissenschaft; Media; Media Studies

Tedesco

Frontmatter    1  INHALT    5  VORWORT    9  EINLEITUNG. ZEITTHEORETISCHE UND TECHNISCHE VORÜBERLEGUNGEN    11  I. DIE FILMISCHE ENTDECKUNG DER NATUR    47  II. PERSPEKTIVEN EINER ANDEREN NATUR. ›ERRETTUNG‹ ODER ›SPRENGUNG‹ DER PHYSISCHEN REALITÄT?    187  III. DIE ENTDECKUNG DER FILMISCHEN NATUR    225  RESÜMEE    303  VERWENDETE MATERIALIEN: LITERATUR, FILME UND VIDEOAUFZEICHNUNGEN, ABBILDUNGSVERZEICHNIS, INTERNETDOKUMENTE    309  ABBILDUNGEN    343  Backmatter    367

Mit der Möglichkeit der Raffung und Dehnung von Zeit eröffnet der Film Einblicke in Dimensionen, die der Alltag verwehrt. Eine Pflanze erblüht in wenigen Momenten, unscheinbare Gesten werden auf Minutendauer gestreckt. Bewegungen und Abläufe erschließen sich durch diese zeitliche Perspektivierung neu. Sie können redigiert und überformt werden.  Der Band zeichnet am Beispiel des dokumentarischen Films die historische Entwicklung dieser Verfahren nach und beschreibt - im Anschluss an Theorien Roman Ingardens, Walter Benjamins und Siegfried Kracauers - deren ästhetische Wirkung. Gezeigt wird, wie sich das Verständnis der Verfahren im Laufe der Filmgeschichte gewandelt hat.  Behandelt werden unter anderem Werke und Positionen Eadweard Muybridges, Leni Riefenstahls, Godfrey Reggios und die Zeitrafferexperimente Alexander Kluges.

»Eine präzise und originelle Beschreibung spezifischer ästhetischer Qualitäten der filmischen Zeitmanipulationen.«  Markus Stauff,

MEDIENwissenschaft, 2 (2005)

Hoboken, N.J., : Wiley-Interscience, c2006

9786610450480

9781280450488

1280450487

9780470249536

0470249536

9780471980575

0471980579

9780471980568

0471980560

1 online resource (286 p.)

661/.0392

Magnesium oxide

Magnesium oxide - Industrial applications

Magnesium oxide - Safety measures

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

THE CHEMISTRY AND TECHNOLOGY OF MAGNESIA; CONTENTS; Preface; Acknowledgments; 1 History of Magnesia; 1.1 History of Magnesia; Bibliography; 2 Formation and Occurrence of Magnesite and Brucite; 2.1 Introduction; 2.2 Sedimentary Magnesite-Basis for Carbonate Deposition; 2.2.1 Secondary Nodular Magnesite; 2.2.2 Biogenic Carbonate; 2.3 Serpentine Alteration by Hydrothermal Processes; 2.4 Cryptocrystalline Magnesite Formation by Infiltration; 2.5 Crystalline Magnesite-Replacement of Limestone and Dolomite; 2.6 Brucite; 2.7 Worldwide Occurrence of Magnesite and Brucite

2.7.1 United States and Canada2.7.2 Brazil; 2.7.3 Australia; 2.7.4

China; 2.7.5 North Korea; 2.7.6 Nigeria; 2.7.7 South Africa; 2.7.8 India; 2.7.9 Saudi Arabia; 2.7.10 Iran; 2.7.11 Greece; 2.7.12 Turkey; 2.7.13 Serbia and Bosnia; 2.7.14 Austria; 2.7.15 Russia; 2.7.16 Slovakia; 2.7.17 Spain; 2.8 Physical and Chemical Properties of Magnesite; 2.9 Chemical and Physical Properties of Brucite; Bibliography; References; 3 Synthetic Magnesia; 3.1 Introduction; 3.2 Composition of Seawater and Brines; 3.2.1 Seawater Chemistry; 3.2.2 Brine Extraction; 3.2.3 Sump Leaching Phase; 3.2.4 Preparation Phase

