44 Introduction

Astronomy Laboratory 10 – Star Colors and Spectroscopy

Module Introduction

Light dispersion of a mercury-vapor lamp with a prism made of flint glass.
When light strikes or enters a prism, it is dispersed into component colors. This is an example of spectroscopy. Light dispersion by D-Kuru is licensed under CC BY-SA 3.0

Spectroscopy is a major scientific tool. In astronomy it allows one to determine precisely the composition of stars, as well as if the star is moving toward or away from Earth.

In this lab, you will explore how spectroscopy works and learn in introduction to astronomy about star color versus star temperature. The lab exercise will take the concept outdoors, where you will visually observe and catalog different stars with varying colors. (1)


At the end of this module, students will be able to:

  • Identify constellations and the colors of some of the stars within
  • Make observations and record data using diffraction grating
  • Describe astronomical spectroscopy based on research (1)


The material in this module includes content designed to meet the following course outcomes:

  • Explain and apply major concepts in astronomy including planets, satellites, stars, meteors, galaxies, and theories of the universe.
  • Demonstrate knowledge of scientific method.
  • Communicate scientific ideas through oral or written assignments.
  • Interpret scientific models such as formulas, graphs, tables and schematics, draw inferences from them and recognize their limitations.
  • Demonstrate the ability to think critically.
  • Demonstrate the ability to use scientific and quantitative reasoning. (1)

Assigned Readings

Learning Unit 10


  • Star Colors
  • Simple Spectroscopy Exercise
  • Astronmical Spectroscopy
  • Lab 10 Quiz (1)


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Astronomy Lab Copyright © by Lumen Learning is licensed under a Creative Commons Attribution 4.0 International License, except where otherwise noted.

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