Welcome to Phys 5B, 2013!

My extended office hours are on Wednesday (Mar 20; 11AM -- 5PM) and Thursday (Mar 21; 9AM -- 5PM). – 7:33AM, Mar 19, 2013
Please note that the review sheets are available in Lecture+. – 1:58PM, Mar 18, 2013
I am pretty sure that I made this slip today. So, let me correct it. On the blackboard, as I was answering A, I drew an inverted evacuated tube immersed in liquid, and indicated how high liquid will rise in that tube by 1 atm of pressure. Hg → 760 mm (not 76 mm) -- this is why 1 atm is 760 mm Hg (= 760 Torr). Water → 10 m. My lecture notes and review sheets had been fine on this. It is just that on the board I quickly wrote an incorrect number, I think! Sorry, if this confused you. – 1:58PM, Mar 18, 2013
Lecture notes (worth uploading; no repetition of textbook materials) and solutions to past homework had been constantly uploaded to the Lecture+ page. You should check them out, if you have not been doing so! – 6:50PM, Mar 15, 2013

Welcome to the second part of Physics 5!

In this course, we will continue the exploration of the introductory physics. We will start with the simple harmonic oscillator. Then, we will study waves in general. This will lead to geometric optics and related topics. Lastly, we will come back to fluids and statics. If we somehow run out of time, we might leave some topics like fluids for reading only. I like to go through the simple harmonic oscillator and waves, slowly but surely, so that we cover these supremely important topics well enough.

-  ⇤ ← Revision 10 as of 8:35PM, Jan 08, 2013 → 
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-  * Please make sure that you bring your clicker from class 2 and onward.  If you do not have a clicker yet, do not get stressed about it.  In this first week, we will be ''just testing it.''  &ndash; ~-''<<DateTime(2013-01-08T19:35:28-0800)>>''-~
  * The first reading quiz is up.  Please read ''[[How do I do the reading quiz|this]]'' before you go there and do it.  Here is the <<ln("/forum/questions/?start_over=true&tags=rq1-jan9",direct link)>> to the quiz, which you can click once you have created an account here.  &ndash; ~-''<<DateTime(2013-01-08T13:29:08-0800)>>''-~
+ * My extended office hours are on Wednesday (Mar 20; 11AM -- 5PM) and Thursday (Mar 21; 9AM -- 5PM).  &ndash; ~-''<<DateTime(2013-03-19T07:33:37-0700)>>''-~
 
 * Please note that the review sheets are available in '''[[Lecture+]]'''.  &ndash; ~-''<<DateTime(2013-03-18T13:58:06-0700)>>''-~

 * I am pretty sure that I made this slip today.  So, let me correct it.  On the blackboard, as I was answering A, I drew an inverted evacuated tube immersed in liquid, and indicated how high liquid will rise in that tube by 1 atm of pressure.  Hg &rarr; 760 mm (''not'' 76 mm) -- this is why 1 atm is 760 mm Hg (= 760 Torr).  Water &rarr; 10 m.  My lecture notes and review sheets had been fine on this.  It is just that on the board I quickly wrote an incorrect number, I think!  Sorry, if this confused you.  &ndash; ~-''<<DateTime(2013-03-18T13:58:06-0700)>>''-~ 

 * Lecture notes (worth uploading; no repetition of textbook materials) and solutions to past homework had been constantly uploaded to the '''[[Lecture+]]''' page.  You should check them out, if you have not been doing so!  &ndash; ~-''<<DateTime(2013-03-15T17:50:37-0800)>>''-~
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-<<fl(I)>>n this course, we will continue the exploration of the introductory physics.  We will start with the simple harmonic oscillator.  Then, we will study waves in general.  This will lead to geometric optics and related topics.  Lastly, we will come back to fluids and statics.  If we somehow run out of time, we might leave some topics like fluids to reading only.  I like to go through the simple harmonic oscillator and waves, slowly but surely, so that we cover these supremely important topics well enough.
+<<fl(I)>>n this course, we will continue the exploration of the introductory physics.  We will start with the simple harmonic oscillator.  Then, we will study waves in general.  This will lead to geometric optics and related topics.  Lastly, we will come back to fluids and statics.  If we somehow run out of time, we might leave some topics like fluids for reading only.  I like to go through the simple harmonic oscillator and waves, slowly but surely, so that we cover these supremely important topics well enough.