Kooperativer Bibliotheksverbund

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Format: XXXIX, 520 S. , Ill., graph. Darst., Kt.

ISBN: 0883187124 , 0883187116 , 9780883187128

Content: "A superb reference." Physics Today "Will become a classic text in climate research. " Physics World "Valuable to anyone who studies, models, or uses the climate of the earth." Walter Robinson, Bulletin of the American Meteorological Society "Informative and authoritative on a remarkably wide range of topics." Nature Are we entering a period of global warming? Is weather predictable? Physics of Climate offers you an in-depth description of atmospheric circulation and how environmental phenomena worldwide interact in a single, unified system. This integrated approach unites all the key features of the climate system--oceans, atmosphere, and cryosphere--to explain the structure and behavior of climate over time. Ideal for students and professionals in meteorology, oceanography, geophysics, and physics.

Note: Hier auch später erschienene, unveränderte Nachdrucke

Language: English

Subjects: Physics , Geography

Keywords: Atmosphäre ; Klimatologie ; Physik ; Dynamische Meteorologie ; Klima ; Lehrbuch

URL: Inhaltsverzeichnis

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Format: XV, 262 S. , Ill., graph. Darst., Kt.

ISBN: 0691057753 , 9780691050348

Content: In explaining why there is no consensus on whether global warming is real or a myth based on misleading data, Philander "guides the nonscientific reader through new ideas about the remarkable and intricate factors that determine the world's climate."--Jacket.

Language: English

Subjects: Physics , Geography , General works

Keywords: Anthropogene Klimaänderung ; Naturwissenschaften ; Beweis ; Humanökologie ; Klimaänderung ; Einführung

URL: http://www.loc.gov/catdir/samples/prin031/97037613.html

URL: http://www.loc.gov/catdir/toc/prin031/97037613.html

URL: http://www.loc.gov/catdir/description/prin021/97037613.html

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Format: 1 Online-Ressource (LVIII, 1748 Seiten) , Illustrationen

ISBN: 9783030521714

Series Statement: Springer Handbooks

Content: Basics of Atmospheric Measurement Techniques -- In-situ Measurement Techniques -- Remote Sensing Techniques (Ground-Based) -- Remote Sensing Techniques (Space- and Aircraft-Based) -- Complex Measurements - Methods and Applications -- Measurements Networks

Content: This practical handbook provides a clearly structured, concise and comprehensive account of the huge variety of atmospheric and related measurements relevant to meteorologists and for the purpose of weather forecasting and climate research, but also to the practitioner in the wider field of environmental physics and ecology. The Springer Handbook of Atmospheric Measurements is divided into six parts: The first part offers instructive descriptions of the basics of atmospheric measurements and the multitude of their influencing factors, fundamentals of quality control and standardization, as well as equations and tables of atmospheric, water, and soil quantities. The subsequent parts present classical in-situ measurements as well as remote sensing techniques from both ground-based as well as airborn or satellite-based methods. The next part focusses on complex measurements and methods that integrate different techniques to establish more holistic data. Brief discussions of measurements in soils and water, at plants, in urban and rural environments and for renewable energies demonstrate the potential of such applications. The final part provides an overview of atmospheric and ecological networks. Written by distinguished experts from academia and industry, each of the 64 chapters provides in-depth discussions of the available devices with their specifications, aspects of quality control, maintenance as well as their potential for the future. A large number of thoroughly compiled tables of physical quantities, sensors and system characteristics make this handbook a unique, universal and useful reference for the practitioner and absolutely essential for researchers, students, and technicians.

