Steve Phillipps

The Structure and Evolution of Galaxies

• Broschiertes Buch

Produktbeschreibung

The Structure and Evolution of Galaxies is a concise introduction to this fascinating subject providing the reader with the fundamentals in a clear and accessible style. This user-friendly text assumes some prerequisite knowledge of astronomy, with the necessary mathematics kept to a minimum. Beginning with an introduction to the existence of our own external galaxies, the book moves on to discuss how perceptions of galaxy development have changed over time. The three categories of galaxies are then discussed with later chapters considering their formation and evolution. The book concludes with an overview of both current developments in the field and considers the direction of future research. Clear and accessible introduction to this dynamic subject Introduces definitions of key terms and puts them in context Includes current research and future developments in the field Appendix of basic definitions to clarify key concepts An invaluable text for students of astronomy and physics

Produktdetails

• Verlag: Wiley & Sons
• Artikelnr. des Verlages: 14585507000
• 1. Auflage
• Seitenzahl: 320
• Erscheinungstermin: 1. Mai 2005
• Englisch
• Abmessung: 247mm x 167mm x 24mm
• Gewicht: 600g
• ISBN-13: 9780470855072
• ISBN-10: 047085507X
• Artikelnr.: 14686535

Autorenporträt

Steve Phillipps is the author of The Structure and Evolution of Galaxies, published by Wiley.

Inhaltsangabe

Preface. 1 Galaxies in the universe. 1.1 Introduction. 1.2 A brief history
of galaxies. 1.3 Distance measurements. 1.4 Redshifts, distances and
dynamics. 1.5 Expansion of the universe. 1.6 Hubble's constant and the
distance scale. 1.7 The observable universe. 2 A galaxy menagerie. 2.1
Morphological types. 2.2 Luminosities and sizes. 2.3 Surface brightness.
2.4 Surface brightness profiles. 2.5 Apparent sizes. 2.6 The luminosity
function. 2.7 Redshift surveys. 2.8 Galaxies at all wavelengths. 2.9 Active
galaxies. 2.10 Galaxy environments. 3 Elliptical and lenticular galaxies.
3.1 Numbers 3.2 Surface brightness laws. 3.3 Shapes. 3.4 Stellar
proportions. 3.5 Metallicity. 3.6 Globular clusters. 3.7 Hot gas. 3.8
Dynamics. 3.9 The Faber-Jackson relation and the fundamental plane. 3.10
Mergers. 3.11 Elliptical galaxy masses. 3.12 Massive black holes. 4 Spiral
galaxies. 4.1 Shapes and sizes. 4.2 Vertical structure. 4.3 Rotation. 4.4
Stellar populations. 4.5 The interstellar medium. 4.6 Neutral gas. 4.7
Ionise dgas. 4.8 ISM structure. 4.9 Dust. 4.10 Spiral structure. 4.11 Star
formation. 4.12 Global star formation. 4.13 Chemical evolution. 4.14
Rotation of the gas. 4.15 The Tully-Fisher ratio. 4.16 The Galactic halo.
4.17 The Galactic Centre. 5 Irregulars, dwarfs and LSBGs. 5.1 Local group
members. 5.2 Irregulars. 5.3 Early type dwarfs. 5.4 Star formation
histories (SFHs). 5.5 Interactions. 5.6 Interconnections. 5.7 Low surface
brightness discs. 5.8 Number and selection effects. 5.9 Dwarf galaxies in
the past. 6 Active galaxies. 6.1 The discovery of active galaxies. 6.2 AGH
structure. 6.3 Radio galaxies. 6.4 Synchrotron emission. 6.5 Jets and
superluminal motion. 6.6 Unification. 7 Clusters and clustering. 7.1 The
distribution of galaxies. 7.2 Rich clusters. 7.3 Cluster masses. 7.4
Cluster searches. 7.5 Galaxy groups. 7.6 Intergalactic matter. 7.7
Large-scale structure. 7.8 Clustering statistics. 7.9 Velocities. 8 Galaxy
evolution. 8.1 Looking back. 8.2 Redshift and distance. 8.3 Cosmological
models. 8.4 The Hubble diagram. 8.5 Galaxy colours, photometric redshifts
and LBGs. 8.6 Number counts. 8.7 The night sky brightness, 8.8 The star
formation history of the universe. 8.9 Reionisation and the first stars.
8.10 Galaxy formation theory. 8.11 Further developments. Appendix: The
magnitude system. Bibliography. Index.