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1) Two thin, flat metal plates are positioned vertically, 40.00 cm apart, as shown in Fig.-la. The left 1) a. plate has a positive charge with charge density o = +820.0 mC/m² and the right plate has an equal but opposite negative charge with 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 electric potential of the bottom plate is 10.00 V higher than the top plate. (Note: Ignore any edge effects due to the finite size of the plates.) b. с. d. е. A small sphere with a mass of m = 57.78 g, and a charge of q = +34.00 mC is attached to a thin, rigid, massless, insulating rod with a length of L = 16.00 cm, which is pivoted at point O, 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. 5.000 cm 5.000 cm 60.00 cm 60.00 cm 9.500 cm +o +o 40.00 cm 40.00 cm ++++ + ++ ( a ) (b) 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 O, 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. (b) A negative charge of Q = -132.0 mC is now fixed at a point which is at the same height as point 0, and 9.500 cm to the left of the right plate. (Not to scale.) a) Will the sphere/rod ever reach an angle of 0° with the horizontal? b) If so, how long will it take to reach that point? c) If the rod/sphere ever reaches an angle of 0°, how fast will the sphere be moving when it gets there? d) A negative charge of Q = -132.0 mC is now fixed at a point which is at the same height as point 0, and 9.500 cm to the left of the right plate, as shown in Fig.-1b. The sphere/rod unit is again rotated to an angle of 10.00° with the horizontal and released from rest, will it now ever reach an angle of 0° with the horizontal? e) If so, how fast will the sphere be traveling when it gets there?