Additional Edition: Erscheint auch als Druck-Ausgabe, Festeinband ISBN 978-3-030-52170-7

Language: English

Subjects: Physics , Geography

Keywords: Meteorologische Messung ; Handbuch ; Fernerkundung ; Atmosphäre ; Meteorologie ; Methode ; Atmosphäre ; Messtechnik ; Methode ; Angewandte Meteorologie ; Fernerkundung ; Atmosphäre ; Messung ; Electronic books ; Lehrbuch

DOI: 10.1007/978-3-030-52171-4

URL: Volltext  (URL des Erstveröffentlichers)

URL: https://doi.org/10.1007/978-3-030-52171-4

Author information: Foken, Thomas 1949-

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Format: VI, 644 S. , Ill., graph. Darst.

ISBN: 0939950162

Series Statement: Reviews in mineralogy 12

Language: English

Subjects: Physics

Keywords: Gestein ; Flüssigkeitseinschluss ; Mineral ; Flüssigkeitseinschluss ; Schmelze ; Einschluss ; Mineral ; Fluid ; Einschluss ; Mineral ; Flüssigkeitseinschluss ; Aufsatzsammlung

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Format: XVII, 314 S. , Ill , 26 cm

ISBN: 0521198038 , 9780521198035

Language: English

Subjects: Engineering , Physics , Geography

Keywords: Erwärmung ; Kohlendioxid ; Sequestration

URL: http://www.gbv.de/dms/bowker/toc/9780521198035.pdf

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Format: XI, 369 S. , Ill., graph. Darst. , CD-ROM (12 cm)

Edition: Corr. 2. printing

ISBN: 354067280X

Series Statement: Physics and astronomy online library

Note: Systemvoraussetzungen: Windows 95/98/NT or SuSE Linux 7.2; 133 MHz Pentium processor or equivalent; minimum free memory 32 MB; minimum hard-disk space 100 MB; Microsoft Visual C++ 6.0 or GNU C++ 2.95. -Literaturverz. S. [347] - 360

Language: English

Subjects: Physics

Keywords: Satellitendynamik ; Satellit ; Umlaufbahn

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

Author information: Montenbruck, Oliver 1961-

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Format: 519 S , Ill., graph. Darst , 28 cm

Series Statement: Colloques internationaux du Centre National de la Recherche Scientifique no 188

Note: Includes bibliographies , Papers in English or French with summaries in English and French

Language: French

Subjects: Physics

Keywords: Festkörper ; Druck ; Konferenzschrift ; Konferenzschrift

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Format: 113 Seiten , Illustrationen

