Resource map retrieved at 2019-07-19T20:51:19.519+02:00
2019-02-07T19:14:22.845Z
Rotational dynamics of tidally deformed planetary bodies and validity of fluid limit and quasi-fluid approximation
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TU Delft, Faculty of Aerospace Engineering, Department of Space Engineering
Vermeersen, L.L.A. (Bert)
orcid:0000-0002-6329-5972
van der Wal, W. (Wouter)
orcid:0000-0001-8030-9080
Hu, H.X.S. (Haiyang)
orcid:0000-0003-2414-3105
The data and program to reproduce the results in the paper: Rotational dynamics of tidally deformed planetary bodies and validity of fluid limit and quasi-fluid approximation. Published in Icarus.
uuid:4e1d0e92-a3a9-42b5-9121-b232653d7df3
en
TU Delft
Mars TPW
Non-linear wander theory
Rotation theory
Semi-analytical method
True Polar Wander (TPW)
Rotational dynamics of tidally deformed planetary bodies and validity of fluid limit and quasi-fluid approximation
2017-05-01 through 2018-05-01
2018-08-22
2018-08-23
Rotational dynamics of tidally deformed planetary bodies and validity of fluid limit and quasi-fluid approximation
b446f7ff0100544b758cd3fd527302a4
application/octet-stream
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text/x-matlab
5607760
2018-08-23T12:13:43.258Z
application/zip
Rotational dynamics of tidally deformed planetary bodies and validity of fluid limit and quasi-fluid approximation (article, 2018)