Courses:

Introduction to Special Relativity >> Content Detail



Syllabus



Syllabus

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Course Outline


I. Introduction and Relativity Pre-Einstein

II. Einstein's Principle of Relativity and a new Concept of Spacetime

III. The Great Kinematic Consequences of Relativity

IV. Velocity Addition and other Differential Transformations

V. Kinematics and "Paradoxes"

VI. Relativistic Momentum and Energy I: Basics

VII. Relativistic Momentum and Energy II: Four Vectors and Transformation Properties

VIII. General Relativity: Einstein's Theory of Gravity

Detailed course outline (PDF)



General Comments


8.20 is an introduction to Einstein's Special Theory of Relativity. We will probably have a lecture or two to introduce his General Theory as well, but the principal focus will be on special relativity, which we will study in quite a bit of detail. If you have hoped to understand the physics of Lorentz contraction, time dilation, the "twin paradox", and E=mc2, you're in the right place.

8.20 is a 9-unit course given in the four weeks of IAP. A 9-unit course is roughly equivalent to 30 hours a week for four weeks, be prepared to work hard! Problem sets will come upon you quickly. So will the midterm and the final. The course will be defined by the lectures. The reading is an important part of the course, but if you want to know what you are responsible for, it's the material that is presented in lecture unless otherwise explicitly stated.



Course Prerequisites


8.20 is open to all MIT students who have completed or placed out of 8.01 (Physics I - Classical Mechanics) and 18.01 (Calculus I). Anyone in the MIT community who is familiar with elementary mechanics and who has a good knowledge of algebra (and a little knowledge of calculus) will find the course accessible.



Textbooks


The following textbooks are required or strongly recommended. Readings will be assigned in Resnick and Halliday and in French. Einstein's book is a cultural classic.

Amazon logo Resnick, Robert. Introduction to Special Relativity. New York, NY: Wiley, 1968. ISBN: 9780471717256. (required)

Amazon logo French, Anthony Philip. Special Relativity. New York, NY: Norton, 1968. ISBN: 9780393097931. (required)

Amazon logo Einstein, Albert A. Relativity: The Special and the General Theory. New York, NY: Three Rivers Press/Random House, 1995. ISBN: 9780517884416. (recommended) Also available online here.

Here are some texts which supplement 8.20. I don't recommend buying them, but you may want to look for them at the library.

Amazon logo Rindler, Wolfgang. Essential Relativity. 2nd ed. Springer-Verlag. ISBN: 9780387100906. (A more advanced book.)

Sciama, Dennis W. The Physical Foundations of General Relativity. Doubleday-Anchor, 1969. No ISBN number. (A very short, very elementary book on GR.)

Amazon logo Sartori, Leo. Understanding Relativity. University of California Press, 1996. ISBN: 9780520079861. (Another book at the level of 8.20, similar to French, but with more space-time diagrams and less about experiment.)



Problem Sets


Problem sets are an important part of 8.20. It simply isn't possible to learn relativity unless you sit down and work through problems and concepts on your own. We recognize that students also learn a great deal from talking to and working with each other. We therefore encourage each student to make his/her own attempt on every problem and then, having done so, to discuss the problems with one another and collaborate on understanding them more fully. The solutions you submit must reflect your own work. They must not be transcriptions or reproductions of other people's work, published textbook solutions, or solutions from previous years. Plagiarism is a serious offense and is easy to recognize. Don't submit work which is not your own.

  • There will be four problem sets, each roughly equivalent to 2.5 ordinary term assignments. The problem sets will be due one week after they are handed out.
  • Because of the accelerated pace of the course, no late problem sets can be accepted.
  • Graded problem sets will be returned in lecture as soon as possible.


Exams


  • A two-hour midterm is scheduled on the day of lecture 11. It will cover material through lecture 9.
  • A 2.5-hour final exam is scheduled on the day of lecture 19.


Grading


Grading will be weighted as follows:


ActivitiesPercentages
Problem Sets35%
Midterm25%
Final40%

 








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