In the figure particles 2 and 4, of charge -e, are fixed in place on a y axis, at y2 = -8.62 cm and y4 = 4.31 cm. Particles 1 and 3, of charge -e, can be moved along the x axis. Particle 5, of charge +e, is fixed at the origin. Initially particle 1 is at x1 = -8.62 cm and particle 3 is at x3 = 8.62 cm. (a) To what x value must particle 1 be moved to rotate the direction of the net electric force net on particle 5 by 30 ° counterclockwise? (b) With particle 1 fixed at its new position, to what x value must you move particle 3 to rotate back to its original direction?

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Chapter1: Units, Trigonometry. And Vectors
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In the figure particles 2 and 4, of charge -e, are fixed in place on a y axis, at y2 = -8.62 cm and y4 = 4.31 cm. Particles 1 and 3, of
charge -e, can be moved along the x axis. Particle 5, of charge +e, is fixed at the origin. Initially particle 1 is at x1 = -8.62 cm and
particle 3 is at x3
= 8.62 cm. (a) To what x value must particle 1 be moved to rotate the direction of the net electric force
net on
particle 5 by 30 ° counterclockwise? (b) With particle 1 fixed at its new position, to what x value must you move particle 3 to rotate
back to its original direction?
Transcribed Image Text:In the figure particles 2 and 4, of charge -e, are fixed in place on a y axis, at y2 = -8.62 cm and y4 = 4.31 cm. Particles 1 and 3, of charge -e, can be moved along the x axis. Particle 5, of charge +e, is fixed at the origin. Initially particle 1 is at x1 = -8.62 cm and particle 3 is at x3 = 8.62 cm. (a) To what x value must particle 1 be moved to rotate the direction of the net electric force net on particle 5 by 30 ° counterclockwise? (b) With particle 1 fixed at its new position, to what x value must you move particle 3 to rotate back to its original direction?
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