http://sites.science.oregonstate.edu/portfolioswiki/ 2020-01-27T03:31:21-08:00 http://sites.science.oregonstate.edu/portfolioswiki/ http://sites.science.oregonstate.edu/portfolioswiki/lib/images/favicon.ico text/html 2019-06-03T14:24:05-08:00 http://sites.science.oregonstate.edu/portfolioswiki/courses:lecture:vflec:vfcrosstriple?rev=1559597045 Lecture (20 minutes) Note: Different students likely have different ways of using the determinate of a matrix to perform a cross product; consider allowing them to use whatever method they are comfortable with but make sure student's who are not comfortable with determinates are not left behind. text/html 2018-04-18T09:32:12-08:00 http://sites.science.oregonstate.edu/portfolioswiki/courses:lecture:vflec:vffiniteline?rev=1524069132 This derivation adapted from the bridge book to move the line of charge to have one end at the origin, be of total length $L$, and be valid for any point in space. As an example of finding the potential due to a continuous charge source, let's calculate the potential due to a finite line segment of charge with total length $L$. We will idealize the line segment as infinitely thin and describe it by the constant linear charge density $\lambda$. Because we are chopping a one-dimensional source … text/html 2012-08-29T17:28:41-08:00 http://sites.science.oregonstate.edu/portfolioswiki/courses:lecture:vflec:vflecampere?rev=1346286521 Ampère's Law and Symmetry Argument (20 minutes) GVC(ss)The Magnetic Field of a Uniform Planar Current--More Ampère's Law and Symmetry This lecture is the introduction to the Ampère's Law Activity. Start with an introduction to both Ampère's Law and total current: text/html 2012-08-28T11:56:52-08:00 http://sites.science.oregonstate.edu/portfolioswiki/courses:lecture:vflec:vflecflux?rev=1346180212 Flux Lecture (60 minutes) FIXME (This page is under construction) [Central Forces Notes] Section 6 text/html 2011-07-04T15:29:21-08:00 http://sites.science.oregonstate.edu/portfolioswiki/courses:lecture:vflec:vflecgauss?rev=1309818561 Gauss's Law--the Integral Version (30 minutes) GVC(ss)Gauss's Law and Symmetry--More Gauss's Law: Cylinders and Spheres“”FIXME text/html 2018-03-30T12:29:55-08:00 http://sites.science.oregonstate.edu/portfolioswiki/courses:lecture:vflec:vflines?rev=1522438195 Lecture (30 minutes) what