Q2// Find the work done in moving a point charge Q=3 pC from (4m, x, 0) to (2m, x/2, 2 m), cylindrical coordinates, in the field E = (),* + 10°zz^☺ E =

Transcribed Image Text:

Qa// Find the work done in moving a point charge Q=3 µC from (4 m, x, 0) to (2m, x/2, 2 m), cylindrical coordinates, in the field E = (* + 105zz^ Q3// A point charge 5 nC is located at (-3, 4, 0) while line y = 1, z 1 carries uniform charge 2 nC/m. (a) If V 0V at O(0, 0, 0), find V at A(5, 0, 1). (b) If V = 100 V at B(1, 2, 1), find V at C-2, 5, 3). (c) If V = -5 V at O, find Vac- 10 Qa// V =sine.cosø, R2 (a) Find the electric flux density D at (2, z/2, 0). (b) Calculate the work done in moving a 10-uC charge from point A(1, 30°, 120°) te B(4, 90°, 60°). Qs// Determine the electric field due to the following potentials: (a) V = x + 2y² + 4z? (b) V = sin(x? + y? + z)2 (c) V = r(z+ 1)sin o (d) V = e sin 0 cos 26 %3! %3D Qo/l In free space, V x'y(z + 3) V. Find (a) E at (3, 4, -6) (b) the charge within the cube 0< x,y.z < 1. Qıl// Given the potential field V= 80R? cos e and a point P(2.5, 0 30°, $ = 60°) in free space, find at P: (a) V; (b) E; (c) D; (d) p.