Two positive charges, Qi = +7.00 µC, Q2 = +5.00 µC are placed as shown in the drawing. The x-y coordinates of the two charges are (0.300 m, 0 m) and (-0.300 m, 0 m). The x-y coordinates of point P are (0 m, 0.800 m). a. Calculate the electric field at point P. Express your answer in unit vector notation! b. Calculate the electric potential (i.e. voltage) at point P. c. If a particle with a charge of + 2.00 uµC and a mass of 3.67 x 10 kg is placed at point P, calculate the acceleration of this particle at the instant shown in the diagram. {Neglect air resistance and gravitational forces.} Express your answer in unit vector notation!
Two positive charges, Qi = +7.00 µC, Q2 = +5.00 µC are placed as shown in the drawing. The x-y coordinates of the two charges are (0.300 m, 0 m) and (-0.300 m, 0 m). The x-y coordinates of point P are (0 m, 0.800 m). a. Calculate the electric field at point P. Express your answer in unit vector notation! b. Calculate the electric potential (i.e. voltage) at point P. c. If a particle with a charge of + 2.00 uµC and a mass of 3.67 x 10 kg is placed at point P, calculate the acceleration of this particle at the instant shown in the diagram. {Neglect air resistance and gravitational forces.} Express your answer in unit vector notation!
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