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Biblioteca

MARC Lista (tabellare)
Instrumentation and metrology in oceanography [[electronic resource] /] / Marc Le Menn
Instrumentation and metrology in oceanography [[electronic resource] /] / Marc Le Menn
Autore Le Menn Marc
Pubbl/distr/stampa London, : ISTE
Descrizione fisica 1 online resource (405 p.)
Disciplina 551.46
551.46028/4
551.460284
Collana Instrumentation and measurement series
Soggetto topico Oceanographic instruments
Oceanography - Measurement
Soggetto genere / forma Electronic books.
ISBN 1-118-56195-3
1-118-57813-9
1-118-57821-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Instrumentation and Metrology in Oceanography; Title Page; Copyright Page; Table of Contents; Preface; Chapter 1. What We Measure and What We Process; 1.1. The quantities we want to know; 1.1.1. Velocity and density; 1.1.2. Pressure and depth; 1.1.3. Speed and movement; 1.1.4. Time and space; 1.2. Linking of essential quantities in oceanography; 1.2.1. Temperature; 1.2.2. Pressure; 1.2.3. Conductivity and salinity; 1.2.4. Velocity; 1.2.5. Time; 1.3. Calculation of density; 1.3.1. Density and EOS-80; 1.3.2. Laboratory densitometers; 1.3.3. Density and absolute salinity
1.4. Bibliography1.4.1. Quantities that we want to know; 1.4.2. Linking of essential quantities in oceanography; Chapter 2. Measurement Systems in Practice; 2.1. Determining temperature; 2.1.1. Principal instruments; 2.1.2. Sensor technologies; 2.1.3. Thermal transfers; 2.1.4. Response time of temperature sensors; 2.1.5. Viscous heating of temperature sensors; 2.2. Determining conductivity; 2.2.1. Principle instruments used; 2.2.2. Sensors' technologies; 2.2.3. Response time of conductivity sensors
2.2.4. Aligning the response times of temperature and conductivity sensors and correcting thermal inertia2.2.5. Biofouling and protection of instruments; 2.3. Determining pressure; 2.3.1. Piezoresistive pressure sensors; 2.3.2. Piezoelectric pressure sensors; 2.3.3. Errors in pressure sensor measurements; 2.4. Determining velocity; 2.4.1. Principles of measurement; 2.4.2. Instruments used at sea; 2.5. Determining current; 2.5.1. Rotor current meters; 2.5.2. Doppler effect current meters; 2.5.3. Electromagnetic current meters; 2.5.4. Doppler effect profilers
2.5.5. Directional referencing of current measurements2.5.6. Calibration of Doppler effect current meters; 2.6. Determining time or measuring frequency; 2.6.1. The connection of clocks; 2.6.2. Time bases of instruments; 2.7. Determining position and movement; 2.7.1. The Argos system; 2.7.2. The global positioning system; 2.8. Determining the height of water; 2.8.1. Tide gauges; 2.8.2. Tide gauges with pressure sensors; 2.8.3. Keying and uniting of tide gauges; 2.9. Determining waves and swell characteristics; 2.9.1. Factors relating to the origins and modeling of swell
2.9.2. Instruments used to measure the state of the sea2.10. Determining the turbidity or sea water's optical properties; 2.10.1. Theoretical notions of the optical properties of sea water; 2.10.2. Measurement of apparent optical properties; 2.10.3. Transmissiometers and measurements of absorption; 2.10.4. Nephelometers and turbidity sensors; 2.10.5. Fluorimeters; 2.11. Determining various physicochemical properties; 2.11.1. Notions of the chemical parameters of sea water; 2.11.2. In situ measurement of dissolved oxygen; 2.11.3. In situ measurement of dissolved carbon
2.11.4. In situ measurement of some other components
Record Nr. UNINA-9910133863203321
Le Menn Marc  
London, : ISTE
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Instrumentation and metrology in oceanography [[electronic resource] /] / Marc Le Menn
Instrumentation and metrology in oceanography [[electronic resource] /] / Marc Le Menn
Autore Le Menn Marc
Pubbl/distr/stampa London, : ISTE
Descrizione fisica 1 online resource (405 p.)
Disciplina 551.46
551.46028/4
551.460284
Collana Instrumentation and measurement series
Soggetto topico Oceanographic instruments
Oceanography - Measurement
ISBN 1-118-56195-3
1-118-57813-9
1-118-57821-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Instrumentation and Metrology in Oceanography; Title Page; Copyright Page; Table of Contents; Preface; Chapter 1. What We Measure and What We Process; 1.1. The quantities we want to know; 1.1.1. Velocity and density; 1.1.2. Pressure and depth; 1.1.3. Speed and movement; 1.1.4. Time and space; 1.2. Linking of essential quantities in oceanography; 1.2.1. Temperature; 1.2.2. Pressure; 1.2.3. Conductivity and salinity; 1.2.4. Velocity; 1.2.5. Time; 1.3. Calculation of density; 1.3.1. Density and EOS-80; 1.3.2. Laboratory densitometers; 1.3.3. Density and absolute salinity
1.4. Bibliography1.4.1. Quantities that we want to know; 1.4.2. Linking of essential quantities in oceanography; Chapter 2. Measurement Systems in Practice; 2.1. Determining temperature; 2.1.1. Principal instruments; 2.1.2. Sensor technologies; 2.1.3. Thermal transfers; 2.1.4. Response time of temperature sensors; 2.1.5. Viscous heating of temperature sensors; 2.2. Determining conductivity; 2.2.1. Principle instruments used; 2.2.2. Sensors' technologies; 2.2.3. Response time of conductivity sensors
2.2.4. Aligning the response times of temperature and conductivity sensors and correcting thermal inertia2.2.5. Biofouling and protection of instruments; 2.3. Determining pressure; 2.3.1. Piezoresistive pressure sensors; 2.3.2. Piezoelectric pressure sensors; 2.3.3. Errors in pressure sensor measurements; 2.4. Determining velocity; 2.4.1. Principles of measurement; 2.4.2. Instruments used at sea; 2.5. Determining current; 2.5.1. Rotor current meters; 2.5.2. Doppler effect current meters; 2.5.3. Electromagnetic current meters; 2.5.4. Doppler effect profilers
2.5.5. Directional referencing of current measurements2.5.6. Calibration of Doppler effect current meters; 2.6. Determining time or measuring frequency; 2.6.1. The connection of clocks; 2.6.2. Time bases of instruments; 2.7. Determining position and movement; 2.7.1. The Argos system; 2.7.2. The global positioning system; 2.8. Determining the height of water; 2.8.1. Tide gauges; 2.8.2. Tide gauges with pressure sensors; 2.8.3. Keying and uniting of tide gauges; 2.9. Determining waves and swell characteristics; 2.9.1. Factors relating to the origins and modeling of swell
2.9.2. Instruments used to measure the state of the sea2.10. Determining the turbidity or sea water's optical properties; 2.10.1. Theoretical notions of the optical properties of sea water; 2.10.2. Measurement of apparent optical properties; 2.10.3. Transmissiometers and measurements of absorption; 2.10.4. Nephelometers and turbidity sensors; 2.10.5. Fluorimeters; 2.11. Determining various physicochemical properties; 2.11.1. Notions of the chemical parameters of sea water; 2.11.2. In situ measurement of dissolved oxygen; 2.11.3. In situ measurement of dissolved carbon
2.11.4. In situ measurement of some other components
Record Nr. UNISA-996217162103316
Le Menn Marc  
London, : ISTE
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Instrumentation and metrology in oceanography [[electronic resource] /] / Marc Le Menn
Instrumentation and metrology in oceanography [[electronic resource] /] / Marc Le Menn
Autore Le Menn Marc
Pubbl/distr/stampa London, : ISTE
Descrizione fisica 1 online resource (405 p.)
Disciplina 551.46
551.46028/4
551.460284
Collana Instrumentation and measurement series
Soggetto topico Oceanographic instruments
Oceanography - Measurement
ISBN 1-118-56195-3
1-118-57813-9
1-118-57821-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Instrumentation and Metrology in Oceanography; Title Page; Copyright Page; Table of Contents; Preface; Chapter 1. What We Measure and What We Process; 1.1. The quantities we want to know; 1.1.1. Velocity and density; 1.1.2. Pressure and depth; 1.1.3. Speed and movement; 1.1.4. Time and space; 1.2. Linking of essential quantities in oceanography; 1.2.1. Temperature; 1.2.2. Pressure; 1.2.3. Conductivity and salinity; 1.2.4. Velocity; 1.2.5. Time; 1.3. Calculation of density; 1.3.1. Density and EOS-80; 1.3.2. Laboratory densitometers; 1.3.3. Density and absolute salinity
1.4. Bibliography1.4.1. Quantities that we want to know; 1.4.2. Linking of essential quantities in oceanography; Chapter 2. Measurement Systems in Practice; 2.1. Determining temperature; 2.1.1. Principal instruments; 2.1.2. Sensor technologies; 2.1.3. Thermal transfers; 2.1.4. Response time of temperature sensors; 2.1.5. Viscous heating of temperature sensors; 2.2. Determining conductivity; 2.2.1. Principle instruments used; 2.2.2. Sensors' technologies; 2.2.3. Response time of conductivity sensors
