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| {{{#!wiki news '''Office hours''' | {{{#!wiki news * <<h(<span style='font-size: 125%;'>)>>It was very nice to teach this class, and kudos to all of you who worked really hard! Have a nice break!<<h(</span>)>> * [[Homework+#Exam|The final exam and its solutions (and stats and rubrics) are posted]]. }}} |
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| * You can come to meet with me in my office any time today, until 5 PM. * The official office hours start next week. * The poll is still in progress, <<ln(http://doodle.com/vqvi3aztkyhdgtuf,please participate here)>> if you haven't already. The poll will close within a day or so. * Note that Thu 4PM is now changed to Thu 3PM. While Thu 4PM got many initial votes, I realized belatedly that it conflicts with the department colloquium. So, I had to move it to Thu 3PM. I know that Thu 3PM overlaps with 116C. In conclusion, I think Thu 3PM or 4PM is not a good choice. However, Tue 4PM seems to be emerging as a great choice. * One problem in the homework is moving over to the next set. [[Homework+|Read about it here]]. |
<<h(<div style="margin-top: -1.0em; text-align: right;">)>>~-[[Archived news|Archived news items can be found here]]. ''Some are worth checking again (like office hour info!).'' -~<<h(</div>)>> {{{#!wiki inform ~+'''What is this course about?'''+~ <<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. |
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| {{{#!wiki important '''What is this course about?''' Classical 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. }}} This web site will become fuller as the course proceeds. In the mean time, you might want to check out <<ln(http://griffin.ucsc.edu/teaching/10Q4-105.html,the last year's course web site)>>. Here is <<la(00-Syllabus.pdf,the syllabus for this year)>>. It will get updated soon with office hours. Note that there are three important links above ("Lectures+", "Homework+" and "Forum") -- at this time, only Homework+ is functional (HW01 is there),but other links will become operational soon. Remember that you are ''the one!'' |
Checking out <<ln(http://griffin.ucsc.edu/teaching/10Q4-105.html,last year's course web site)>> might be of some use. Last but not the least, remember that '''<<fs(150,Y)>>ou''' are ''the one!'' |
Welcome to Phys 105, 2011!
It was very nice to teach this class, and kudos to all of you who worked really hard! Have a nice break!
The final exam and its solutions (and stats and rubrics) are posted.
Archived news items can be found here. Some are worth checking again (like office hour info!).
What is this course about?
Classical 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.
Checking out last year’s course web site might be of some use. Last but not the least, remember that You are the one!