Using the Stellarium program

Today's lab exercise should be carried out in pairs, ideally, but it's okay to do it by yourself or in a group of three.

In order to gain credit for this exercise, you must create a PDF document which provides the answers to all the questions. Submit the PDF to the instructor via the "Assignments" tab in myCourses.

The goal of today's exercise is for you to become familiar with the "Stellarium" program, which allows you to view the sky at any date and time (and from any location). A planetarium is very, very useful for creating a plan for observing some particular object.

Start "Stellarium" on your computer. When it starts, it should show the sky for today's date, at the current time, as seen from Rochester. If it does not, please call your instructor over.

Click on the Sun; a bunch of information about the selected object should appear in the upper-left portion of the screen.

1. What is the Sun's Right Ascension (RA) and Declination (Dec)?
2. What is the Sun's altitude (alt) and azimuth (az)?

Now use the clock icon (in the pull-out menu at lower left) to change the time. Set the time to 4 PM = 16:00.

3. Now what is the Sun's Right Ascension (RA) and Declination (Dec)?
4. Now what is the Sun's altitude (alt) and azimuth (az)?
5. Which set of coordinates has changed by a larger amount? Can you explain why?

Simply changing the time can be very useful.

6. At what time today will the Sun set?

Okay, let's move on to the sky at night. You should notice that the display changes from bright to dark after the Sun sets. Change the time to 8 PM = 20:00.

7. What bright planet is high in the sky?

Many of the Stellarium buttons in the pull-out menus on the lower-left side and lower-left bottom of the screen are toggles: clicking on the button once activates some action, and clicking on it again de-activates the action.

Play with the constellation lines and constellation labels buttons until you figure out what they do.

8. What constellation contains the star Capella?

You can use the "Page Up" and "Page Down" keys on the keyboard to zoom into and out of the view of the sky. Try zooming at as far as you can; you probably won't see the entire night sky. But if you left-click-and-hold on the "S" at the southern horizon then drag down, you should be able to see the entire night sky as a circle. When you can see the entire night sky as a small circle, call the instructor over to show him.

9. In what compass direction (North/South/East/West, or subdivisions thereof) should you look in order to see the constellation Cygnus? What about Ursa Major?

Make sure you can see the entire circle of the night sky, and then play with the "equatorial grid" and "azimuthal grid" buttons on the pull-out menu at bottom left.

10. What is the difference between these two grids? Where is each one centered?

What happens to the positions of stars during the night? They ought to rise in the east and set in the west, right? Well, let's see. Make sure you can see the entire circle of the night sky and then modify the time from 8 PM = 20:00 to 4 AM = 04:00 the next morning.

11. In what direction do the stars move? Do ALL of them move in the same direction?

If you are interested in a particular object, left-click on it to select it, then press the spacebar to center it on the display. You can then zoom in and out to suit your needs. Let's try this with Jupiter.

Set the date to today, and the time to 8 PM = 20:00. Toggle the equatorial grid on, and the azimuthal grid off. Then select Jupiter and zoom in until you can see its large, bright moons. There are four of them: Io, Europa, Ganymede, and Callisto.

12. How many moons are visible at 8 PM tonight?
13. Where is Ganymede located relative to Jupiter?
14. Toggle the button in bottom pull-out menu labelled "switch between equatorial and azimuthal view". What happens to the view of Jupiter as you toggle this button back and forth?
15. Which setting causes the RA/Dec grid lines to be vertical and horizontal?

One of the tasks for which Stellarium is most useful is planning for future observing runs. It can help you to figure out when your object is visible in the sky, and, even more important, when it is "well-placed" for measurements. As we will discuss later, the Earth's atmosphere absorbs and scatters light rays, especially when the object is only a small distance above the horizon. As a general rule, it's best to observe objects only when they are at least 30 degrees above the horizon.

The very best time to observe a star, of course, is when it is highest in the sky. We call that moment "culmination," or "crossing the meridian."

Pretend that your target is the variable star V347 Aur. What is the observing window for this star? That is, when should you start and end your measurements? Of course, it's not possible to see stars at all, even with a telescope, during the day. Sometimes, your observing window is set by the times of dusk or dawn ...

16. Set the date for today. At what time could you start observing V347 Aur? Remember, the sky must be dark, and the target at least 30 degrees above the horizon.
17. At what time would you have to stop observing V347 Aur?
18. Repeat these steps for the night of March 1. What is the observing window on that night?

For more information

• If you wish to install a copy of Stellarium on your own computer, please do! It's free and runs on several platforms.
  • Stellarium home page

Copyright © Michael Richmond. This work is licensed under a Creative Commons License.