From ebb75efd0c6c1cd0efba73909c4ef05a70976d64 Mon Sep 17 00:00:00 2001 From: "W. Trevor King" Date: Tue, 3 Apr 2012 10:12:29 -0400 Subject: [PATCH] Add illustration for Serway and Jewett v8's problem 23.09. --- .../Serway_and_Jewett_8/problem23.09.tex | 17 +++++++++++++++++ 1 file changed, 17 insertions(+) diff --git a/latex/problems/Serway_and_Jewett_8/problem23.09.tex b/latex/problems/Serway_and_Jewett_8/problem23.09.tex index 66f6da1..8113e34 100644 --- a/latex/problems/Serway_and_Jewett_8/problem23.09.tex +++ b/latex/problems/Serway_and_Jewett_8/problem23.09.tex @@ -2,10 +2,27 @@ Three point charges are arranged as shown in Figure~P23.9. Find \Part{a} the magnitude and \Part{b} the direction of the electric force on the particle at the origin. +\begin{center} % y5.00nC 6.00nC % o-----------o----x % |0.100m 0.300m % o-3.00nC +\begin{asy} +import Mechanics; +import ElectroMag; + +real u = 16cm; + +Charge a = pCharge((0,0), 5, L="$5.00\U{nC}$"); +Charge b = pCharge((0.3u,0), 6, L="$6.00\U{nC}$"); +Charge c = nCharge((0,-0.1u), -3, L="$-3.00\U{nC}$"); +Distance dab = Distance(a.center, b.center, scale=u, L="$0.300\U{m}$"); +Distance dac = Distance( + a.center, c.center, offset=-0.1u, scale=u, L="$0.100\U{m}$"); +a.draw(); b.draw(); c.draw(); dab.draw(); dac.draw(); +draw_ijhat((-0.1u,-0.08u)); +\end{asy} +\end{center} \end{problem*} \begin{solution} -- 2.26.2