Astronomy 1010 Planetary Astronomy Fall_2015 Day-26
Course Announcements SW-chapter 7 posted: due Fri. Oct. 30 SW-chapter 8 posted: due Wed. Nov. 4 Exam-3 Wed. Nov. 4: Ch. 6,7, 8 I will collect the L-T books on Monday, Nov. 23
Useful Information for Next Lab Extra-Solar Planets NAAP Lab Print the instructions BEFORE you come to class!
Take more astronomy! Registration for the Spring semester starts soon so think about taking more astronomy. ASTR-1010/1011: Planetary Astro & lab (Tell your friends) ASTR-1020/1021: Stellar Astronomy & lab (Reg. + Honors) ASTR-2020: Problems in Stellar Astronomy ASTR-3010: History of Astronomy ASTR-3040: Intro. To AstroBiology PHYS-2468: Intro. To Physics Research ASTR-3030/3031: Instrumentation & Techniques
Planets can gather gasses from the disk by core accretion-gas capture. This creates the primary atmosphere. Low-mass planets cannot hold on to their primary atmospheres. Some low-mass planets later emit gasses from their interiors (e.g., from volcanoes), producing a secondary atmosphere. Each of the four terrestrial planets lost its primary atmosphere.
Low-mass planets lose their primary atmospheres. Recall that temperature measures the average speed of motion of gas atoms. If the gas moves quickly enough, it will escape the planet. Low-mass planets have low escape velocities. Also, hot planets will have fast-moving gas particles.
The four inner planets are rocky. The four outer planets are gaseous giants. Asteroids and comets are leftover planetesimals, while moons formed from the giant planets’ accretion disks.
Lecture Tutorial: Temp. & Formation of Our Solar System: pg. 111 Work with a partner! Read the instructions and questions carefully. Discuss the concepts and your answers with one another. Take time to understand it now!!!! Come to a consensus answer you both agree on. If you get stuck or are not sure of your answer, ask another group.
i_Clicker Questions Solar System Characteristics: Formation Temperatures Planets Densities
The physical processes that led to the Solar System should be commonplace. We can see young stars with disks. Extrasolar planet: a body that orbits a star and has a mass less than 13 Jupiters.
We have found more than 1000 confirmed extrasolar planets, or “exoplanets.” Four main techniques to find these planets: Spectroscopic radial velocity method Transit method Microlensing method Direct imaging
Spectroscopic radial velocity method: Gravity is a mutual force, so both stars and planets orbit one another. Motion can be detected by Doppler shifts. Some stars have periodic velocity changes; therefore, they are orbited by planets.
In the spectroscopic radial velocity method, the Doppler shift of the star’s wobble can be used to estimate the mass and orbit of the planet. M is the combined mass, and the star’s mass is much bigger than the planet’s. MATH TOOLS 7.2
A planet passing in front of a star (transiting) can decrease the total brightness of the star. Microlensing makes a star temporarily brighter, through a planet’s gravity focusing its light.
By measuring the amount by which a star’s light is dimmed during a planet’s transit as well as the length of time the planet is in front of the star, you can estimate the size of the planet. MATH TOOLS 7.3
Direct imaging: It is very difficult to directly see a faint planet in the bright glow of its star. A few dozen planets have been identified this way so far.
Many known planets have 1 to ten times the mass of Jupiter. Some of these orbit close to their stars and are called hot Jupiters. It is easier to find these very large planets due to the greater “wobble” they cause for their stars.
Most planetary systems found to date do not resemble ours. Researhers have also found mini-Neptunes and super-Earths. Planet locations, orbital inclination angles, and orbital directions are different than our Solar System.
Kepler Mission seeks to find rocky planets using transits in the habitable zone of their stars. Potential conditions for liquid water.
i_Clicker Questions Extra-Solar Planets: ESP Orbit Animation Radial Velocity Curve
Different scientists can reach the same conclusions. Beginning from fundamental observations, theorists, planetary scientists, and stellar astronomers converge to the collapsing nebula hypothesis. PROCESS OF SCIENCE