Why do we need to put a capacitor in a circuit?
Q: The immediate cause of many deaths is ventricular fibrillation, an uncoordinated quivering of the…
A: The equation for the potential difference can be obtained as
Q: To store a total of 0.040 J of energy in the two identical capacitors connected in parallel and…
A: The problem is based upon the concept of energy stored in a capacitor. At first we have to calculate…
Q: Two capacitors, C1 = C and C2 = 2C, are connected to a battery. (a) Which capacitor stores more…
A: Given data The capacitance of the first capacitor is: C1 = C The capacitance of the second capacitor…
Q: A 20 uF capacitor is charged to 120 V and then disconnected from the power supply. If a second…
A: When two capacitors are connected in parallel the equivalent capacitance of the capacitor is the sum…
Q: What is the minimum capacitance you can achieve by connecting a 9.39 F and a 4.4 F capacitor?
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Q: A circuit has a 18.8 pF capacitor, a 39.6 pF capacitor and a 33.1 pf capacitor in series with each…
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Q: In the circuit shown in the figure, C¡ = 4.0 pF, C2 = 7.0 pF, C3 = 3.0 pF, C4 = 6.0 pF, C5 = 1.0 pF,…
A: Given Information:- Capacitance of the capacitors are, C1=4.0 pF, C2=7.0 pF, C3=3.0pF, C4=6.0 pF,…
Q: The immediate cause of many deaths is ventricular fibrillation, the uncoordinated palpitation of the…
A: Energy (E) = 300 Joules Capacitance (C) = 30 mF = 0.030 F
Q: Consider the following figure. (a) Find the equivalent capacitance between points a and b for the…
A: (b) Given: The circuit given is as follows: The capacitance C1=2.0 μF, C2=15.0 μF and C3=3.0 μF.…
Q: What total capacitances of larger value (in µF) can you make by connecting a 5.65 µF and a 8.30 µF…
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Q: If you wish to store a large amount of energy in a capacitor bank, would you connect capacitors in…
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Q: In the circuit shown, each of the capacitors is fully charged and the current has ceased to flow.…
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Q: For the connection of capacitors shown in the figure, it is known that the energy stored by the…
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Q: You have a 300 nF capacitor and wish to combine it with one other to make a combined capacitance of…
A: Given:Given capacitance = 300 nFDesired capacitance = 2 uF
Q: Calculate the equivalent capacitance for each of the four capacitor circuits shown in the figure.
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Q: Given a 3.80 μF capacitor, a 2.90 μF capacitor, and a 1.90V battery, find the equivalent capacitance…
A: (a) The equivalent capacitance of the given two capacitors as follows.…
Q: three unequal capacitors, initially uncharged, are connected in series across a battery, which of…
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Why do we need to put a capacitor in a circuit?
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- (a) When capacitors are connected in series, all capacitors have the same charge the voltage across each capacitor is the same the total capacitance of the system increases (b) When capacitors are connected in parallel, all capacitors have the same charge the voltage across each capacitor is the same the total capacitance of the system decreasesMy house consumes about 30 kWh in 1 day. If we charge up a capacitor using the wall (120 Volts), what capacitance would it have to have, in order to have one day’s worth of energy for my house?Answer the question
- You have a circuit that has two capacitors that are in parallel to each otherin a circuit. The first capacitor is a parallel plate capacitor with a capacitance of 5.0pF and an area of 200 mm2. The second capacitor is also a plate capacitor with aseparation distance of 2 mm.(a) Draw a circuit showing just a battery and the two capacitors.(b) If the energy stored on the first capacitor is 10 µJ, what is the voltage drop acrossthat capacitor?(c) If the second capacitor can store twice as much energy as the first capacitor, whatis the area of the 2nd capacitor’s plates?(d) What is the distance between the plates for the first capacitor?Considere el siguientes circuito con 4 capacitores donde C1=C2%=2C, y C3=C4=14C (donde C es un valor arbitrario de capacitancia en faradios). Si reducimos la coneccion de esos 4 capacitores a un capacitor equivalente... ¿cual sera la capacitancia equivalente, en terminos de C, para este circuito? C3 C2 11.20 C 8.00 C 32.00 C 16.00 C 4.80 CA spherical capacitor with a 0.600 mm gap between the spheres has a capacitance of 150 pF Part A What is the diameter of the smaller sphere? ΠV ΑΣφ Dymal = Submit Request Answer gap rin Part B What is the diameter of the larger sphere? HV ΑΣφ rout Diere = Submit Request Answer
- #87: The flash unit in a camera uses a special circuit to “step up” the 3.0 V from the batteries to 300 V, which charges a capacitor. The capacitor is then discharged through a flashlamp. The discharge takes 10 ms, and the average power dissipated in the flashlamp is 105 W. What is the capacitance of the capacitor?An automobile enthusiast with a DIY streak needs to fix the timing circuit of their car's windshield wipers, but unfortunately the assortment of capacitors they have on hand does not quite have the right capacitance. To overcome this and have the right capacitance for the timing circuit, six capacitors are connected together to form the network diagrammed in the schematic below. 출국 Co The capacitances for the individual capacitors are C1-14.7 uF. C2-0.742 uf, C3-1.23 uF. C4-8.23 uF, C5-4.12 uf, and C6-5.61 µF "Given these six capacitances, what is the equivalent capacitance of their combination (in F)?Problem 10: While preparing a laboratory experiment on capacitors, you connect an E-4.5 V DC power supply to fully charge an old capacitor that is marked C- 330 HF Your lab assistant hooks up the circuit as shown below. When the switch S is at point a, the capacitor is connected to the power supply. When the switch S is at point b, the capacitor is disconnected from the power supply and connected to a voltmeter, V. The voltmeter has an internal resistance R-10.0 MS2 al Otheexpertta.com Part (a) The capacitor is initially uncharged, when the switch is moved to position a, hooking the capacitor C to the power supply. What will happen to the charge on the capacitor? It will quickly (but not instantaneously) increase to a maximum value Correct! Part (b) Calculate the charge on the capacitor (in Coulombs) when it is fully charged by the power supply Part (c) After the capacitor is fully charged, you switch the switch to position b at time t-0 seconds. The voltmeter initially reads 4.5 V.…
- The given pair of capacitors in the figure below is fully charged by a 14.0-v battery. The battery is disconnected and the circuit closed. 3.00 µF 2.00 µF 500 N (a) After 1.50 ms, how much charge remains on the 3.00-µF capacitor? (b) After 1.50 ms, how much charge remains on the 2.00-µF capacitor? (c) After 1.50 ms, what is the current in the resistor? Need Help? Read ItIf three unequal capacitors are connected in series, what can we say about the equivalent capacitance of these capacitors? It is greater than any of the individual capacitances. It is less than any of the individual capacitances. It is somewhere between the largest and smallest capacitances. We can't determine anything without knowing the values of the individual capacitances.Determine Ceq for the combination of capacitors shown.Ceq =