On the figure of elastic planets I: gravitational collapse and infinitely many equilibria
A classic problem of elasticity is to determine the possible equilibria of an elastic planet modelled as a homogeneous compressible spherical elastic body subject to its own gravitational field. In the absence of gravity, the initial radius is given and the density is constant. With gravity and for...
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| Published in | Proceedings of the Royal Society. A, Mathematical, physical, and engineering sciences Vol. 475; no. 2224; p. 20180815 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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England
The Royal Society Publishing
01.04.2019
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| Abstract | A classic problem of elasticity is to determine the possible equilibria of an elastic planet modelled as a homogeneous compressible spherical elastic body subject to its own gravitational field. In the absence of gravity, the initial radius is given and the density is constant. With gravity and for small planets, the elastic deformations are small enough so that the spherical equilibria can be readily obtained by using the theory of linear elasticity. For larger or denser planets, large deformations occur and the general theory of nonlinear elasticity is required to obtain the solution. Depending on the elastic model, we show that there may be parameter regimes where there exist no equilibrium or arbitrarily many equilibria. Yet, at most two of them are dynamically stable with respect to radial disturbances. In some of these models, there is a critical initial radius at which spherical solutions cease to exist. For planets with larger initial radii, there is no spherical solution as the elastic forces are not sufficient to balance the gravitational force. Therefore, the system undergoes gravitational collapse, an unexpected phenomenon within the framework of classical continuum mechanics. |
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| AbstractList | A classic problem of elasticity is to determine the possible equilibria of an elastic planet modelled as a homogeneous compressible spherical elastic body subject to its own gravitational field. In the absence of gravity, the initial radius is given and the density is constant. With gravity and for small planets, the elastic deformations are small enough so that the spherical equilibria can be readily obtained by using the theory of linear elasticity. For larger or denser planets, large deformations occur and the general theory of nonlinear elasticity is required to obtain the solution. Depending on the elastic model, we show that there may be parameter regimes where there exist no equilibrium or arbitrarily many equilibria. Yet, at most two of them are dynamically stable with respect to radial disturbances. In some of these models, there is a critical initial radius at which spherical solutions cease to exist. For planets with larger initial radii, there is no spherical solution as the elastic forces are not sufficient to balance the gravitational force. Therefore, the system undergoes gravitational collapse, an unexpected phenomenon within the framework of classical continuum mechanics. A classic problem of elasticity is to determine the possible equilibria of an elastic planet modelled as a homogeneous compressible spherical elastic body subject to its own gravitational field. In the absence of gravity, the initial radius is given and the density is constant. With gravity and for small planets, the elastic deformations are small enough so that the spherical equilibria can be readily obtained by using the theory of linear elasticity. For larger or denser planets, large deformations occur and the general theory of nonlinear elasticity is required to obtain the solution. Depending on the elastic model, we show that there may be parameter regimes where there exist no equilibrium or arbitrarily many equilibria. Yet, at most two of them are dynamically stable with respect to radial disturbances. In some of these models, there is a critical initial radius at which spherical solutions cease to exist. For planets with larger initial radii, there is no spherical solution as the elastic forces are not sufficient to balance the gravitational force. Therefore, the system undergoes gravitational collapse, an unexpected phenomenon within the framework of classical continuum mechanics.A classic problem of elasticity is to determine the possible equilibria of an elastic planet modelled as a homogeneous compressible spherical elastic body subject to its own gravitational field. In the absence of gravity, the initial radius is given and the density is constant. With gravity and for small planets, the elastic deformations are small enough so that the spherical equilibria can be readily obtained by using the theory of linear elasticity. For larger or denser planets, large deformations occur and the general theory of nonlinear elasticity is required to obtain the solution. Depending on the elastic model, we show that there may be parameter regimes where there exist no equilibrium or arbitrarily many equilibria. Yet, at most two of them are dynamically stable with respect to radial disturbances. In some of these models, there is a critical initial radius at which spherical solutions cease to exist. For planets with larger initial radii, there is no spherical solution as the elastic forces are not sufficient to balance the gravitational force. Therefore, the system undergoes gravitational collapse, an unexpected phenomenon within the framework of classical continuum mechanics. |
| Author | Kodio, Ousmane Goriely, Alain Jia, Fei Chapman, S. Jon |
| AuthorAffiliation | 2 Mathematical Institute , University of Oxford , Oxford OX2 6GG , UK 1 School of Manufacturing Science and Engineering , Southwest University of Science and Technology , Sichuan 621010 , People's Republic of China |
| AuthorAffiliation_xml | – name: 2 Mathematical Institute , University of Oxford , Oxford OX2 6GG , UK – name: 1 School of Manufacturing Science and Engineering , Southwest University of Science and Technology , Sichuan 621010 , People's Republic of China |
| Author_xml | – sequence: 1 givenname: Fei surname: Jia fullname: Jia, Fei organization: School of Manufacturing Science and Engineering, Southwest University of Science and Technology, Sichuan 621010, People's Republic of China, Mathematical Institute, University of Oxford, Oxford OX2 6GG, UK – sequence: 2 givenname: Ousmane surname: Kodio fullname: Kodio, Ousmane organization: Mathematical Institute, University of Oxford, Oxford OX2 6GG, UK – sequence: 3 givenname: S. Jon surname: Chapman fullname: Chapman, S. Jon organization: Mathematical Institute, University of Oxford, Oxford OX2 6GG, UK – sequence: 4 givenname: Alain orcidid: 0000-0002-6436-8483 surname: Goriely fullname: Goriely, Alain organization: Mathematical Institute, University of Oxford, Oxford OX2 6GG, UK |
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| Cites_doi | 10.1016/j.icarus.2007.10.017 10.1016/j.icarus.2006.03.013 10.1785/BSSA0290030463 10.1098/rspa.1917.0027 10.1098/rspa.2002.1031 10.1017/S0022112004008328 10.1007/s00526-014-0809-7 10.1016/j.ijengsci.2011.03.017 10.1029/2005JE002447 10.1029/2007JE002942 10.1088/0004-637X/719/1/540 10.1016/S0020-7225(98)00040-8 10.1098/rspa.1907.0029 10.1098/rsta.1902.0012 10.1111/j.1365-246X.1974.tb00619.x 10.1023/A:1026137401540 10.1016/j.icarus.2004.05.023 10.1098/rstl.1879.0061 10.1007/BF00666031 10.1016/j.jmps.2014.12.005 10.1098/rsta.1969.0001 10.1098/rspa.1965.0127 10.1007/978-0-387-87710-5 10.1007/BF00931667 10.5479/sil.52126.39088015628399 |
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