ISBN: 0444414894

Series Statement: Developments in atmospheric science 6

Note: Contents Preface CHAPTER 1. AIR TEMPERATURE AND SENSIBLE HEAT TRANSFER 1.1. Methods of temperature measurement 1.2. Sources of error in temperature measurement 1.3. Sensor thermal inertia Experiment I. Thermal inertia of a thermometer Experiment II. Measurement of the heat transfer coefficient for a plane surface 1.4. The effect of radiation on temperature sensors Experiment III. Effect of radiation on shielded thermometers 1.5. Electrical resistance thermometers Experiment IV. The dissipation of heat from a resistance thermometer 1.6, A ventilated shield for resistance thermometers CHAPTER 2. SOLAR AND TERRESTRIAL RADIATION 2.1. Specific intensity and radiant flux density 2.2. Radiation scales 2.3. The fluxes of solar and terrestrial radiation Experiment V. The measurement of radiation by a thermometric method 2.4. Radiation instruments Experiment VI. Calibration of a pyranometer against a pyrheliometer 2.5. Lambert's or the Cosine Law Experiment VII. Cosine response of a radiometer 2.6. Direct beam and diffuse calibrations for a radiometer Experiment VIII. Dependence of albedo on solar elevation 2. 7. Radiation measurements over finite plane surfaces Experiment IX. Measurement of the albedo over finite surfaces Experiment X. The measurement of long- and short-wave radiation fluxes Experiment XI. A basic pyrheliometer 2.8. The extra-terrestrial solar flux Experiment XII. Determination of the solar constant CHAPTER 3. AIR AND WATER VAPOUR PRESSURE 3.1. Atmospheric pressure 3.2. Liquid column barometers Experiment XIII. A short water barometer 3.3. Aneroid barometers Experiment XIV. The isothermal atmosphere 3.4. Atmospheric humidity 3.5. Parameters specifying humidity 3.6. The mEasurement of humidity Experiment XV. Observation of the dew point Experiment XVI. The hair hygrometer 3.7. Ory- and wet-bulb thermometry and the psychrometer Experiment XVII. The ventilated wet-bulb thermometer Experiment XVIII. Measurement of the Bowen ratio CHAPTER 4. WIND VELOCITY AND TURBULENT TRANSFER 4.1. Methods of wind speed measurement Experiment XIX. The comparison of anemometers 4.2. The wind velocity profile in the atmospheric boundary layer Experiment XX. Observation of the mean wind profile Experiment XXI. The effect of obstructions on the wind profile Experiment XXII. Determination of momentum transfer by the eddy correlation method 4.3. The scale of turbulence Experiment XXIII. The time scale of turbulent fluctuations 4.4. Turbulent transfer Experiment XXIV. Turbulent transfer of heat and water vapour CHAPTER 5. GROUND TEMPERATURE AND HEAT CONDUCTION 5.1. Methods of ground temperature measurement 5.2. Thermo-electric effects 5.3. The theory of ground heat conduction Experiment XXV. Determination of thermal diffusivity from temperature profile observation Experiment XXVI. Diurnal temperature and heat flux waves in the ground 5.4. Heat flux meters 5.5. Thermopiles Experiment XXVII. Calibration of a heat flux meter Experiment XXVIII. Comparison of temperature and heat flux waves CHAPTER 6. ELECTRICAL ANALOGUE MODELLING OF THERMAL PROCESSES 6.1. Steady state heat conduction 6.2. The performance of a heat flux meter Experiment XXIX. Analysis of the steady state response of a heat flux meter - using conducting paper 6.3. Thermal diffusion Experiment XXX. Modelling of temperature waves in the ground 6.4. Simulation of latent heat processes Experiment XXXI. The growth of ice floating on water 6.5. Sensible heat transfer in the atmospheric boundary layer 6.6. Long-wave radiation transfer simulation Experiment XXXII. A micro-meteorological model REFERENCES INDEX

In: Developments in atmospheric science, 6

Language: English

Subjects: Physics , Geography

Keywords: Lehrbuch

URL: Inhaltsverzeichnis

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Format: XVI, 421 S. , Ill., graph. Darst., Kt. , 25cm

Edition: 8. ed.

