5.000 cm 60.00 cm +o 40.00 cm (a) Figure 1- (a)Two thin, flat metal plates are positioned vertically, 40.00 cm apart. The left plate has a charge density of o = +820.0 mC/m² and the right plate has an equal but opposite charge density, -o = -820.0 mC/m². There are also two thin, flat metal plates positioned horizontally, 60.00 cm apart, with the top plate given a negative charge, and the bottom plate given an equal but opposite positive charge, such that the potential difference between the plates is 10.00 V. A small sphere with mass m = 57.78 g, and charge q = +34.00 mC is attached to a thin, rigid, massless, insulating rod with length L = 16.00 cm, which is pivoted at point 0, which is 5.000 cm from the left plate. The sphere/rod unit is rotated to an angle of 10.00° with the horizontal and released from rest. a) Will the sphere/rod ever reach an angle of 0 with the horizontal, If it does how long will it take to reach that point, and how fast will the sphere be moving at that point?

5.000 cm 60.00 cm +o 40.00 cm (a) Figure 1- (a)Two thin, flat metal plates are positioned vertically, 40.00 cm apart. The left plate has a charge density of o = +820.0 mC/m² and the right plate has an equal but opposite charge density, -o = -820.0 mC/m². There are also two thin, flat metal plates positioned horizontally, 60.00 cm apart, with the top plate given a negative charge, and the bottom plate given an equal but opposite positive charge, such that the potential difference between the plates is 10.00 V. A small sphere with mass m = 57.78 g, and charge q = +34.00 mC is attached to a thin, rigid, massless, insulating rod with length L = 16.00 cm, which is pivoted at point 0, which is 5.000 cm from the left plate. The sphere/rod unit is rotated to an angle of 10.00° with the horizontal and released from rest. a) Will the sphere/rod ever reach an angle of 0 with the horizontal, If it does how long will it take to reach that point, and how fast will the sphere be moving at that point?

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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Question

5.000 cm
m
60.00 ст
+o
40.00 cm
(а)
Figure 1- (a)Two thin, flat metal plates are positioned vertically, 40.00 cm apart. The left plate
has a charge density of o = +820.0 mC/m² and the right plate has an equal but opposite charge
density, -o = -820.0 mC/m². There are also two thin, flat metal plates positioned horizontally,
60.00 cm apart, with the top plate given a negative charge, and the bottom plate given an equal
but opposite positive charge, such that the potential difference between the plates is 10.00 V.
A small sphere with mass m = 57.78 g, and charge q = +34.00 mC is attached to a thin, rigid,
massless, insulating rod with length L = 16.00 cm, which is pivoted at point 0, which is 5.000 cm
from the left plate. The sphere/rod unit is rotated to an angle of 10.00° with the horizontal and
released from rest.
a) Will the sphere/rod ever reach an angle of 0 with the horizontal, If it does how long will it take to reach
that point, and how fast will the sphere be moving at that point?

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