Question

Consider an equilateral triangle with sides of length 5cm where each of the three vertices carry a charge. The top vertex carries a charge of +9.0µC, while the bottom vertices each carry a charge of?5.0µC. (a) (7 points) What is the magnitude and direction of the electric field at the center of the triangle? (b) (3 points) If the center of the triangle contained a proton, what would the force be of the charged vertices on the proton?

Answer 1

Given data The charge h = 9wC The charges are q,-93 = 5pC The field directions are shown below The distance is 0.05 下 - 0.029 m The electric fields are kq, (9-10 )19-10-) (0.029)* 9.63x10 NC kq, (9×10%)(5×10-6) (0.029) , 5.35x10NC 9x10) (5x10 5.35x10 N/C E, = E, cos 30-E, cos 30 0.029 The electric field along horizontal direction is (5.35x10)cos 30-(5.35x10)cos 30 The electric field along vertical direction is

E, E2 sin30-E sin 30 (9.63x10')-(5.35x10 sin 30-(5.35x10')sin 30 -14.98x10 N/C The magnitude of electric filed is (o-14.98x10) -14.98x10' N/C The force is F-GE -1.6x101) (14.98x10) -2.39% 10-11 N