ISBN: 0415271711 (pbk.) , 0415271703

Note: Contents: Preface to the eighth edition. - Acknowledgements. - 1 INTRODUCTION AND HISTORY OF METEOROLOGY AND CLIMATOLOGY. - A The atmosphere. - B Solar energy. - C Global circulation. - D Climatology. - E Mid-latitude disturbances. - F Tropical weather. - G Palaeoclimates. - H The global climate system. - 2 ATMOSPHERIC COMPOSITION, MASS AND STRUCTURE. - A Composition of the atmosphere. - 1 Primary gases. - 2 Greenhouse gases. - 3 Reactive gas species. - 4 Aerosols. - 5 Variations with height. - 6 Variations with latitude and season. - 7 Variations with time. - B Mass of the atmosphere. - 1 Total pressure. - 2 Vapour pressure C The layering of the atmosphere. - 1 Troposphere. - 2 Stratosphere. - 3 Mesosphere. - 4 Thermosphere. - 5 Exosphere and magnetosphere. - 3 SOLAR RADIATION AND THE GLOBAL ENERGY BUDGET. - A Solar radiation. - 1 Solar output. - 2 Distance from the sun. - 3 Altitude of the sun. - 4 Length of day. - B Surface receipt of solar radiation and its effects. - 1 Energy transfer within the earth-atmosphere system. - 2 Effect of the atmosphere. - 3 Effect of cloud cover. - 4 Effect of latitude. - 5 Effect ofland and sea. - 6 Effect of elevation and aspect. - 7 Variation of free-air temperature with height. - C Terrestrial infra-red radiation and the greenhouse effect. - D Heat budget of the earth. - E Atmospheric energy and horizontal heat transport. - 1 The horizontal transport of heat. - 2 Spatial pattern of the heat budget components. - 4 ATMOSPHERIC MOISTURE BUDGET. - A The global hydrological cycle. - B Humidity. - 1 Moisture content. - 2 Moisture transport. - C Evaporation. - D Condensation. - E Precipitation characteristics and measurement. - 1 Forms of precipitation. - 2 Precipitation characteristics. - a Rainfall intensity. - b Areal extent of a rainstorm. - c Frequency of rainstorms. - 3 The world pattern of precipitation. - 4 Regional variations in the altitudinal maximum of precipitation. - 5 Drought. - 5 ATMOSPHERIC INSTABILITY, CLOUD FORMATION AND PRECIPITATION PROCESSES. - A Adiabatic temperature changes. - B Condensation level. - C Air stability and instability. - D Cloud formation. - 1 Condensation nuclei. - 2 Cloud types. - 3 Global cloud cover. - E Formation of precipitation. - 1 Bergeron-Findeisen theory. - 2 Coalescence theories. - 3 Solid precipitation. - F Precipitation types. - 1 'Convective type' precipitation. - 2 'Cyclonic type' precipitation. - 3 Orographic precipitation. - G Thunderstorms. - 1 Development. - 2 Cloud electrification and lightning. - 6 ATMOSPHERIC MOTION: PRINCIPLES. - A Laws of horizontal motion. - 1 The pressure-gradient force. - 2 The earth's rotational deflective (Coriolis) force. - 3 The geostrophic wind. - 4 The centripetal acceleration. - 5 Frictional forces and the planetary boundary layer. - B Divergence, vertical motion and vorticity. - 1 Divergence. - 2 Vertical motion. - 3 Vorticity. - C Local winds. - 1 Mountain and valley winds. - 2 Land and sea breezes. - 3 Winds due to topographic barriers. - 7 PLANETARY-SCALE MOTIONS IN THE ATMOSPHERE AND OCEAN. - A Variation of pressure and wind velocity with height. - 1 The vertical variation of pressure systems. - 2 Mean upper-air patterns. - 3 Upper wind conditions. - 4 Surface pressure conditions. - B The global wind belts. - 1 The trade winds. - 2 The equatorial westerlies. - 3 The mid-latitude (Ferrel) westerlies. - 4 The polar easterlies. - C The general circulation. - 1 Circulations in the vertical and horizontal planes. - 2 Variations in the circulation of the northern hemisphere. - a Zonal index variations. - b North Atlantic Oscillation. - D Ocean structure and circulation. - 1 Above the thermocline. - a Vertical. - b Horizontal. - 2 Deep ocean water interactions. - a Upwelling. - b Deep ocean circulation. - 3 The oceans and atmospheric regulation. - 8 NUMERICAL MODELS OF THE GENERAL CIRCULATION, CLIMATE AND WEATHER PREDICTION / T. N. Chase and R. G. Barry. - A Fundamentals of the GCM. - B Model simulations. - 1 GCMs. - 2 Simpler models. - 3 Regional models. - C Data