Marine physics
著者
書誌事項
Marine physics
(Elsevier oceanography series, 53)
Elsevier , PWN-Polish Scientific Publishers, 1992
- タイトル別名
-
Fizyka morza
大学図書館所蔵 全17件
  青森
  岩手
  宮城
  秋田
  山形
  福島
  茨城
  栃木
  群馬
  埼玉
  千葉
  東京
  神奈川
  新潟
  富山
  石川
  福井
  山梨
  長野
  岐阜
  静岡
  愛知
  三重
  滋賀
  京都
  大阪
  兵庫
  奈良
  和歌山
  鳥取
  島根
  岡山
  広島
  山口
  徳島
  香川
  愛媛
  高知
  福岡
  佐賀
  長崎
  熊本
  大分
  宮崎
  鹿児島
  沖縄
  韓国
  中国
  タイ
  イギリス
  ドイツ
  スイス
  フランス
  ベルギー
  オランダ
  スウェーデン
  ノルウェー
  アメリカ
注記
Rev. and updated translation of: Fizyka morza
Includes bibliographical references and index
内容説明・目次
内容説明
In trying to discover as much as possible about the marine environment, oceanography has split into many subdisciplines, each represented by innumerable publications. To date however, there has been no concise synthesis introducing readers to the whole array of physical processes in the sea, and showing how these processes are related to one another and to other natural phenomena. The author of Marine Physics aims to fill this gap.The volume presents energy and mass transfer processes in the marine environment together with an explanation of their effects on other processes. Starting with a general introduction to the thermodynamics of ocean waters, there follow chapters on radiation transfer processes; the molecular exchange of mass, heat and momentum; the turbulent exchange of mass, heat and momentum; small-scale air-sea interactions; modelling the surface boundary layer; and the propagation of acoustic waves in the sea. The discussions begin with physical principles and culminate in a presentation of current research problems. The volume is completed with the presentation of basic quantities, equations, formulas and diagrams, as well as indexes and 576 literature references. This volume should be an invaluable resource to post-graduates and scientists in the fields of engineering and oceanography, and for those interested in the protection or exploitation of the marine environment.
目次
Preface. A General Picture of Physical Processes in the Ocean. 1. The Earth as a Thermodynamic System. 2. Forces Inducing the Motion of Water Masses in the Ocean. The Force of Gravity and Its Components. Geopotential. Pressure, Buoyancy. Vertical Stability. The Vaisala-Brunt Oscillation Frequency. The Inclination of Isobaric Surfaces. The Action of the Coriolis Force. Frictional Forces. The Equation of Motion of Waters. Seawater as a Physical Medium. 1. The Structure of the Water Molecule. 2. The Association of Water Molecules. The Structure of an Ice Crystal and Liquid Water. 3. Ion Hydrates in Seawater. 4. The Principal Chemical Constituents and the Salinity of Seawater. 5. Electrical Conductivity as an Indicator of Seawater Salinity. Measurement of Salinity on the Practical Scale. 6. Yellow Substances in Seawater. 7. Suspended Particles in Seawater, Their Concentration and Dimensions. 8. Gas Bubbles in Sea Water. The Thermodynamics of Seawater. 1. Seawater State Parameters. 2. The Thermal Expansion of Seawater. 3. The Compressibility of Seawater. Potential Temperature and Potential Density in the Sea. 4. The Salinity Effect on the Specific Volume of Seawater. 5. The Equation of State for Seawater. The Interaction of Light and Other Electromagnetic Radiation with Seawater. The Inherent Optical Properties of the Sea. 1. Radiance and Other Basic Photometric Quantities in Hydrooptics. 2. Light Absorption in Seawater. Light Absorption by Water Molecules. Light Absorption by Seawater Constituents. 3. Light Scattering in Seawater. Rayleigh's Theory of Scattering. The Volume Scattering Function and the Total Scattering Coefficient. Molecular Scattering According to the Smoluchowski-Einstein Fluctuation Theory. Scattering by Marine Suspended Particles. Principles of the Mie Theory. A Matrix Description of Scattering. Stokes Parameters. 4. The Transparency of Seawater to Light and Other Electromagnetic Waves. The Radiant Energy Transfer Equation in the Sea. Solar Radiation Inflow and the Natural Irradiance in the Sea. The Apparent Optical Properties of the Sea. The Solar Constant. 1. The Influx of Solar Radiation to the Sea Surface. The Optical Thickness of the Atmosphere. The Single Scattering Model. The Transmittance of a Real Atmosphere. 2. Reflection and Transmittance of Sunlight at the Sea Surface. The Albedo of the Sea Reflectance Functions. Albedo Reflection from a Roughened Sea Surface. 3. The Penetration of Natural Light into the Sea Depths. The Optical Classification of Waters. Vector Irradiance. The Diversity of Irradiance and the Optical Classification of Waters. Fluctuations in the Underwater Irradiance. 4. The Apparent Optical Properties of the Sea and their Relationships with the Inherent Properties in an Underwater Light Field. Definitions of Apparent Optical Properties. The Interrelationships among the Optical Properties of the Sea. The Asymptotic Light Field. The Transfer of Mass, Heat and Momentum in the Marine Environment. 1. Molecular Transport of Mass, Heat and Momentum in Seawater. The Equation of Diffusion. The Thermal Conductivity Equation. The Navier-Stokes Equation of Motion. 2. The Turbulent Exchange of Mass, Heat and Momentum in the Sea. Conditions for Turbulent Motion. Average and Fluctuating Component of Velocity. Averaging of the Navier-Stokes Equation of Motion. The Turbulent Exchange of Momentum. The Turbulent Exchange of Mass and Heat. Small-Scale Air-Sea Interaction and its Influence on the Structure of Water Masses in the Sea. 1. Fluxes of Momentum, Mass and Heat Across the Sea Surface. The Solar Radiation Flux Q. The Long Radiation Flux Q. The Surface Boundary Layer, Momentum Flux. The Fluxes of Sensible Heat Q and Latent Heat Q and of the Mass of Water Vapour M. The Laminar Surface Layer. Fluxes of Water Droplets, Salt Particles and Electric Charge. 2. The Energy Budget of a Basin and Its Influence on the Structure of Water Masses. The Equation of the Turbulent Energy Budget. The Horizontally Stratified Sea Model. The Mixed Layer Model. The Heat Budget of a Sea Basin. The Acoustic Properties of the Sea. The Wave Equation for Unattenuated Waves. The Energy and Intensity of Sound. 1. The Velocity of Sound in the Sea. Sound Velocity Distributions in the Sea. 2. The Absorption and Scattering of Sound in the Sea. Relaxation Processes in Seawater. The Absorption of Sound Energy in the Sea. Sound Scattering Functions. Sound Scatter at Small Scattering Centres and Bubbles. 3. Introduction to the Ray Theory of Sound Propagation in the Sea. The Eikonal Equation. Trajectories of Sound Rays in the Sea. Bibliography. Index.
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