Three charges are placed at the corners of an isosceles triangle as shown in the figure below. The 5.00 µC charges form a dipole. +5.00 µC 2.00 cm 3.00 cm i -10.00 µC (2.00 cm -5.00 μC Find the force (magnitude and direction) the- 10.00 µC charge exerts on the dipole. * - 1680 N, in the direction from the + 5.00 µC charge toward the - 5.00 µC charge. - 1680 N, in the direction from the - 5.00 µC charge toward the + 5.00 µC charge. - 840 N, in the direction from the - 5.00 uC charge toward the + 5.00 µc charge. - 840 N, in the direction from the + 5.00 µC charge toward the - 5.00 µC charge.

Three charges are placed at the corners of an isosceles triangle as shown in the figure below. The 5.00 µC charges form a dipole. +5.00 µC 2.00 cm 3.00 cm i -10.00 µC (2.00 cm -5.00 μC Find the force (magnitude and direction) the- 10.00 µC charge exerts on the dipole. * - 1680 N, in the direction from the + 5.00 µC charge toward the - 5.00 µC charge. - 1680 N, in the direction from the - 5.00 µC charge toward the + 5.00 µC charge. - 840 N, in the direction from the - 5.00 uC charge toward the + 5.00 µc charge. - 840 N, in the direction from the + 5.00 µC charge toward the - 5.00 µC charge.

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter15: Electric Forces And Fields

Section15.3: Electric Fields

Problem 15.3QQ: A test charge of + 3 C is at a point P where the electric field due to other charges is directed to...

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