Transcript light
Astronomy 1020 Stellar Astronomy Spring_2016 Day-12 Course Announcements • • 1st Quarter observing night: TONIGHT @ 7:30pm READ through the “Format for the Report” BEFORE you come. N 32 Mean 68.5 Std. Dev. 13.57 Median 70.4 Mode ---- Min. 45.6 Max. 100 Curve --- Course Announcements • • Colloquium on Friday, Feb. 19. @2:30pm B310 Dr. David James, Cerro-Tololo InterAmerican Obs. • Open Clusters, Stellar Evolution and Calibrating the Ages of Stars: Blanco 1 • Galactic open clusters are laboratories, provided by nature, for us to study stellar evolution. Using 1m-, 4m- and 8m-class telescopes, I will show how spectroscopic and photometric observations of solar-type stars in open clusters allow us to establish a stellar chronometer, and create an age-ranking system for an ensemble of nearby, well-studied clusters. With the aid of new observations of Blanco 1, an high-Galactic latitude, Pleiades-age cluster, I will show how deriving stellar age must be based upon very high quality observational data and a diverse range of stellar models. Course Announcements • 1st “Hot Topics in Science”: Tues. 2/23 6-8pm E106B • • Topics this semester are: Human Cloning, Environmental Toxicology, & Fracking … includes pizza. • Dark Night Observing: Mon. 2/29 & Wed. 3/2 – 7:30pm at the APSU Observatory Exam-2 – Fri. 3/4 Chapters 5 & 6 Smartworks Chapters 5 & 6: Due Fri. 3/4 Spring Break Mar. 5-13 (Sat.-Sun.) • APSU Research and Creativity Forum April 15, 2016 • • • • • Abstracts are due: 4:00pm Fri., March 18 Feb. 29 – Last day to drop with an automatic “W” Apr. 1 – Last day to drop a class with W, F, FA The Origin and Nature of Light Lab This Week • The Spectrometer • What you need to know: You get to visualize the spectra from various sources. Reading ahead in Chapter 5 will help. • • Lab This Week The Spectrometer Almost all knowledge of the universe beyond Earth comes from light. Light can tell us about objects in space: temperature, composition, speeds, and more. What Light Can Tell Us. Photometry – Study of Brightness: Luminosity, Est. of Distance, Rough Temp. of Star Spectroscopy – Study of the EM Spectrum: Composition, Radial Velocity, Temp., Surface-gravity Mass for compact objects Astrometry – Study of Positions: Tangential Motion, Distance Polarimetry – Study of Polarization of Light: Magnetic Field Spectrum of the Sun But, what is light? Newton, Remember Newton? He did more than just calculus and mechanics. In the 17th Century, Isaac Newton argued that light was composed of little particles while Christian Huygens suggested that light travels in the form of waves. In the 19th and 20th Century Maxwell, Young, Einstein and others were able to show that Light behaves both like a particle and a wave depending on how you observe it. Particle Nature Thomas Young’s interference experiment Wave Nature