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- Given V= +assumingfree space Conditions, find@(E),(b) the Valume charge density at pza5 m the charge ying with in the closed surface p-ob ,OLZKI Ans=-48P,-673C/m³ , -196 ncUniform line charge density of Enc/m at y=0,2 =2m in Free space while -6nc/m is located y=0, x==2 at Auniform Surface charge density 0.3 nc/m² is at y=0.2 and d+ y = -012 find E at origin.A semi-infinite line extending from – o to 0 carries a uniform charge distribution of 100 nC/m. Find the electric field intensity at P(0, 0, 2). If a charge of -1 µCs placed at P, calculate the force acting on it.
- The figure shows a coaxial cable in Cross-Section. The two conductors have inner and outter radii as shown and carry oslo linear charge densities winner = -14.4 nC/m 12h and nouter 20.5 nc/m. Given rA = 12 cm, r = 13.3cm, rc = 20.5 cm, and rp = 23.3 cm, determine the magnitude of the electric field at a point 47cm from the central axis. Inner Conductor. outer Conductor 97134 Adt 9bialog m ARD RB 0821 whoog tolk oprol inv Relish corona 21 tonly 3.2072 2til Calls on Digitalels 2010 6000 904 30 900tivalWhat is the angle between the electrostatic force on the charge at the origin and the pos- itive z-axis? Answer in degrees as an angle between -180° and 180° measured from the positive x-axis, with counterclockwise posi- tive. Answer in units of °.(b) In figure, what is the resultant force on the charge in the lower left corner of the square (q1)? Assume that q=4µC and a = 3mm. (0,0)
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