Ph 109: Astronomy and Cosmology - Spring 2017
Solar Systems: Past and Present

Rutgers University Department of Physics and Astronomy


Summary Information:

Professor: Dr. Tad Pryor, Physics & Astronomy Bldg, Room 302W, 848-445-8873
Time: T3 (Tue, 12:00-1:20), F3 (Fri, 12:00-1:20)
Location: Physics Lecture Hall
Office Hour: Thursday, 4:00 - 5:00 PM (call or email to arrange other times)
Text: The Cosmic Perspective: Fundamentals, 2nd edition by Bennett et al. (Addison-Wesley, ISBN 978-0-13-388956-7)
Sakai: Astronomy 109 Sp17 Pryor

More Detailed Information:

Course Description Lecture Schedule
Sakai Text
Homework i>Clickers
Examinations Grades
Public Observing Astronomy Websites
Study Groups Interactive Demos
Students with Disabilities  


Figure: A picture of a portion the nucleus of comet 67P/Churyumov-Gerasimenko taken by the Rosetta spacecraft launched by the European Space Agency. The OSIRIS narrow-angle camera captured this image of the comet on September 30, 2016, from an altitude of about 10 miles (16 kilometers) above the surface during the spacecraft's final controlled descent. The image scale is about 12 inches (30 centimeters) per pixel and the image itself measures about 2,000 feet (614 meters) across. Credits: ESA/Rosetta/MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA. Some more details are available from this Astronomy Picture of the Day post.


Course Description

This course focuses on the historical foundations of astronomy and on our own and other solar systems. The study of phenomena in the sky led to an increasingly detailed picture of the universe and to the development of science as we know it. Astronomers today have a detailed knowledge of the planets, moons, and minor bodies orbiting our Sun and are beginning to discover those around other stars. They understand the broad outlines of how these structures form and can point to where life might exist elsewhere in our solar system. Science is not just a static body of facts, but also the process by which those facts are discovered and then arranged into coherent models. We will use this process to help avoid being buried in the avalanche of facts discovered in the last 100 years.

There are no college-level prerequisites for this course, but typical high school algebra and science preparation are assumed. The companion course, Ph 110 (taught this semester by Profs. Jerez and Lath), covers the structure and evolution of stars, the properties of galaxies, and the past, present, and future of the Universe. The two courses are complementary and independent; you can take one or both, and in either order. Note that Ph 109/110 are intended for non-science majors. Students with college-level math and science credits should consider taking Ph 341/342 instead. These courses cover much of the same material as Ph 109/110, but at a more advanced level.

Sakai

The Sakai site for this course is Astronomy 109 Sp17 Pryor. All homework assignments, powerpoint slides, practice exams, scores, and important information about the course will be posted on the Sakai site, so check it regularly. It is also a good place to submit questions about course material or logistics.

Text

The textbook for both Ph 109 and 110 is The Cosmic Perspective: Fundamentals, 2nd edition by Bennett et al. (Addison-Wesley, ISBN 978-0-13-388956-7). Our class covers the first 7 chapters and parts of chapters 8 and 15, while Ph 110 covers the rest. The textbook is available at the Rutgers Bookstores, New Jersey Books, or on-line. The first edition of the book (from 2009) should also be acceptable.

The textbook compact, clear, and (reasonably) up-to-date. You are responsible only for reading the sections given on the lecture schedule, though those with a strong interest in astronomy should be able to enjoy the whole book. Lectures will be more accessible if you have read the appropriate part of the book before class. A few equations are included in the text. You will not be asked to perform calculations more complex than simple proportionalities in this class.


i>Clickers

We will use the i>Clicker classroom response system for in-class activities and quizzes. You need to buy either the original i>clicker, i>clicker+, or the second-generation i>clicker 2; we will not use any of the new features. Once you acquire your i>clicker, you should register it through Sakai, using the "i>licker" tab on the left-hand side of your "My Workspace".

You get partial credit for any answer to an i>clicker question, whether correct or incorrect, and full credit for the correct answer. I will average the scores if there is more than one question in a lecture and will drop the lowest 5 of your daily averages in calculating your grade.

Homework

Homework will be assigned, done, and graded weekly using Sakai. Homework sets are due Thursday nights (5 AM Friday) on the dates given in the syllabus (first date: January 26). They will become available a week before they are due and scores and correct answers will become available immediately after the deadline passes. No late homework submissions will be accepted. However, I will drop the lowest two out of the 12 homeworks when calculating your grade.

It can be beneficial to discuss homework questions with your fellow students, but your submitted answers must be your own. Simply asking a classmate for the answer to a problem is exploitation, not discussion. Representing someone else's work as your own is a serious infringement of academic integrity that is reportable to your College Dean.

Examinations

There will be a midterm and a final exam. The midterm will be held in place of class in the Physics Lecture Hall on Tuesday, March 7. The final will be Thursday, May 4, 1:30-3:00 PM at a location to be announced. There will be make-up midterm and final exams for those who have an excused absence. Both exams will be multiple choice, computer graded, and closed book/laptop/phone. Material from the text, lectures, homework assignments, and quizes will be used in selecting exam questions. You must bring a photo ID and a pencil to the exams.

Grades

Your course grade will be determined by: midterm -- 30%, final -- 30%, homework -- 30%, and your in-class i>clicker responses -- 10%. As it is easier to obtain a high score for the homework, it is impossible to get a good overall grade without a good homework score. Extra-credit can be achieved by attending a study group, as described below.

Study Groups:

We are fortunate to have two undergraduate learning assistants (Preeti Reddy and Melissa Stept) available for this course, each of whom will run two weekly study groups:

The philosophy of these groups and some more details are given in this flyer.

Attendance and active participation in study groups will allow students to gain extra credit. If you sign up at least 1.5 hours in advance (on Sakai) and show up at a weekly session then you will get an extra +1 point, and if you participate actively (ask and answer questions, draw a diagram of an astronomical phenomenon like a lunar phase or a solar eclipse, etc.) then you will get a total of +2 points. Obtain a minimum of 20 points this way throughout the semester and you will gain extra credit equal to a perfect score on a homework set. More importantly, participating in a study group will give you a huge advantage in preparing for the homework, clicker questions, and the two exams: the learning assistants, both of whom took and did well in this course in previous years, are your greatest allies in helping you master its subject matter. (For students whose schedules prevent them from attending any of the weekly study groups, I am willing to give equivalent extra credit on the basis of active engagement in my weekly office hour.)

Students with Disabilities:

If you have a disability, it is essential that you speak to Professor Pryor early in the semester to make the necessary arrangements to support a successful learning experience. Also, you must arrange for him to receive a Letter of Accommodation from the Office of Disability Services. See this department statement for more information and links.


Public Observing at the Schommer Observatory

Members of the Rutgers University community and the general public are invited to observe the skies through the 20-inch telescope of the Schommer Observatory on the second, third, and fourth Thursday of every month, weather permitting.

Observing will be canceled for that night if the skies are cloudy at the beginning of the observing session. Please see the observatory home page for information about the next night.


Back to Rutgers Physics Home Page

Please send any comments on this page to pryor at physics.rutgers.edu.

Revised January 13, 2017