sources for forecasting. - D Numerical weather prediction. - 1 Short- and medium-range forecasting. - 2 'Nowcasting'. - 3 Long-range outlooks. - 9 MID-LATITUDE SYNOPTIC AND MESOSCALE SYSTEMS. - A The airmass concept. - B Nature of the source area. - 1 Cold airmasses. - 2 Warm airmasses. - C Airmass modification. - 1 Mechanisms of modification. - a Thermodynamic changes. - b Dynamic changes. - 2 The results of modification: secondary airmasses. - a Cold air. - b Warm air. - 3 The age of the airmass. - D Frontogenesis. - 1 Frontal waves. - 2 The frontal-wave depression. - E Frontal characteristics. - 1 The warm front. - 2 The cold front. - 3 The occlusion. - 4 Frontal-wave families. - F Zones of wave development and frontogenesis. - G Surface/upper-air relationships and the formation of frontal cyclones. - H Non-frontal depressions. - 1 The lee cyclone. - 2 The thermal low. - 3 Polar air depressions. - 4 The cold low. - I Mesoscale convective systems. - 10 WEATHER AND CLIMATE IN MIDDLE AND HIGH LATITUDES. - A Europe. - 1 Pressure and wind conditions. - 2 Oceanicity and continentality. - 3 British airflow patterns and their climatic characteristics. - 4 Singularities and natural seasons. - 5 Synoptic anomalies. - 6 Topographic effects. - B North America. - 1 Pressure systems. - 2 The temperate west coast and Cordillera. - 3 Interior and eastern North America. - a Continental and oceanic influences. - b Warm and cold spells. - c Precipitation and the moisture balance. - C The subtropical margins. - 1 The semi-arid southwestern United States. - 2 The interior southeastern United States. - 3 The Mediterranean. - 4 North Africa. - 5 Australasia. - D High latitudes. - 1 The southern westerlies. - 2 The sub-Arctic. - 3 The polar regions. - a The Arctic. - b Antarctica. - 11 TROPICAL WEATHER AND CLIMATE. - A The intertropical convergence. - B Tropical disturbances. - 1 Wave disturbances. - 2 Cyclones. - a Hurricanes and typhoons. - b Other tropical disturbances. - 3 Tropical cloud clusters. - C The Asian monsoon. - 1 Winter. - 2 Spring. - 3 Early summer. - 4 Summer. - 5 Autumn. - D East Asian and Australian summer monsoons. - E Central and southern Africa. - 1 The African monsoon. - 2 Southern Africa. - F Amazonia. - G El Niño-Southern Oscillation (ENSO) events. - 1 The Pacific Ocean. - 2 Teleconnections. - H Other sources of climatic variations in the tropics. - 1 Cool ocean currents. - 2 Topographic effects. - 3 Diurnal variations. - I Forecasting tropical weather. - 1 Short- and extended-range forecasts. - 2 Long-range forecasts. - 12 BOUNDARY LAYER CLIMATES. - A Surface energy budgets. - B Non-vegetated natural surfaces. - 1 Rock and sand. - 2 Water. - 3 Snow and ice C Vegetated surfaces. - 1 Short green crops. - 2 Forests. - a Modification of energy transfers. - b Modification of airflow. - c Modification of the humidity environment. - d Modification of the thermal environment. - D Urban surfaces. - 1 Modification of atmospheric composition. - a Aerosols. - b Gases. - c Pollution distribution and impacts. - 2 Modification of the heat budget. - a Atmospheric composition. - b Urban surfaces. - c Human heat production. - d Heat islands. - 3 Modification of surface characteristics. - a Airflow. - b Moisture. - 4 Tropical urban climates. - 13 CLIMATE CHANGE. - A General considerations. - B Climate forcings and feedbacks. - 1 External forcing. - 2 Short-term forcing and feedback. - C The climatic record. - 1 The geological record. - 2 Late glacial and post-glacial conditions. - 3 The past 1000 years. - D Possible causes of recent climatic change. - 1 Circulation changes. - 2 Energy budgets. - 3 Anthropogenic factors. - E Model s

Language: English

Subjects: Physics , Geography

Keywords: Lehrbuch

URL: http://scans.hebis.de/11/44/94/11449443_toc.pdf

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Format: V, 279 S.

ISBN: 047052426X (hbk) , 9780470524268 (hbk)

Note: Includes bibliographical references and index

Language: English

Subjects: Physics , Geography , General works

URL: http://www.gbv.de/dms/bowker/toc/9780470524268.pdf