assignments
Observing Assignment #1
- Sketch the constellation Orion. When sketching stars, it is customary to use a larger, darker mark to indicate bright stars and a smaller, fainter mark to indicate fainter stars. Spend a good 15-20 minutes (plus) making your sketch. Try to draw the relative distances between the stars as accurately as you can. When you have finished with your sketch, go back inside and use whatever resources you want to mark the names of every star you can.
Observing Assignment #2
- Find Saturn in the night sky (rises in the east around 9pm these days) and sketch its location relative to the surrounding stars. Over the course of the semester return to this project and mark Saturn's trek across the celestial sphere. Be sure to mark each data point on your home-drawn map with a date and time. Before turning in your observing journal at the end of the semester be sure to write up an explanation in your own words for why Saturn moves in such a fashion.
due Mon Feb 23
Homework #1
- Please type up your solutions and bring a hard copy to class on Monday. Be prepared to discuss your answers. I'm expecting one or two paragraphs for each of these questions (written in complete sentences, of course). It doesn't have to be a lot, but it should be enough to convince me that you understand what you are writing and are not just copying ideas out of the book.
- Why should you be sure to plot Absolute Magnitude or Luminosity & NOT Apparent Magnitude when you are making a HR Diagram? Can you think of any situation when plotting Apparent Magnitude would be acceptable?
- Why are there more stars on the Main Sequence than in other areas of a typical HR Diagram?
- Looking at Figure 4.8 in your book, how might you describe the distribution of masses in an HR Diagram? How might these masses have been determined? Can you come up with any logical story line that explains such a distribution of masses?
- Explain what the "Main Sequence Turnoff" is and briefly describe what it can tell us about star clusters.
- Briefly describe the effect of interstellar dust and gas on our observations of stars. Discuss possible corrections we can make to account for these effects.
- And one review question and some extra credit!
- Explain why after the sun sets in Venezuela it gets very dark far quicker than it does here in Vermont. A pair of figures would be very helpful.
- EXTRA CREDIT: You are at 42 degrees North latitude and the Local Sidereal Time is 0600h (which simply means that the line of 6 hours Right Ascension bisects your sky running from due North, through your zenith, all the way to due South). What is the Azimuth and Altitude of the star Sirius? Don't just look it up (though of course you can look up the RA and DEC of Sirius) Be sure to show me your work!
Observing Assignment #3
- Find Comet Lulin! It is near Saturn these days and has become a naked eye object on clear dark nights. You can find information and finder charts at Heavens Above (link on Resource page) under the Astronomy Section: C/2007 N3 Lunin. Keep an eye on it from night to night for the next week or so -- you can either put your observations on the same chart as you are keeping for Saturn, or you can create a new chart. Closest approach is in the early morning on Tuesday.
due Mon Mar 2
Homework #2
- Please type up your solutions and bring a hard copy to class on Monday. Be prepared to discuss your answers. I'm expecting one or two paragraphs for each of these questions (written in complete sentences, of course). It doesn't have to be a lot, but it should be enough to convince me that you understand what you are writing and are not just copying ideas out of the book.
- Read Chapter 5 of our book and answer the following questions:
- Describe each of the various types of interstellar regions and for each think about how we might detect such a region from here on Earth. Which forms are most directly connected with star formation?
- Table 5.1 is ordered in a very logical way -- What is it? Once you recognize the overall theme, walk me through each line of the table explaining its place in the storyline. Hint: Think about how these various regions are created!
- Why doesn't every dense core of gas collapse into a star? Give a few possible reasons.
- Check out the image of the Orion region here. Orion is tough to pick out, but is located behind the bright crescent of gas in the lower half of the image. Describe the various features you see throughout the image. Starting in the lower left of the image and continuing to the very top of the image is a fairly straight line of bright spots. What is that?
Observing #4
Try to spot Venus during the daytime! You all know how bright Venus is in the evening sky this winter/early spring. Well, it turns out it is bright enough to see even during broad daylight! The trick is simply knowing where to look. You can look up exact positions on Heavens-Above (link on resources page). This will be a challenge, but once you find it you will be amazed how bright it is!
Observing #5
Read this (very short) article about observing the variable star Algol:
ARTICLE The next two minimums that will occur at reasonable times are on March 18th and the 20th. Try to catch one of these minimums and use some nearby stars to estimate the magnitude of Algol throughout the event. If you are not able to make this observation over spring break there is a calculator at the bottom of the page I link to above that will help you figure out when the next minimum will occur.
due Thu Mar 12
Quiz #1
Observing #6
Mercury! The innermost planet of our solar system is making a great evening appearance for the remainder of the semester. Starting soon you should be able to pick Mercury out of the last light of sunset from any location with a clear western horizon. Finding charts can be found
here, eventually
here,though not yet... I will post more finder charts as I find them. But sometimes what's best is to get a star chart of the western sky WITHOUT the planet and then figure out which point of light in the sky is NOT on the chart. The maximum altitude of Mercury this pass will be around the 25th of April just as the crescent moon enters the evening sky. Should be beautiful.
Observing #7
Lyrid Meteor Shower! Wednesday April 22nd in the early morning (or super late the night of the 21st if you're Anne...) We can talk on Monday the 20th about our plans, but in the meantime here are some links with a bit more information:
