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Astronomy 405 Solar System and ISM

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1 Astronomy 405 Solar System and ISM
Lecture 4 Physics of Planetary Atmospheres January 23, 2013

2

3 Roche limit: when tidal force is greater than the gravitational force that holds the body together G Mm G Mp Rm < Rm r3 m : moon, p : planet r : distance r < fR (  p / m)1/3 Rp Roche Limit where fR = 21/3 = fR = 2.456

4 Saturn density = g cm-3 Moon density = g cm-3 Saturn radius = 6 x 109 cm r = x cm All rings are within the Roche limit.

5 Temperature of a planet
What assumptions are made? What if sychronous rotation?

6 The planet’s temperature is independent of its size.
This equation applies to dust, asteroids, KBOs, etc. Earth a = 0.3, T = 255 K = -19 C = -1 F Clearly not correct. Greenhouse effect: Wien’s law: λmax T = m K 2879 μm K

7 The planet’s temperature is independent of its size.
This equation applies to dust, asteroids, KBOs, etc. Earth a = 0.3, T = 255 K = -19 C = -1 F Clearly not correct. Greenhouse effect: Assume single layer Tsurf = 21/4 T ~ 300 K

8 Chemical Evolution of Planetary Atmospheres
The evolution and structure of a planetary atmosphere depends of temperature, gravity, chemical composition. Primordial atmosphere is altered by: - outgassing from rocks and volcanoes - life on Earth - comets and meteorites The thermal motion of a particle may be large enough to escape. The most critical component in the development of an atmosphere is the ability to keep it via gravity.

9 n particles with mass m and velocity between v and dv at temperature T
The M-B distribution has a high velocity tail. H-atom at 104 K, Vmp = 12.9 km/s Most probable velocity Root-mean-square velocity

10 Exosphere: The region in the atmosphere where the mean free path
path of the particles become large enough to travel without collisions. If v > vesc in the exosphere, it escapes. Example: The Earth atmosphere 78% N2. m of N2 = 4.7x10-26 kg Earth: M = 6x1024 kg, R = 6.4x106 m, Tesc > 3900 K, Texo ~ 1000 K Moon: M = 7x1022 kg, R = 1.7x106 m, Tesc > 180 K, Texo ~ 274 K

11  Is the atmospheric escape parameter (in units of m/s)

12 Earth The atmospheric escape parameter, , is essentially the reduction rate of the effective thickness of the atmosphere of a certain species. 500 km / 4.6 billion years = 3x10-12 m/s If  > 3x10-12 m/s , that species is gone!

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