Two capacitors C1 = 6.8 µF, C2 = 18.2 µF are charged individually to V1 = 17.7 V, V2 = 6.1 V. The two capacitors are then connected together in parallel with the positive plates together and the negative plates together. Calculate the final potentíal difference across the plates of the capacitors once they are connected. 9.255 V You are correct. Your receipt no. is Calculate the amount of charge (absolute value) that flows from one capacitor to the other when the capacitors are connected together. 5.74x10-5 c You are correct. Your receipt no. is Previous Tries Previous Tries By how much (absolute value) is the total stored energy reduced when the two capacitors are connected? 2.47x10^-3 J Calculate the stored energy for the the two capacitors individually before they were connected and add them up, and compare that to the energy of the combined system. Submit Answer Incorrect. Tries 1/5 Previous Tries
Two capacitors C1 = 6.8 µF, C2 = 18.2 µF are charged individually to V1 = 17.7 V, V2 = 6.1 V. The two capacitors are then connected together in parallel with the positive plates together and the negative plates together. Calculate the final potentíal difference across the plates of the capacitors once they are connected. 9.255 V You are correct. Your receipt no. is Calculate the amount of charge (absolute value) that flows from one capacitor to the other when the capacitors are connected together. 5.74x10-5 c You are correct. Your receipt no. is Previous Tries Previous Tries By how much (absolute value) is the total stored energy reduced when the two capacitors are connected? 2.47x10^-3 J Calculate the stored energy for the the two capacitors individually before they were connected and add them up, and compare that to the energy of the combined system. Submit Answer Incorrect. Tries 1/5 Previous Tries
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