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The Solar System. The Sun’s Family - the Giants. Mars. Venus. Earth. Ganymede. Titan. Mercury. Callisto. Europa. Triton. Moon. Pluto. Io. The Sun’s Family - the Dwarfs. Terrestrial Mercury Venus Earth Mars. Jovian Jupiter Saturn Uranus Neptune. Planet Types.
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Mars Venus Earth Ganymede Titan Mercury Callisto Europa Triton Moon Pluto Io The Sun’s Family - the Dwarfs
Terrestrial Mercury Venus Earth Mars Jovian Jupiter Saturn Uranus Neptune Planet Types
Overall System Properties • Orbits coplanar • Orbit in same direction • Most rotate in same direction • Moons tend to orbit parent body in the same direction • Lenticular “laws” • Diameter • Number of moons
Terrestrial Jovian Comparing the Planet Types • Distance from Sun • Diameter • Mass • Density • Composition • Rotation Rate Close Far Small Large Large Small Small Large Solar Rocky Slow Rapid
Planetary Observations Mass Follow the orbit of a moon. Follow the trajectory of a spacecraft. Perturbations in the orbit of a nearby planet.
Planetary Observations Radius Angular Diameter and Distance
Telescope Field of View Angular Diameter (seconds of arc) Angular Diameter and Distance
Planetary Observations Radius • Angular Diameter and Distance • Stellar Occultations
Light Curve Stellar Occultations
The Discovery of Uranus • William Hershel 1781 • Perturbations in the orbit discovered • Must be due to another planet • Fg M/d2 • Mass from trends in the outer solar system • Assumed about the mass of Uranus • Distance from Bode’s Law
Bode-Titius Law Mercury d Venus e Earth Mars f Jupiter g Saturn h Uranus i 0.4 0.7 1.0 1.6 2.8 5.2 10.0 19.6 4 7 10 16 28 52 100 196 0 3 6 12 24 48 96 192 Asteroids 384 388 38.8
Neptune Found • Position predicted by John Couch Adams and Urbain Jean Joseph Le Verrier • Observed by Johann Gottfried Galle andHeinrich Louis d’Arrest on Sept 23,1846 • Two moons found quickly • Mass 17.2 M • Distance 30 AU
The search for Planet IX • Soon became apparent that Neptune didn’t solve all the problems • New search conducted by Percival Lowell • Looking for a small Jovian planet Mass 6.6 M Magnitude 10 • Clyde Tombaugh succeeds in 1930 Named Pluto Fainter than expected
The Mass of Pluto • Pre-discovery 6.6 M 1968 0.91 1976 0.11 1978 0.0002
More Planets? • Reanalysis of Voyager 2 data suggests that all perturbations are accounted for • In fact the hunt for Pluto need not have been conducted if more accurate data had been available
Planetary Observations Radius • Angular Diameter and Distance • Stellar Occultations • Radar
Radius by Radar • Send out very short pulse • One nanosecond is typical • Signal reflects off of different parts of the planet at different times • Returned signal spread out in time
Planetary Observations Rotational Period Radar
Rotational Rate by Radar • Send out signal of only one wavelength • Signal is Doppler shifted by surface of a rotating planet • Signal received spread out in wavelength Blue Shift here Red Shift here
Rotation of Venus • Orbital Period=224.7d • Rotational period=243dretrograde • always presents the same face toward Earth when the two planets are at their closest approach.
Other Radar Findings • Jupiter • No solid surface • Saturn • Nature of Rings
Planetary Observations Rotational Period • Radar • Surface features
Planetary Observations Rotational Period • Radar • Surface features • Slant of spectral lines
Rings Planet Rings Spectrum of Saturn Slit of Spectrograph
Planetary Observations Rotational Period • Radar • Surface features • Slant of spectral lines • Light variations
Planetary Observations Albedo Information required Sun-Planet distance Planet-Earth distance Brightness of Sun Brightness of Planet Basic Information on surface, atmosphere, clouds, ice caps
Albedos • Mercury 0.11 • Venus 0.65 • Earth 0.37 • Mars 0.15 • Jupiter 0.52 • Saturn 0.47 • Uranus 0.50 • Neptune 0.5 • Pluto 0.6