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The lecture gives basic overview of characteristics and evolution of moons and terrestrial planets inside and
outside of the solar system.
Last update: Gallovič František, prof. RNDr., Ph.D. (10.01.2019)
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The students learn a basic description of processes shaping planetary bodies, emphasizing their coupled orbital and internal evolutions. Last update: Běhounková Marie, doc. RNDr., Ph.D. (12.05.2022)
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Účast a diskuse na přednášce. Prezentace (20-30 min) nebo vypracování krátké zprávy (1-2 strany) na vybrané téma odpovídající sylabu předmětu. Last update: Běhounková Marie, doc. RNDr., Ph.D. (12.05.2022)
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R. Barnes: Formation and Evolution of Exoplanets. Wiley-VCH, Berlin, 2010. B. Bertotti, P. Farinella, D. Vokrouhlický. Physics of the Solar System: Dynamics and Evolution, Space Physics, and Spacetime Structure, Kluwer Academic Publishers, 2003. G. Boué and M. Efroimsky. Tidal evolution of the Keplerian elements. Celest. Mech. Dyn. Astron., 131(7):30, 2019. D. Brouwer, G.M. Clemence. Methods of Celestial Mechanics. Academic Press, 1961. I. dePater, J.J. Lissauer. Planetary Sciences, Cambridge University Press, 2001. M. Efroimsky. Tidal Dissipation Compared to Seismic Dissipation: In Small Bodies, Earths and Super-Earths. Astrophys. J., 746(2):150, 2012. M. Efroimsky and V. V. Makarov. Tidal Dissipation in a Homogeneous Spherical Body. I. Methods. Astrophys. J., 795(1):19, 2014. M.S. Gudipati, J. Castillo-Rogez: The Science of Solar System Ices. Springer, 2013. W. M. Kaula. Analysis of Gravitational and Geometric Aspects of Geodetic Utilization of Satellites. Geophys. J. R. Astron. Soc., 5(2):104–133, 1961. W. M. Kaula. Tidal dissipation by solid friction and the resulting orbital evolution. Rev. Geophys., 2(4):661–685, 1964. C.D. Murray, S.F. Dermott. Solar System Dynamics, Cambridge University Press, 1999. G. Schubert, D.T. Turcotte, P. Olson: Mantle Convection in the Earth and Planets. Cambridge University Press, Cambridge, 2001. G. Schubert et al. Treatise on Geophysics. Elsevier, 2007. Last update: Běhounková Marie, doc. RNDr., Ph.D. (12.05.2022)
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Lecture Last update: Běhounková Marie, doc. RNDr., Ph.D. (12.05.2022)
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Prezentace (20-30 min) nebo vypracování krátké zprávy (1-2 strany) na vybrané téma odpovídající sylabu předmětu. Last update: Běhounková Marie, doc. RNDr., Ph.D. (12.05.2022)
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1) Basic planetary properties: mass, size and shape, internal structure, and gravity field. Data collection, planetary missions. Planet classification. 2) Structure of the solar system. Orbital elements. Kepler's laws. Equations of motion. Perturbations, third-body perturbations, and effect of planetary oblateness. 3) Darwin-Kaula expansion. Tidal loading. Description of tidal response. Rheological models and compliance. Tidal torque and tidal dissipation. 4) Tidal-internal coupling. Spin-orbital interaction. Despinning. Resonances. Forced libration. 5) Planetary structure. An overview of thermodynamic properties. Structure from observations. Properties of ices and silicates. 6) Extrasolar planets: detection, characterization and statistics. Last update: Běhounková Marie, doc. RNDr., Ph.D. (12.05.2022)
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