Book contents
- Frontmatter
- Contents
- Preface
- 1 Introduction
- 2 The Hubble classification system
- 3 De Vaucouleurs' system
- 4 Elmegreen's classification of spiral arms
- 5 Van den Bergh's classification of galaxies
- 6 Morgan's classification system
- 7 Galactic bars
- 8 Elliptical galaxies
- 9 The S0 class
- 10 Early-type galaxies
- 11 Dwarf spheroidal galaxies
- 12 Low surface brightness galaxies
- 13 Morphology of active galaxies
- 14 Evolution of galaxy morphology
- 15 Computer classification of galaxy images
- 16 Problems, challenges and conclusions
- References
- Object index
- Subject index
16 - Problems, challenges and conclusions
Published online by Cambridge University Press: 10 May 2010
- Frontmatter
- Contents
- Preface
- 1 Introduction
- 2 The Hubble classification system
- 3 De Vaucouleurs' system
- 4 Elmegreen's classification of spiral arms
- 5 Van den Bergh's classification of galaxies
- 6 Morgan's classification system
- 7 Galactic bars
- 8 Elliptical galaxies
- 9 The S0 class
- 10 Early-type galaxies
- 11 Dwarf spheroidal galaxies
- 12 Low surface brightness galaxies
- 13 Morphology of active galaxies
- 14 Evolution of galaxy morphology
- 15 Computer classification of galaxy images
- 16 Problems, challenges and conclusions
- References
- Object index
- Subject index
Summary
Morgan (1958) has said that ‘The value of a system of classification depends on its usefulness.’ Using this criterion the Hubble classification system has proved to be of outstanding value because it has provided deep insights into the relationships between galaxy morphology, galactic evolution and stellar populations. However, some classification parameters, such as the r and s varieties in the de Vaucouleurs system, have not yet been tied as firmly to physically significant differences between galaxies (cf. Kormendy (1982)). Furthermore, it is not yet clear if the dichotomy between ordinary and barred spirals allows one to draw any useful conclusions about the past evolutionary history of a particular galaxy.
The Hubble system was designed to provide a framework for the classification of galaxies in nearby regions of the Universe. It is therefore not surprising that it does not provide a useful reference frame for the classification of very distant galaxies (which are viewed at large look-back times), or for galaxies in unusual environments such as the cores of rich clusters. Furthermore, the existence of some classes of objects, such as (1) amorphous/Ir II galaxies, (2) anemic galaxies and (3) cD galaxies, which cannot be ‘shoehorned’ into the Hubble system, suggests that such galaxies have had an unusual evolutionary history. It has also become clear that the Hubble system, which is defined in terms of supergiant prototypes, does not provide a very useful framework for the classification of low-luminosity galaxies.
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- Information
- Galaxy Morphology and Classification , pp. 95 - 96Publisher: Cambridge University PressPrint publication year: 1998