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Four point charges, two positive charges on the x-axis and two negative charges on the y-axis, are located at a distance a = 6.5 cm from the origin on either side of it. The charge of each of them is q = 6 μC or -6 μC Another positive point charge, with charge Q = 109 μC, is located at point P on the positive x-axis a distance b = 0.65 m to the right of the rightmost positive charge. Refer to the figure. Part (a)  Enter an expression for the x-component of the force on the point charge, in terms of defined quantities and the Coulomb constant k, at P due to the negative charges.  Part (b)  Enter an expression for the x-component of the force on the point charge at P due to the nearest positive charge, in terms of defined quantities and the Coulomb constant k.  Part (c)  Enter an expression for the x-component of the force on the point charge at P due to the farthest positive charge, in terms of defined quantities and the Coulomb constant k.  Part (d)  Calculate the x-component of the net force, in newtons, acting on the point charge at P.

Four point charges, two positive charges on the x-axis and two negative charges on the y-axis, are located at a distance a = 6.5 cm from the origin on either side of it. The charge of each of them is q = 6 μC or -6 μC Another positive point charge, with charge Q = 109 μC, is located at point P on the positive x-axis a distance b = 0.65 m to the right of the rightmost positive charge. Refer to the figure. Part (a)  Enter an expression for the x-component of the force on the point charge, in terms of defined quantities and the Coulomb constant k, at P due to the negative charges.  Part (b)  Enter an expression for the x-component of the force on the point charge at P due to the nearest positive charge, in terms of defined quantities and the Coulomb constant k.  Part (c)  Enter an expression for the x-component of the force on the point charge at P due to the farthest positive charge, in terms of defined quantities and the Coulomb constant k.  Part (d)  Calculate the x-component of the net force, in newtons, acting on the point charge at P.

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Four point charges, two positive charges on the x-axis and two negative charges on the y-axis, are located at a distance a = 6.5 cm from the origin on either side of it. The charge of each of them is q = 6 μC or -6 μC Another positive point charge, with charge Q = 109 μC, is located at point P on the positive x-axis a distance b = 0.65 m to the right of the rightmost positive charge. Refer to the figure.

Part (a)  Enter an expression for the x-component of the force on the point charge, in terms of defined quantities and the Coulomb constant k, at P due to the negative charges. 

Part (b)  Enter an expression for the x-component of the force on the point charge at P due to the nearest positive charge, in terms of defined quantities and the Coulomb constant k

Part (c)  Enter an expression for the x-component of the force on the point charge at P due to the farthest positive charge, in terms of defined quantities and the Coulomb constant k

Part (d)  Calculate the x-component of the net force, in newtons, acting on the point charge at P. 

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