3.2.5 Production Phase3.2.6 Evaporite Production; 3.2.7 Subsurface Brines; 3.3 Process Description; 3.3.1 Precipitation Reaction; 3.3.2 Influence of Reaction Conditions on Mg(OH)(2) Particle Morphology; 3.3.3 Dolime/Lime Requirements; 3.3.4 Seawater Pretreatment; 3.3.5 Precipitation Process; 3.3.6 Settling and Compaction; 3.3.7 Washing; 3.3.8 Filtration; 3.3.9 Brine Precipitation; 3.4 Calcination; 3.5 Grinding; 3.6 Packaging; 3.7 Sampling and Testing and In-Process Quality Control; 3.7.1 Dolime; 3.7.2 Seawater; 3.7.3 Reactor; 3.7.4 Settling/Thickener; 3.7.5 Washing; 3.7.6 Filtration

3.7.7 Calcining3.7.8 Grinding; 3.7.9 Finished Product; 3.8 Aman Process; 3.8.1 Pyrohydrolysis of Magnesium Chloride Hexahydrate; 3.9 General Properties of Synthetic Magnesia; Bibliography; References; 4 Mining and Processing Magnesite; 4.1 Mining Operations; 4.1.1 Overburden Removal; 4.1.2 Drilling; 4.1.3 Bench Height; 4.1.4 Hole Diameter; 4.1.5 Burden and Spacing; 4.1.6 Subdrilling; 4.1.7 Hole Stemming; 4.1.8 Blast Hole Pattern; 4.1.9 Blast Timing; 4.1.10 Blasting Agents; 4.1.11 Secondary Blasting; 4.1.12 Chemical Contour and Muck Maps; 4.2 Processing Magnesite

4.2.1 Ore Removal and Primary Crushing4.2.2 Gyratory and Cone Crushers; 4.2.3 Jaw Crushers; 4.2.4 Roll Crushers; 4.2.5 Size Separation; 4.2.6 Screening; 4.2.7 Pneumatic (Air) Classification; 4.2.8 Hydroclones; 4.3 Gravity Concentration; 4.3.1 Float-Sink Separation; 4.3.2 Froth Floatation; 4.3.3 Floatation Reagents; 4.3.4 Floatation Machines; 4.4 Tertiary Crushing; 4.5 Postcalcination Screening and Grinding; References; 5 Calcination of Magnesium Hydroxide and Carbonate; 5.1 Calcination of Magnesite; 5.1.1 Energy Requirement for Calcination Process; 5.1.2 Effect of Time and Temperature

5.1.3 Kinetics of Calcination

A Complete Guide to Magnesia-From Mining to End UseOften relegated to footnote status in texts, magnesia is nevertheless a valuable substance widely used in applications ranging from wastewater treatment to catalysis. The Chemistry and Technology of Magnesia fills the long-standing gap in the literature with a comprehensive, one-stop reference to ""all things magnesia.""The book brings together the many strands of information on magnesium compounds, their production, testing and evaluation, technology, applications, and markets. Opening with an introductory history of the chemi

Berlin, Heidelberg : , : Springer Berlin Heidelberg : , : Imprint : Springer, , 2015

3-662-46402-0

1 online resource (458 p.)

Lecture Notes in Chemistry, , 0342-4901 ; ; 89

541.220113

Spectrum analysis

Chemistry, Organic

Chemistry, Physical and theoretical

Cheminformatics

Spectroscopy/Spectrometry

Organic Chemistry

Physical Chemistry

Computer Applications in Chemistry

Inglese

Description based upon print version of record.

Includes biblographical references at the end of each chapters.

PART I: ACD/Structure Elucidator Expert System -- Fundamentals of the Structure Elucidator Expert Systems -- Strategies of Structure Elucidation -- PART II: Getting Started Structure Elucidator -- Simple Examples of Structure Elucidation -- PART III: Solution of Real World Problems.- Structure Elucidation Using Strict Structure Generation -- Structure Elucidation Using Fuzzy Structure Generation.

Here, the authors introduce readers to solving molecular structure elucidation problems using the expert system ACD/Structure Elucidator. They explain in detail the concepts of the Computer-Assisted Structure Elucidation (CASE) approach and point out the crucial role of understanding the axiomatic nature of the data used to deduce the structure. Aspects covered include the main blocks of the expert system and essential features of the mathematical algorithms used. Graduate and PhD students as well as practicing chemists are provided with a detailed explanation of the various practical approaches

depending on available spectral data peculiarities and the complexity of the unknown structure. This is supported by a large number of real-world completed examples, most of which are related to the structure elucidation of natural product molecules containing unusual skeletons. Dedicated software and further supplementary material are available at www.acdlabs.com/TeachingSE.