C3 8 pF C4 6 pF Ci C2 6 pF 12 pF 12 V
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- Please AsapAn electrical technician requires a capacitance of 2 µF in a circuit across a potential difference of 1 kV. A large number of 1 µF capacitors are available to him each of which can withstand a potential difference of not more than 400 V. Suggest a possible arrangement that requires the minimum number of capacitors.For the above circuit,(a) What is the equivalent capacitance?(b) What is the charge on each capacitor?
- HINT: You will probably want to start this problem by calculating the effective capacitance of the circuit. Make sure to appropriately account for what is in parallel and what is in series as you do; the most straightforward way to do this traditionally is to set up smaller effective capacitors one segment at a time until you have reduced the entire capacitor network to a single effective capacitor, then calculate the time constant.Given that q=CV What happens to the capacitance C if the voltage drop V across the capacitor is doubled? Justify your answer.Figure R ww 10.0 pF 20.0 pF 40.0 pF < 1 of 1 30.0 pF Part G After the switch is closed, find the maximum potential difference across the 30.0 pF capacitor. Express your answer in volts. IVE ΑΣΦ V30 = Submit Part H V40 = Submit After the switch is closed, find the maximum potential difference across the 40.0 pF capacitor. Express your answer in volts. ||| ΑΣΦ Part I IA = Submit Part J Request Answer T = Request Answer After the switch is closed, find the maximum reading of the ammeter A. Express your answer in amperes. IVE| ΑΣΦ Submit Request Answer ? After the switch is closed, find the time constant for the circuit. Express your answer in picoseconds. G| ΑΣΦ Request Answer ? ? ? V V A ps
- In the circuit below C1 = C3 = C4 = 2 μF; C2 = C5 = C6 = 4 μF and Vab = 100 V (i)What is the equivalent capacitance of the network (ii)What is the charge stored in capacitor C6 ? What is the voltage across it? (iii) If the capacitors C6 and C3 blow-out then what will be the charges in the remaining 4 capacitors.Suppose you are given several capacitors whose capacitances are within the range 12 to 50 nF.You connect all the capacitors in series and let your three partners measure the equivalent capacitance. Three different measurements have been obtained: 8, 44 and 102 nF. Which ofthese three you would assume to be correct?Find the net capacitance of this combination of series and parallel capacitors shown below. Use the following 11 µF, B = 6 µF, C = 2.0 µF, D = 2.0 µF, E = 0.50 µF, and F = 5 µF. values: A = A µF : B µF C µF : D µF E µF F µF
- A circuit contains a single 220-pF capacitor hooked across a battery. It is desired to store four times as much energy in a combination of two capacitors by adding a single capacitor to this one. What would its value be?Considering the circuit shown, if the emf of the battery is 6 V, the charge on the 4-pF capacitor is: 4 HF 2 F 3HF Select one: 8 µC 4 pC 12 μC 24 HC