Timeline for Problem related to application of Maxwell's equation for point charge moving uniformly

Current License: CC BY-SA 3.0

12 events

when toggle format	what		by	license	comment
Dec 25, 2015 at 18:16	history	edited	Prem	CC BY-SA 3.0	added 511 characters in body
Dec 15, 2015 at 2:27	history	edited	Prem	CC BY-SA 3.0	edited body
Dec 13, 2015 at 23:14	answer	added	Timaeus		timeline score: 3
Dec 8, 2015 at 12:57	comment	added	honeste_vivere		@Raja - Are you trying to divide by 3-vectors? Regardless, I would recommend Jackson's E&M book, specifically pages 248-258 of the third edition (i.e., blue cover). There he goes through a very detailed explanation of why and how one can go from a truly microscopic description of Maxwell's equations to the macroscopic version most people are used to and use...
Dec 8, 2015 at 12:49	answer	added	gented		timeline score: 4
Dec 8, 2015 at 9:59	comment	added	Prem		Ok. Vector.vector= scalar. I Forgot that. Sorry and thanks.
Dec 8, 2015 at 9:26	history	edited	user36790	CC BY-SA 3.0	deleted 2 characters in body
Dec 8, 2015 at 9:25	comment	added	David Z		I was going to fix up some of your formatting, but I'm not clear on something: what do things like $\vec{r^2}$ and $\vec{r^3}$ mean? $\vec{r^2} = \vec{r}\cdot\vec{r} = \lVert\vec{r}\rVert^2$ (a scalar), or $\vec{r^2} = \lVert\vec{r}\rVert\vec{r}$ (a vector), or something else? And $\vec{r^3} = \lVert\vec{r}\rVert^2\vec{r}$ (a vector), or $\vec{r^3} = \lVert\vec{r}\rVert^3$ (a scalar), or $\vec{r^3} = (\vec{r}\otimes\vec{r})\cdot\vec{r}$ (another vector), or something else?
Dec 8, 2015 at 9:23	history	edited	user36790	CC BY-SA 3.0	edited body
S Dec 8, 2015 at 9:17	history	suggested	VlS	CC BY-SA 3.0	Latex esthetics
Dec 8, 2015 at 9:09	review	Suggested edits
S Dec 8, 2015 at 9:17
Dec 8, 2015 at 8:45	history	asked	Prem	CC BY-SA 3.0