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Astronomy 340 - Spring 2011
``Origin of the Universe''

Prof. Massimo Ricotti
Office: CSS 0213
Phone: (301) 405 5097
Office hours: Th 3:30pm-4:30pm or by appointment

Teaching Assistant/Grader

KwangHo Park
Office: CSS 0255
Phone: (301) 405 1534
Office hours: Wed 10:00am-11:00am

Class Schedule

Lectures on Tuesday and Thursday from 2:00pm to 3:15pm
Room CSS 2400
No open laptops are allowed during the lectures. If you feel you need to use one please talk to me.

Course Web Page

The web site for this course can be found at
It will contain links to course information, assignments and schedule of lectures and exams.

Course Description

The course is an introduction to modern Cosmology intended primarily for non-science majors. We will study the progression of our knowledge about the origin and evolution of the universe through history, with particular emphasis on modern cosmological results. Topics include: early cosmological models, geocentric vs. heliocentric theory, curvature of space, Hubble's Law, Big Bang Theory, microwave background radiation, evolution of stars and galaxies, dark matter, active galaxies, quasars and the future of the universe. Modern Cosmology uses the laws of Physics to construct models of the universe that describe how it evolved from simple initial conditions. The current cosmological paradigm has been quite successful at explaining many of the amazing aspects of the Universe around us. In order to do so, however, cosmologists introduced new concepts such as ``dark matter'' and ``dark energy''. What physics are behind these concepts, and whether such hypotheses will stand the test of time, is the subject of much current research.

Course Prerequisite

The course is intended for non-science majors and assumes high-school-level algebra, and either ASTR 100 or 101 as a prerequisite. However, expect the homework and exams to be challenging if you have little practice or you are rusty at problem solving. See also the official UMD info on this course.

Required Texts

See the course web page for lecture notes.

Course Assignments and Grading

Final grades for this course will be computed based on cumulative points in the areas below, according to the weights listed:

Final letter grades will be curved, based on the total points received. The letter grades are assigned as: with +/- within A, B, and C. There will be no extra credit.

Homework will typically be assigned once a week, due the following week, and must be turned in at the beginning of class. You should expect about 7 assignments during the semester.

Homework will be considered late by the end of class and will no longer be accepted. If for some reason you cannot make it to class, you should either ask a friend/classmate to hand in your assignment for you, or make sure that it gets to the instructor beforehand. If, for whatever reason, the University is officially closed on the due date for an assignment, the due date will be moved to the next lecture.

Midterm exam: There will be one in-class examination on March 16 2011 during the normal class time (to be confirmed). This exam will be closed book. The exam will consist of a section of short answer questions, followed by longer essay and problem solving questions.

Final exam: As per the University rules, the final exam for this course will be held on May 16 between 10:30am and 12:30pm in CSS2400. The final exam will cover all material discussed in this course. The format of the final exam will be the same as the midterm exam, with a section of short answer questions and a section of longer essay or problem solving questions.

Students who are ill or have another valid excuse must explain the circumstances to the instructor before the due date of an assignment or exam, and then complete the work within the following week, in order to get full credit. Any illnesses or emergencies need to be properly documented.

Points will not be given for any extra credit projects. It is important to complete all the regular assignments to get the most you can out of the class!

Students with Special Needs

Students with a documented disability who wish to discuss academic accommodations should contact me as soon as possible.

Academic Integrity

The University of Maryland, College Park has a nationally recognized Code of Academic Integrity, administered by the Student Honor Council. University standards regarding academic integrity apply to all work performed for credit in this course, and as a student you are responsible for upholding these standards. Particulars of the University's Code are printed in the Undergraduate Catalog, and a description of what constitutes academic dishonesty is also given in the on-line Schedule of Classes. In brief, the Code requires that you must never engage in acts of academic dishonesty at any time. Acts of academic dishonesty include cheating, fabrication, plagiarism, or helping another person to do any of these things. Violation of the Code carries very serious consequences; for more information, please visit

The rules regarding academic integrity apply to homework as well as to exams. As a part of these rules, you must give credit to any book, published article, or web page that you have used to help you with a particular assignment. These rules also apply to unpublished sources of information. In particular, students are encouraged to discuss assignments and other class material with each other, but every student must personally think through and write up his or her own answers to the homework questions.

To further exhibit your commitment to academic integrity, remember to sign the Honor Pledge on all examinations and assignments:

``I pledge on my honor that I have not given or received any unauthorized assistance on this assignment/examination.''

Tentative Course Outline

Class Date Lecture Reading
    Part I: History of Cosmology  
#1 Jan 25 Introduction to the course Ch.1
#2 Jan 27 Geocentric cosmology and astronomy Ch.2
#3 Feb 01 Renaissance empiricism and the heliocentric model Ch.2
#4 Feb 03 The Universe of physical law Ch.3
#5 Feb 08 The age of the Earth and the Cosmos Ch.3
    Part II: Relativity  
#6 Feb 10 Principles of space and time Ch.6
#7 Feb 15 Special relativity Ch.7
#8 Feb 17 Special relativity Ch.7
#9 Feb 22 Special relativity Ch.7
#10 Feb 24 General relativity Ch.8
#11 Mar 01 General relativity Ch.8
#12 Mar 03 Black Holes Ch.9
    Part III: Modern Cosmology  
#13 Mar 18 The Universe beyond our Galaxy Ch.10
#14 Mar 10 Cosmological expansion Ch.10
#15 Mar 15 Geometry and evolution of the Universe Ch.11
- Mar 17 Midterm Exam:CSS2400, 2:00pm-3:15pm -
#16 Mar 29 Geometry and evolution of the Universe Ch.11
#17 Mar 31 The Big Bang and early Universe Ch.12
#18 Apr 05 The Big Bang and early Universe Ch.12
#19 Apr 07 The Big Bang and early Universe Ch.12
    Part IV: Contemporary Cosmology  
#20 Apr 12 Measurement of cosmological parameters Ch.13
#21 Apr 14 Measurement of cosmological parameters Ch.13
#22 Apr 19 Cosmic background radiation Ch.14
#23 Apr 21 Cosmic background radiation Ch.14
#24 Apr 26 Dark matter and cosmic structure formation Ch.15
#25 Apr 02 Cosmic structure: observations Ch.15
#26 May 04 Cosmic structure: simulations Ch.15
#27 May 09 Cosmological inflation Ch.16
#28 May 11 Review session -
- May 16 Final exam: CSS2400, 10:30am-12:30am -

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Massimo Ricotti 2011-01-24