2.2.4. Aligning the response times of temperature and conductivity sensors and correcting thermal inertia2.2.5. Biofouling and protection of instruments; 2.3. Determining pressure; 2.3.1. Piezoresistive pressure sensors; 2.3.2. Piezoelectric pressure sensors; 2.3.3. Errors in pressure sensor measurements; 2.4. Determining velocity; 2.4.1. Principles of measurement; 2.4.2. Instruments used at sea; 2.5. Determining current; 2.5.1. Rotor current meters; 2.5.2. Doppler effect current meters; 2.5.3. Electromagnetic current meters; 2.5.4. Doppler effect profilers
2.5.5. Directional referencing of current measurements2.5.6. Calibration of Doppler effect current meters; 2.6. Determining time or measuring frequency; 2.6.1. The connection of clocks; 2.6.2. Time bases of instruments; 2.7. Determining position and movement; 2.7.1. The Argos system; 2.7.2. The global positioning system; 2.8. Determining the height of water; 2.8.1. Tide gauges; 2.8.2. Tide gauges with pressure sensors; 2.8.3. Keying and uniting of tide gauges; 2.9. Determining waves and swell characteristics; 2.9.1. Factors relating to the origins and modeling of swell
2.9.2. Instruments used to measure the state of the sea2.10. Determining the turbidity or sea water's optical properties; 2.10.1. Theoretical notions of the optical properties of sea water; 2.10.2. Measurement of apparent optical properties; 2.10.3. Transmissiometers and measurements of absorption; 2.10.4. Nephelometers and turbidity sensors; 2.10.5. Fluorimeters; 2.11. Determining various physicochemical properties; 2.11.1. Notions of the chemical parameters of sea water; 2.11.2. In situ measurement of dissolved oxygen; 2.11.3. In situ measurement of dissolved carbon
2.11.4. In situ measurement of some other components
Record Nr. UNINA-9910830629703321
Le Menn Marc  
London, : ISTE
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Instrumentation and metrology in oceanography / / Marc Le Menn
Instrumentation and metrology in oceanography / / Marc Le Menn
Autore Le Menn Marc
Pubbl/distr/stampa London, : ISTE
Descrizione fisica 1 online resource (405 p.)
Disciplina 551.46028/4
Collana Instrumentation and measurement series
Soggetto topico Oceanographic instruments
Oceanography - Measurement
ISBN 1-118-56195-3
1-118-57813-9
1-118-57821-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Instrumentation and Metrology in Oceanography; Title Page; Copyright Page; Table of Contents; Preface; Chapter 1. What We Measure and What We Process; 1.1. The quantities we want to know; 1.1.1. Velocity and density; 1.1.2. Pressure and depth; 1.1.3. Speed and movement; 1.1.4. Time and space; 1.2. Linking of essential quantities in oceanography; 1.2.1. Temperature; 1.2.2. Pressure; 1.2.3. Conductivity and salinity; 1.2.4. Velocity; 1.2.5. Time; 1.3. Calculation of density; 1.3.1. Density and EOS-80; 1.3.2. Laboratory densitometers; 1.3.3. Density and absolute salinity
1.4. Bibliography1.4.1. Quantities that we want to know; 1.4.2. Linking of essential quantities in oceanography; Chapter 2. Measurement Systems in Practice; 2.1. Determining temperature; 2.1.1. Principal instruments; 2.1.2. Sensor technologies; 2.1.3. Thermal transfers; 2.1.4. Response time of temperature sensors; 2.1.5. Viscous heating of temperature sensors; 2.2. Determining conductivity; 2.2.1. Principle instruments used; 2.2.2. Sensors' technologies; 2.2.3. Response time of conductivity sensors
2.2.4. Aligning the response times of temperature and conductivity sensors and correcting thermal inertia2.2.5. Biofouling and protection of instruments; 2.3. Determining pressure; 2.3.1. Piezoresistive pressure sensors; 2.3.2. Piezoelectric pressure sensors; 2.3.3. Errors in pressure sensor measurements; 2.4. Determining velocity; 2.4.1. Principles of measurement; 2.4.2. Instruments used at sea; 2.5. Determining current; 2.5.1. Rotor current meters; 2.5.2. Doppler effect current meters; 2.5.3. Electromagnetic current meters; 2.5.4. Doppler effect profilers
2.5.5. Directional referencing of current measurements2.5.6. Calibration of Doppler effect current meters; 2.6. Determining time or measuring frequency; 2.6.1. The connection of clocks; 2.6.2. Time bases of instruments; 2.7. Determining position and movement; 2.7.1. The Argos system; 2.7.2. The global positioning system; 2.8. Determining the height of water; 2.8.1. Tide gauges; 2.8.2. Tide gauges with pressure sensors; 2.8.3. Keying and uniting of tide gauges; 2.9. Determining waves and swell characteristics; 2.9.1. Factors relating to the origins and modeling of swell
2.9.2. Instruments used to measure the state of the sea2.10. Determining the turbidity or sea water's optical properties; 2.10.1. Theoretical notions of the optical properties of sea water; 2.10.2. Measurement of apparent optical properties; 2.10.3. Transmissiometers and measurements of absorption; 2.10.4. Nephelometers and turbidity sensors; 2.10.5. Fluorimeters; 2.11. Determining various physicochemical properties; 2.11.1. Notions of the chemical parameters of sea water; 2.11.2. In situ measurement of dissolved oxygen; 2.11.3. In situ measurement of dissolved carbon
2.11.4. In situ measurement of some other components
Record Nr. UNINA-9910877326803321
Le Menn Marc  
London, : ISTE
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui