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- 1: What is magnetism?
- 1.1 The discovery of magnetism
- 1.2 The Earth as a magnet
- 1.3 The origin of magnetic fields
- 1.4 Electrical currents and magnetic fields
- 1.5 Magnetism at atomic level: the Bohr model of the atom
- 1.6 Spectral analysis and the Zeeman effect
- 1.7 Electromagnetism
- 1.8 Particle radiation
- 2: How the geomagnetic field is measured
- 2.1 Measurement of magnetic field direction
- 2.2 Measurement of magnetic field intensity
- 2.3 Vector magnetometers
- 2.4 Scalar magnetometers
- 2.5 Magnetic gradiometers
- 2.6 Terrestrial magnetic surveying
- 2.7 Magnetic observatories
- 2.8 Satellite mapping of the global magnetic field
- 2.9 The geomagnetic field at the Earth's surface
- 3: Sources of the Earth's magnetic field
- 3.1 The Earth's internal structure
- 3.2 Pressure and temperature in the Earth
- 3.3 Dipole and multipole fields
- 3.4 Internal and external sources of the magnetic field
- 3.5 Spherical harmonic analysis of the internal field
- 3.6 The international geomagnetic reference field
- 3.7 Spatial power spectrum of the internal field
- 3.8 The lithospheric magnetic field
- 4: The geomagnetic dynamo
- 4.1 The concept of a self-sustaining dynamo
- 4.2 Heat transport in the core
- 4.3 The Coriolis force due to the Earth's rotation
- 4.4 Magnetohydrodynamics and the frozen-flux concept
- 4.5 The dynamo model for the origin of the internal magnetic field
- 4.6 The magnetic influence of the inner core
- 4.7 The magnetic field at the core-mantle boundary
- 4.8 Archeomagnetic secular variation of paleointensity
- 4.9 The geomagnetic field in the early Earth
- 5: The magnetism of the Earth's Crust
- 5.1 Physical properties of the crust and mantle
- 5.2 Crystal rock types
- 5.3 Types of magnetism in minerals
- 5.4 Antiferromagnetic and ferrimagnetic minerals
- 5.5 Induced and remanent magnetizations
- 5.6 The thickness of the magnetized crustal layer
- 5.7 How a magnetic anomaly originates
- 5.8 Continental magnetic anomalies
- 5.9 The magnetization of the oceanic crust
- 5.10 The age of the ocean floor
- 6: The ancient geomagnetic field
- 6.1 The natural remanent magnetizations of rocks
- 6.2 The geocentric axial dipole hypothesis
- 6.3 Methods of paleomagnetism
- 6.4 Apparent polar wander and continental reconstructions
- 6.5 Geomagnetic polarity reversals
- 6.6 Magnetic polarity stratigraphy
- 6.7 Geomagnetic polarity in the Early Mesozoic and Paleozoic
- 6.8 The geomagnetic field in the Precambrian
- 7: The effects of solar activity on the geomagnetic field
- 7.1 The internal structure of the Sun
- 7.2 Energy transfer in the Sun
- 7.3 Sunspots and the solar cycle
- 7.4 The Sun's magnetic field
- 7.5 The solar wind
- 7.6 The interplanetary magnetic field
- 7.7 Coronal mass ejections and solar flares
- 8: The magnetosphere and ionosphere
- 8.1 The magnetosphere
- 8.2 The Van Allen radiation belts
- 8.3 The ionosphere
- 8.4 Electromagnetic induction in the crust and mantle
- 8.5 Magnetic storms and substorms
- 8.6 Space weather
- Free
| Erscheinungsjahr: | 2023 |
|---|---|
| Fachbereich: | Elektrizität/Magnetismus/Optik |
| Genre: | Physik |
| Rubrik: | Naturwissenschaften & Technik |
| Medium: | Taschenbuch |
| Seiten: | 176 |
| Inhalt: | Kartoniert / Broschiert |
| ISBN-13: | 9780192862686 |
| ISBN-10: | 0192862685 |
| Sprache: | Englisch |
| Einband: | Kartoniert / Broschiert |
| Autor: | Lowrie, William |
| Hersteller: | Oxford University Press |
| Maße: | 245 x 172 x 15 mm |
| Von/Mit: | William Lowrie |
| Erscheinungsdatum: | 09.06.2023 |
| Gewicht: | 0,364 kg |
- 1: What is magnetism?
- 1.1 The discovery of magnetism
- 1.2 The Earth as a magnet
- 1.3 The origin of magnetic fields
- 1.4 Electrical currents and magnetic fields
- 1.5 Magnetism at atomic level: the Bohr model of the atom
- 1.6 Spectral analysis and the Zeeman effect
- 1.7 Electromagnetism
- 1.8 Particle radiation
- 2: How the geomagnetic field is measured
- 2.1 Measurement of magnetic field direction
- 2.2 Measurement of magnetic field intensity
- 2.3 Vector magnetometers
- 2.4 Scalar magnetometers
- 2.5 Magnetic gradiometers
- 2.6 Terrestrial magnetic surveying
- 2.7 Magnetic observatories
- 2.8 Satellite mapping of the global magnetic field
- 2.9 The geomagnetic field at the Earth's surface
- 3: Sources of the Earth's magnetic field
- 3.1 The Earth's internal structure
- 3.2 Pressure and temperature in the Earth
- 3.3 Dipole and multipole fields
- 3.4 Internal and external sources of the magnetic field
- 3.5 Spherical harmonic analysis of the internal field
- 3.6 The international geomagnetic reference field
- 3.7 Spatial power spectrum of the internal field
- 3.8 The lithospheric magnetic field
- 4: The geomagnetic dynamo
- 4.1 The concept of a self-sustaining dynamo
- 4.2 Heat transport in the core
- 4.3 The Coriolis force due to the Earth's rotation
- 4.4 Magnetohydrodynamics and the frozen-flux concept
- 4.5 The dynamo model for the origin of the internal magnetic field
- 4.6 The magnetic influence of the inner core
- 4.7 The magnetic field at the core-mantle boundary
- 4.8 Archeomagnetic secular variation of paleointensity
- 4.9 The geomagnetic field in the early Earth
- 5: The magnetism of the Earth's Crust
- 5.1 Physical properties of the crust and mantle
- 5.2 Crystal rock types
- 5.3 Types of magnetism in minerals
- 5.4 Antiferromagnetic and ferrimagnetic minerals
- 5.5 Induced and remanent magnetizations
- 5.6 The thickness of the magnetized crustal layer
- 5.7 How a magnetic anomaly originates
- 5.8 Continental magnetic anomalies
- 5.9 The magnetization of the oceanic crust
- 5.10 The age of the ocean floor
- 6: The ancient geomagnetic field
- 6.1 The natural remanent magnetizations of rocks
- 6.2 The geocentric axial dipole hypothesis
- 6.3 Methods of paleomagnetism
- 6.4 Apparent polar wander and continental reconstructions
- 6.5 Geomagnetic polarity reversals
- 6.6 Magnetic polarity stratigraphy
- 6.7 Geomagnetic polarity in the Early Mesozoic and Paleozoic
- 6.8 The geomagnetic field in the Precambrian
- 7: The effects of solar activity on the geomagnetic field
- 7.1 The internal structure of the Sun
- 7.2 Energy transfer in the Sun
- 7.3 Sunspots and the solar cycle
- 7.4 The Sun's magnetic field
- 7.5 The solar wind
- 7.6 The interplanetary magnetic field
- 7.7 Coronal mass ejections and solar flares
- 8: The magnetosphere and ionosphere
- 8.1 The magnetosphere
- 8.2 The Van Allen radiation belts
- 8.3 The ionosphere
- 8.4 Electromagnetic induction in the crust and mantle
- 8.5 Magnetic storms and substorms
- 8.6 Space weather
- Free
| Erscheinungsjahr: | 2023 |
|---|---|
| Fachbereich: | Elektrizität/Magnetismus/Optik |
| Genre: | Physik |
| Rubrik: | Naturwissenschaften & Technik |
| Medium: | Taschenbuch |
| Seiten: | 176 |
| Inhalt: | Kartoniert / Broschiert |
| ISBN-13: | 9780192862686 |
| ISBN-10: | 0192862685 |
| Sprache: | Englisch |
| Einband: | Kartoniert / Broschiert |
| Autor: | Lowrie, William |
| Hersteller: | Oxford University Press |
| Maße: | 245 x 172 x 15 mm |
| Von/Mit: | William Lowrie |
| Erscheinungsdatum: | 09.06.2023 |
| Gewicht: | 0,364 kg |
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