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Question A 2 iF capacitor is charged to a poten- tial difference of 12 V. The...
A 110 pF capacitor is charged to a potential difference of 64 V, and the charging...
A 110 pF capacitor is charged to a potential difference of 64 V, and the charging battery is disconnected. The capacitor is then connected in parallel with a second (initially uncharged) capacitor. If the measured potential difference across the first capacitor drops to 31 V, what is the capacitance of this second capacitor?
A 270 pF capacitor is charged to a potential difference of 120 V, and the charging...
A 270 pF capacitor is charged to a potential difference of 120 V, and the charging battery is disconnected. The capacitor is then connected in parallel with a second (initially uncharged) capacitor. If the measured potential difference drops to 110 V, what is the capacitance of this second capacitor? (pF)
A 11.8 uF capacitor is fully charged across a 12.0 V battery. The capacitor is then...
A 11.8 uF capacitor is fully charged across a 12.0 V battery. The capacitor is then disconnected from the battery and connected across an initially uncharged capacitor, C. The resulting voltage across each capacitor is 2.66 V. What is the capacitance C?
D A 35 mF capacitor is charged by a 12.4 V hattery and then is disconnected...
D A 35 mF capacitor is charged by a 12.4 V hattery and then is disconnected from the battery. When the voltage this capacitor (Ci) is then connected to a second (initially uncharged) capacitor, (C on the first drops to 5.9 V. What is the value of Ct (24 Points
A 25.0 μF capacitor is charged to a potential difference of 850 V . The terminals...
A 25.0 μF capacitor is charged to a potential difference of 850 V . The terminals of the charged capacitor are then connected to those of an uncharged 11.0 μF capacitor. A) Compute the original charge of the system. B) Compute the final potential difference across capacitor. C) Compute the final energy of the system. D) Compute the decrease in energy when the capacitors are connected.
Please show all work. 4) A first capacitor having capacitance, C, is initially connected to battery...
Please show all work.
4) A first capacitor having capacitance, C, is initially connected to battery having terminal voltage V as shown in the figure below. After static equilibrium is established, the charged capacitor is removed from the battery and connected to a second initially uncharged capacitor having capacitance C2. Determine an expression {C1, C2, V] for the final potential across the first capacitor long after the switch is closed. CI C2 C1
46. (III) A 7.7-uF capacitor is charged by a 165-V battery (Fig. 17-43a) and then is...
46. (III) A 7.7-uF capacitor is charged by a 165-V battery (Fig. 17-43a) and then is disconnected from the battery When this capacitor (Cı) is then connected (Fig. 17-43b) to a second (initially uncharged) capacitor, C2, the final voltage on each capacitor is 15 V.C What is the value of C2? Hint: Charge is conserved.I ㄐㄧ ㄐㄧ
A 25.0 μF capacitor is charged to a potential difference of 900 V . The terminals...
A 25.0 μF capacitor is charged to a potential difference of 900 V . The terminals of the charged capacitor are then connected to those of an uncharged 8.00 μF capacitor. *Please write down all steps in your calculations, including a diagram. Please be sure to explain what happens to both the charge and the voltage when the capacitors are connected. A) Compute the original charge of the system. B) Compute the final potential difference across capacitor C) Compute the...
Submit answer Your response... part 1 of 2 An isolated charged conducting sphere of radius 11.4...
Submit answer Your response... part 1 of 2 An isolated charged conducting sphere of radius 11.4 cm creates an electric field of 7432 N/C at a distance 32 cm from its center. What is its surface charge density? The value of the permittivity of a vacuum is 8.8542 x 10-12 C2/ Nm?. Answer in units of C/m². part 2 of 2 Submit answer Your response... What is its capacitance? Answer in units of pF. Submit answer Your response... When the...
A capacitor of capacitance C1 = 5µF is charged to a potential difference of 100 V....
A capacitor of capacitance C1 = 5µF is charged to a potential difference of 100 V. The terminals of the charged capacitorare then disconnected from the voltage source and connected to the terminals of an uncharged 2 µF capacitor (C2). (a) Compute the original charge on capacitor C1. (b) Compute the final potential difference across the two-capacitor system. (c) Compute the final energy of the system. (d) Compute the decrease in energy when the capacitors are connected.
D A 35 mF capacitor is charged by a 12.4 V hattery and then is disconnected from the battery. When the voltage this capacitor (Ci) is then connected to a second (initially uncharged) capacitor, (C on the first drops to 5.9 V. What is the value of Ct (24 Points
Please show all work.
4) A first capacitor having capacitance, C, is initially connected to battery having terminal voltage V as shown in the figure below. After static equilibrium is established, the charged capacitor is removed from the battery and connected to a second initially uncharged capacitor having capacitance C2. Determine an expression {C1, C2, V] for the final potential across the first capacitor long after the switch is closed. CI C2 C1
46. (III) A 7.7-uF capacitor is charged by a 165-V battery (Fig. 17-43a) and then is disconnected from the battery When this capacitor (Cı) is then connected (Fig. 17-43b) to a second (initially uncharged) capacitor, C2, the final voltage on each capacitor is 15 V.C What is the value of C2? Hint: Charge is conserved.I ㄐㄧ ㄐㄧ
Submit answer Your response... part 1 of 2 An isolated charged conducting sphere of radius 11.4 cm creates an electric field of 7432 N/C at a distance 32 cm from its center. What is its surface charge density? The value of the permittivity of a vacuum is 8.8542 x 10-12 C2/ Nm?. Answer in units of C/m². part 2 of 2 Submit answer Your response... What is its capacitance? Answer in units of pF. Submit answer Your response... When the...
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