The figure below shows three small, positively charged spheres at three corners of a rectangle. The particle at upper left has a charge q, = 3.00 nc, the one at the lower left has a charge of q, = 4.00 nC, and the one at lower right has a charge g3 = 6.00 nC. The rectangle's horizontal side has length x = 5.00 cm and its vertical side has length y = 3.50 cm. Three positive charges lie at three of the corners of a rectangie of horizontal side length X and vertical skde length yx. • An charge labeled q, is at the upper left corner. A charge labeledq, s at the lower left comer A charge labeled q, is at the lower right corner. (a) What is the electric potential (in V) at the upper-right corner of the rectangle? (Assume the zero of electric potential is at infity.) (b) What would be the potential (in V) at the upper-right corner if the charge q, at lower left was -4.00 nC instead?

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The figure below shows three small, positively charged spheres at three corners of a rectangle. The particle at upper left has a charge q, = 3.00 nC, the one at the lower left has a charge of g2 = 4.00 nC, and the one at lower right has a charge q3 = 6.00 nC. The rectangle's horizontal side has length x = 5.00 cm and its vertical side has length y = 3.50 cm. Three positive charges lie at three of the corners of a rectangie of horizontal side length X and vertical side length yx. • An charge labeled q, is at the upper left corner. • A charge labeled q, is at the lower left comer A charge labeled q is at the lower right corner. (a) What is the electric potential (in V) at the upper-right corner of the rectangle? (Assume the zero of electric potential is at infinity.) (b) What would be the potential (in V) at the upper-right corner if the charge q, at lower left was -4.00 nC instead?