Suppose the parallel plates in Fig. 9 each have an area of 3.00 x101 m? and are 1.00 x102 m apart. We connect the capacitor to a power supply, charge it to a potential difference Vo = 4.00 kV, and disconnect the power supply. We then insert a sheet of insulating plastic material between the plates, completely filling the space between them. We find that the potential difference decreases to 2.00 kV while the charge on each capacitor plate remains constant. Find tá) the original capacitance Co Abs the magnitude of charge Q on each plate fo) the capacitance C after the dielectric is inserted Aas the dielectric constant Kof the dielectric (e) the permittivity e of the dielectric H the magnitude of the induced charge Q on each face of the dielectric tg) the original electric field E, between the plates (h) the electric field E after the dielectric is inserted. %3D

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INSTRUCTION: Provide all pertinent parts of the solution (GUFSA) and make sure to express your final answer with the correct number of significant figures. Note: Given quantities are to be represented using diagram. Suppose the parallel plates in Fig. 9 each have an area of 3.00 x101 m2 and are 1.00 x102 m apart. We connect the capacitor to a power supply, charge it to a potential difference Vo = 4.00 kV, and disconnect the power supply. We then insert a sheet of insulating plastic material between the plates, completely filling the space between them. We find that the potential difference decreases to 2.00 kV while the charge on each capacitor plate remains constant. Find ta) the original capacitance Co Ab) the magnitude of charge Qon each plate fC) the capacitance C after the dielectric is inserted d) the dielectric constant Kof the dielectric (e) the permittivity e of the dielectric t) the magnitude of the induced charge Q on each face of the dielectric tg the original electric field E, between the plates (h) the electric field E after the dielectric is inserted. %3D