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* [https://www-cambridge-org.libezp.lib.lsu.edu/core/journals/mathematical-proceedings-of-the-cambridge-philosophical-society/article/on-the-gravitational-collapse-of-a-cold-rotating-gas-cloud/EA358305189B0F305818C79AAEB0709F D. Lynden-Bell (1962)], Mathematical Proceedings of the Cambridge Philosophical Society, Vol. 58, Issue 4, pp. 709 - 711: ''On the gravitational collapse of a cold rotating gas cloud'' | * [https://www-cambridge-org.libezp.lib.lsu.edu/core/journals/mathematical-proceedings-of-the-cambridge-philosophical-society/article/on-the-gravitational-collapse-of-a-cold-rotating-gas-cloud/EA358305189B0F305818C79AAEB0709F D. Lynden-Bell (1962)], Mathematical Proceedings of the Cambridge Philosophical Society, Vol. 58, Issue 4, pp. 709 - 711: ''On the gravitational collapse of a cold rotating gas cloud'' <br />NOTE … according to the [https://ui.adsabs.harvard.edu/abs/1962PCPS...58..709L/abstract new ADS listing], the authors associated with this paper title should be, D. Lynden-Bell & C. T. C. Wall | ||
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Revision as of 21:58, 30 June 2019
Free-Fall Collapse of an Homogeneous Spheroid
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- D. Lynden-Bell (1962), Mathematical Proceedings of the Cambridge Philosophical Society, Vol. 58, Issue 4, pp. 709 - 711: On the gravitational collapse of a cold rotating gas cloud
NOTE … according to the new ADS listing, the authors associated with this paper title should be, D. Lynden-Bell & C. T. C. Wall
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In the course of researches on the formation of galaxies one meets the following idealized problem. What is the form of the collapse under gravitational forces of a uniformly rotating spheroidal gas cloud? In the special case where initially the gas is absolutely cold and of uniform density within the spheroid, we show that the collapse proceeds through a series of uniform, uniformly rotating spheroids until a disk is formed. |
- D. Lynden-Bell (1964), ApJ, 139, 1195: On Large-Scale Instabilities during Gravitational Collapse and the Evolution of Shrinking Maclaurin Spheroids
- Classic paper by C. C. Lin, Leon Mestel, and Frank Shu (1965, ApJ, 142, 143) titled, "The Gravitational Collapse of a Uniform Spheroid."
See Also
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