c) Find the electric field E at point P (1, 1, 1) due to four identical 3 nC charges located at P1 (1, 1, 0), P2 (-1, 1, 0), P3 (-1, -1, 0) and P4 (1, -1, 0) respectively.
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- A pair of vertical charged conducting plates produces a uniform field of 1.1 Nî, directed to the right, between the plates. The separation of the kN plates is 40mm. An electron is projected from plate A, directly towards plate B, with an initial velocity of 6.38 Mm. Determine the velocity of the electron as it strikes plate B (in S Mm) S A E Vo 40 mm BA ▬ >E h d - As shown in the figure above, a positively charged ball is placed at point A and slides down the slope from rest. The area has a uniform electric field E = 12.9 N/C, pointing to the right. The mass of the ball is m = 9 kg and the charge is q = +2.6 C. When the ball reaches point B, it travels horizontally there after. The height from A to B is h = 37 m and the horizontal distance between A and B is d = 30 m. You can ignore friction and use g = 10 m/s for your calculation. %3D How much is the kinetic energy of the ball when it reaches at B (in the unit of J)? Submit Answer Tries 0/2 If the electric field ist changed to the opposite direction, How much is the kinetic energy of the ball when it reaches at B (in the unit of J) now? Submit Answer Tries 0/2 What is the minimum strength of electric field E that can be used to stop the particle right at Point B? N/CEx:Region y 0 is a dielectric medium (€,r1 = 2). If there is a surface charge of p, = 2 n (а) А (3,-2,2) (b) В (-4,1,5) on the conductor, determine E and D at т2