<--- Back to Details
First PageDocument Content
Astronomy / Stellar evolution / Outer space / Star types / Stellar astronomy / Light sources / Observational astronomy / Asymptotic giant branch / Planetary nebula / Infrared excess / Cosmic dust / Red supergiant
Date: 2012-12-01 13:14:16
Astronomy
Stellar evolution
Outer space
Star types
Stellar astronomy
Light sources
Observational astronomy
Asymptotic giant branch
Planetary nebula
Infrared excess
Cosmic dust
Red supergiant

Add to Reading List

Source URL: www.astro.keele.ac.uk

Download Document from Source Website

File Size: 164,04 KB

Share Document on Facebook

Similar Documents

Digital Spectroscopy— - Light and a Laptop One of the most vexing tasks in teaching astronomy has always been spectroscopy. Stellar spectroscopy, laboratory spectroscopy, in-the-field spectroscopy, doesn’t matter. It

DocID: 1uN6D - View Document

Astronomy Assessment and TPS Questions: Stellar Evolution In a main sequence star, gravitational collapse is balanced by convection of stellar material from the core.

DocID: 1tMJF - View Document

The After SDSS-IV, Letter of Intent: Andrew Tkachenko on behalf of the KU Leuven Gaia/K2/TESS/PLATO2.0 team (Institute of Astronomy, KU Leuven, Belgium) High precision stellar astrophysics: an avant-guard look at the ast

DocID: 1swJt - View Document

Stellar Spectroscopy The Message of Starlight Travis A. Rector National Optical Astronomy Observatories 950 N. Cherry Ave., Tucson, AZUSA email:

DocID: 1rXhv - View Document

Astronomy / Outer space / Exoplanetology / Astrophysics / Stellar astronomy / Space observatories / Observational astronomy / Kepler / Exoplanet / NASA Exoplanet Science Institute / Photometry / Binary star

197 Candidates and 104 Validated Planets in K2’s First Five Fields Ian J. M. Crossfield1,2 , David R. Ciardi3 , Erik A. Petigura4,5 , Evan Sinukoff6,7 , Joshua E. Schlieder8,9 , Andrew W. Howard6 , Charles A. Beichman3

DocID: 1roBc - View Document