1. In a 2D coordinate system as shown below, three small charged particles with the same size, A, B, and C, are fixed in place at the vertices of an equilateral triangle. The distances between any two particles are all equal to L. +y 9B = -2Q 9a = +Q 9c = +Q +x A. Assuming the size of the three particles is very small compared to the equilateral triangle (i.e., r « L), please determine the direction and the magnitude of the net electric force on qc- B. Assuming the radius of the three particles is r = L/3, Please determine the direction and the magnitude of the electric field at the center of qc- (Note: The symbolic expression as the answer must only include the given variables and the commonly accepted constants. Providing diagrams with your answers is highly recommended.)

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1. In a 2D coordinate system as shown below, three small charged particles with the same size, A, B, and C, are fixed in place at the vertices of an equilateral triangle. The distances between any two particles are all equal to L. +y IB = -2Q IA = +Q 9c = +Q +x A. Assuming the size of the three particles is very small compared to the equilateral triangle (i.e., r « L), please determine the direction and the magnitude of the net electric force on qc- B. Assuming the radius of the three particles is r = L/3, Please determine the direction and the magnitude of the electric field at the center of qc. (Note: The symbolic expression as the answer must only include the given variables and the commonly accepted constants. Providing diagrams with your answers is highly recommended.)