Diff for "FrontPage"

Differences between revisions 2 and 62 (spanning 60 versions)

Back to page

Welcome to Phys 110B, 2015!

This course is now closed. Good luck to everyone!—6:14PM, Jan 24, 2016

What is this course about?

Classical electrodynamics is all about the light. And electrons and other charged particles... In this course, we will start with Maxwell's equations—something of a monument in the history of physics—and study some conclusions that we can draw from them. By doing so, we will learn about the light, or the electronmagnetic field, and its interaction with charged particles within the realm of “classical” physics. We will learn conservation principles, waves, radiation, and end with the special relativistic view of light.

-  ⇤ ← Revision 2 as of 9:46AM, Mar 31, 2015 → 
  Size: 532
  Editor: Sam
  Comment:
+   ← Revision 62 as of 6:14PM, Jan 24, 2016 → ⇥
  Size: 932
  Editor: Sam
  Comment:
-Deletions are marked like this.
+Additions are marked like this.
 Line 1:
-== Welcome to Phys 110b, 2015! ==
+== Welcome to Phys 110B, 2015! ==
 Line 5:
-Welcome to the 2nd part of Classical Electrodynamics!
+ * This course is now closed.  Good luck to everyone!&mdash;~-''<<DateTime(2016-01-24T18:14:55-0700)>>''-~
 Line 8:
+<<h(<div style="margin-top: -1.0em; text-align: right;">)>>~-[[OldNews|Archived news items can be found here]].-~<<h(</div>)>>
-Line 13:
+Line 14:
-<<fl(C)>>lassical electrodynamics is all about light.  And, electrons and other charged particles...   In this course, we will study the consequences of Maxwell's equations&mdash;something of a monument in the history of physics.  We will learn conservation principles, waves, radiation, and end with the special relativistic view of light.
+<<fl(C)>>lassical electrodynamics is all about the light.  And electrons and other charged particles...   In this course, we will start with Maxwell's equations&mdash;something of a monument in the history of physics&mdash;and study some conclusions that we can draw from them.  By doing so, we will learn about the light, or the electronmagnetic field, and its interaction with charged particles within the realm of &ldquo;classical&rdquo; physics.  We will learn conservation principles, waves, radiation, and end with the special relativistic view of light.