d) Which of the 3 capacitors will have the same potential difference across it as the power source? e) how much charge will get stored in each of the capacitors? (they could be same or different) f) Calculate the Energy stored in the capacitor C₁ (Note: If you get 162 μJ, then ask your group why that is wrong and calculate it correctly) g) what will be the potential difference across each of the capacitors (could be same or different) ission from Dr. Dh:

solve d, e, f, and g

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Question 1. Consider an application where three capacitors will have to be connected to a power source as shown. Answer parts(a,b,c AND d) in Max 5 minutes (total) a) Identify *all* capacitors AND their combinations that are in series and all that are in parallel. b) Identify *all* capacitors AND their combinations that will necessarily have the same charge. Answer is NOT none. c) Identify *all* capacitors AND their combinations that will necessarily have the same potential difference across them. Answer is NOT none. + 9 V C₁=4 μF|C₂= 12 µF C3=2 μF After 5 minutes, discuss your findings for a,b,c, d with your TA BEFORE proceeding to the next part. Your TA will only tell you if *your* GROUP has it right or wrong. They are not to tell you what are the right answers. If they tell you that your group has it wrong, then re-discuss in your group again....recall what you learnt in lecture. d) Which of the 3 capacitors will have the same potential difference across it as the power source? e) how much charge will get stored in each of the capacitors? (they could be same or different) f) Calculate the Energy stored in the capacitor C₁ (Note: If you get 162 μJ, then ask your group why that is wrong and calculate it correctly) g) what will be the potential difference across each of the capacitors (could be same or different) from Dr. Dha