Ph105-14
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| * Welcome back! And, welcome to the most fundamental course in physics! | * Some example problems for the final exam are uploaded. Check them out at [[Homework+]].—~-''<<DateTime(2014-12-08T11:58:17-0800)>>''-~ |
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| * This course will not have any required textbook, and my lecture notes will not follow any one book. However, the following are recommended to aid your learning (the first two had been ordered at Baytree). | * As we wrap up this quarter, please do extra credit problems embedded in the lecture note, if you like some serious possibility for boosting your exam grades. Your work must be (very) high quality to get credit. Extra credit problems are not limited to what I describe in lecture notes. You can make up your own, as long as they are high quality for you, you have thought about them for a while, and you have reached a high clarity regarding issue. After the final exam, your extra work will be accepted only by email. No work will be accepted after Dec 19.—~-''<<DateTime(2014-12-08T11:58:17-0800)>>''-~ |
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| * ''Classical Mechanics'', by R. Douglas Gregory (Cambridge)—~-a careful and modern discussion of the subject; This book is my recommendation, if you like to buy one book to go along with this course.-~ * ''Classical Dynamics of Particles and Systems'', by Stephen T. Thornton and Jerry B. Marion (5th ed; Cengage)—~-this is a nice time-tested textbook, which has unfortunately become too expensive.-~ * ''Mechanics'', by L D Landau and E.M. Lifshitz—~-highly recommended if you like to be challenged by one of the most succinct and beautiful discussion of the subject.-~ * ''The Feynman Lectures on Physics'', vol. 1, Richard P. Feynman, Robert B. Leighton and Matthew Sands.—~-Any time you pick up this book, you may be in for a treat. Now <<ln(http://www.feynmanlectures.caltech.edu/,freely available on line!)>>-~ |
* A take home quiz was handed out in today's class. It is downloadable from [[Homework+]].—~-''<<DateTime(2014-12-04T13:08:59-0800)>>''-~ |
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| <<h(<div style="margin-top: -1.0em; text-align: right;">)>>~-[[OldNews|Archived news items can be found here]].-~<<h(</div>)>> | |
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| <<fl(C)>>lassical mechanics is a beautifully ripe subject, albeit with hidden surprises. In this course, we will get a complete overview of classical mechanics. We will learn Newtonian and Lagrangian views of classical mechanics. We will cover some basic topics such as linear systems and the central force problem, and also not so basic topics such as non-linear dynamics (chaos), and many particle systems (field theory). If time allows (very unlikely), we may cover the special theory of relativity as well. | <<fl(C)>>lassical mechanics is a beautifully ripe subject, albeit with hidden surprises. In this course, we will get an almost complete overview of classical mechanics. We will learn Newtonian and Lagrangian views of classical mechanics. We will cover some basic topics such as linear systems and the central force problem, and also not so basic topics such as non-linear dynamics (chaos), and many particle systems (field theory). If time allows (very unlikely), we may cover the special theory of relativity as well. |
Welcome to Phys 105, 2014!
Some example problems for the final exam are uploaded. Check them out at Homework+.—12:58PM, Dec 08, 2014
As we wrap up this quarter, please do extra credit problems embedded in the lecture note, if you like some serious possibility for boosting your exam grades. Your work must be (very) high quality to get credit. Extra credit problems are not limited to what I describe in lecture notes. You can make up your own, as long as they are high quality for you, you have thought about them for a while, and you have reached a high clarity regarding issue. After the final exam, your extra work will be accepted only by email. No work will be accepted after Dec 19.—12:58PM, Dec 08, 2014
A take home quiz was handed out in today's class. It is downloadable from Homework+.—2:08PM, Dec 04, 2014
What is this course about?
Classical mechanics is a beautifully ripe subject, albeit with hidden surprises. In this course, we will get an almost complete overview of classical mechanics. We will learn Newtonian and Lagrangian views of classical mechanics. We will cover some basic topics such as linear systems and the central force problem, and also not so basic topics such as non-linear dynamics (chaos), and many particle systems (field theory). If time allows (very unlikely), we may cover the special theory of relativity as well.
Checking out a previous year’s course web site for 105 might be useful. Last but not the least, remember that You are the one!