Transcript Day-38
Astronomy 1010 Planetary Astronomy Fall_2015 Day-38 TNO_Wide-1 Course Announcements • SW-chapter 11, 12 due: Mon. Dec. 7 • 1st Thursday Art Walk – 5-8pm on Study Day • • This week is the make-up week for labs … We will have the equipment for Lenses & Telescopes and the Spectrometer set up. These are the only two that will be setup in lab. Any other labs (computer based) must be completed PRIOR to Tuesday. I will have a substitute for the cratering lab for those that need it. Ring Systems All four gas giants have ring systems. Saturn’s rings are the largest and brightest. The fainter rings were discovered by stellar occultation methods. A very complicated system, composed of thousands of ringlets, each made up of tiny orbiting particles that obey Kepler’s laws. There are bright and dark rings, “gaps,” and divisions. MATH TOOLS 11.1 The moons obey Kepler’s laws as they orbit the planet: For a particular planet, the left-hand side will be a constant for most of its moons. For Jupiter, Ganymede, Europa, and Io are in an orbital resonance of 1:2:4. Can estimate relative orbital distance. Gaps are not empty. Brightness/darkness reflects the amount of material in each ring. Though wide, the ring system is extremely thin. If Saturn were a basketball, a piece of paper is >1,000 times too thick. Diffuse rings are fainter and have no defined boundaries. Saturn’s largest ring is a diffuse dust ring, discovered in 2009. E Ring and G Ring are also diffuse. The rings of the other giant planets are mostly narrow and diffuse. Backlighting brings them into view. Neptune has denser sections known as ring arcs. Ring particles are from disrupted moons or from volcanic activity on moons. Saturn: bright rings because they are made of water ice. The total mass of Saturn’s bright rings is about the same as a small icy moon. Uranus and Neptune: dark rings from organic material (darker than coal). Jupiter: not as dark as the ice giants, nor as bright as Saturn’s; most likely composed of dark silicates. Rings are kept stable by shepherd moons. Shepherd moons can also distort rings. Gravity can cause distortions, including what look like twists and waves. Other distortions include scalloped shapes and appearance of transient spokes in Saturn’s rings. Rings do not last forever. Collisions and sunlight destroy rings. Shepherd moons can help stabilize rings. Orbital resonances can create gaps. Earth does not have a ring because it lacks shepherd moons to contain the material. i_Clicker Question Jovian Planets: Saturn Ring Gaps Jovian Planets: Shepherd Moons MATH TOOLS 11.2 The tidal force between a planet and its moon depends on their masses, the size of the moon, and the distance between them: Can use this to find the relative tidal forces for different moons of the same planet. MATH TOOLS 11.3 The moons of the giant planets have a much lower escape velocity than that of Earth, which is 11.2 km/s or >40,000 km/h. Cannot easily hold on to particles ejected during volcanic activity. Enceladus: Its cryovolcanic plumes are nearly 2,200 km/h. The identification of extremophile bacteria on Earth has led to consideration of the possibility of life in the extreme environments of the Solar System’s moons. The combination of liquid water, heat, and organic compounds could be present. Enceladus, Europa, Titan, and Callisto are possibilities for life. CONNECTIONS 11.1 Small particles are best viewed when they are between the observer and light source. Backlighting allows for the rings of the planets to be viewed most easily. Most light that hits the particles still comes to the observer instead of being scattered away. PROCESS OF SCIENCE Apparent violations of well-supported theories are exciting for scientists because they must be reconciled. This often means that something new is about to be discovered. Planetesimals left over from the formation of the solar system include asteroids and comets, as well as meteorites and meteroids. Five large planetesimals deserve their own classification: dwarf planets. Four reside in the Kuiper Belt beyond Neptune’s orbit: Pluto, Haumea, Makemake, and Eris. Ceres is in the main asteroid belt. Pluto is about 1/400 the mass of Earth. “Double planet”: Pluto/Charon. Eccentric orbit. Rock and ice. Thin methane atmosphere. Eris, larger than Pluto, is the most distant. Has moon, Dysnomia. Orbit has greater inclination than Pluto’s. Ceres used to be known as the largest asteroid. Spherical, about 4% the mass of the Moon.