A capacitor that is disconnected from a circuit may still be dangerous. Explain.
A capacitor that is disconnected from a circuit may still be dangerous. Explain.
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A capacitor that is disconnected from a circuit may still be
dangerous. Explain.
A 6.50-nF capacitor is charged to 23.0 V then disconnected from the battery in the circuit...
A 6.50-nF capacitor is charged to 23.0 V then disconnected from the battery in the circuit and connected in series with a coil that has L = 0.0650 H and negligible resistance. After the circuit has been completed, there are current oscillations. part A) At an instant when the charge on the capacitor is 0.0500 μC, what is the current in the inductor? answer 6.85mA part B) How much energy is stored in the capacitor? part C) How much energy...
Many electronics can be dangerous even after they are shut off. Consider an a RC circuit...
Many electronics can be dangerous even after they are shut
off. Consider an a RC circuit of 160.uF and a 1.10M ohms resistor
connected to a 240 -V power source for a long time and then
disconnected and shorted as shown in the figure how long will it be
until the potential difference across the capacitors drops below 70
V
lUhics devices can be dangerous even after they are shut off. con an RC circuit with a 160.-uF capacitor and...
A 7.50-nF capacitor is charged up to 12.0 V. then disconnected from the power supply and...
A 7.50-nF capacitor is charged up to 12.0 V. then disconnected from the power supply and connected in series through a coil. The period of oscillation of the circuit is then measured to be 8.60 X 10^-5 s. Calculate: (a) the inductance of the coil: (b) the maximum charge on the capacitor: (c) the total energy of the circuit; (d) the maximum current in the circuit.
Many electronics devices can be dangerous even after they are shut off. Consider an RC circuit...
Many electronics devices can be dangerous even after they are shut off. Consider an RC circuit with a 160-μF-capacitor and a 1.30-MΩ resistor connected to a 210-V power source for a long time and then disconnected and shorted, as shown in the figure. How long will it be until the potential difference across the capacitor drops to below 52.0 V?
A 7.00-nF capacitor is charged up to 10.0 V , then disconnected from the power supply...
A 7.00-nF capacitor is charged up to 10.0 V , then disconnected from the power supply and connected in series through a coil. The period of oscillation of the circuit is then measured to be 8.00×10−5 s . Part A Calculate the inductance of the coil. Part B Calculate the maximum charge on the capacitor. Part C Calculate the total energy of the circuit. Part D Calculate the maximum current in the circuit.
A 17.0-μF capacitor is charged by a 130.0-V power supply, then disconnected from the power and...
A 17.0-μF capacitor is charged by a 130.0-V power supply, then disconnected from the power and connected in series with a 0.260-mH inductor. Calculate the oscillation frequency of the circuit. Calculate the energy stored in the capacitor at time t=0 ms (the moment of connection with the inductor). Calculate the energy stored in the inductor at t = 1.30 ms.
A 7.90-nF capacitor is charged up to 14.0 V,then disconnected from the power supply and connected...
A 7.90-nF capacitor is charged up to 14.0 V,then disconnected from the power supply and connected in series through a coil. The period of oscillation of the circuit is the measured to be 8.80*10-58 Part A Calculate the inductance of the coil. ANSWER: L= H Part B Calculate the maximum charge on the capacitor ANSWER Q с Part 6 Calculate the total energy of the circuit. ANSWER: J Part D Calculate the maximum current in the circuit ANSWER: 1 =
30.32 . A 20.0-pF capacitor is charged by a 150.0-V power sup- ply, then disconnected from...
30.32 . A 20.0-pF capacitor is charged by a 150.0-V power sup- ply, then disconnected from the power and connected in series with a 0.280-mH inductor. Calculate: (a) the oscillation frequency of the circuit; (b) the energy stored in the capacitor at time t = 0 ms (the moment of connection with the inductor); (c) the energy stored in the inductor at t = 1.30 ms.
A 0.6 pF capacitor is charged to 27 V. After charging, the capacitor is disconnected from...
A 0.6 pF capacitor is charged to 27 V. After charging, the capacitor is disconnected from the voltage source and is connected to another uncharged capacitor. The final voltage is 9 V. (a) What is the capacitance of the other capacitor? x PF Enter a number. (b) How much energy was lost when the connection was made? e non se conserva una
The charged capacitor from problem 1 is now disconnected from the battery. The isolated capacitor has...
The charged capacitor from problem 1 is now disconnected from the battery. The isolated capacitor has capacitance C = 10 mu F, a potential difference V = 9 V, and stores charge Q on each plate. a. Find Q b. The spacing between the capacitor's plates is now decreased by a factor of 3. Find the values of Q, C, and V after the spacing is decreased.
Many electronics can be dangerous even after they are shut
off. Consider an a RC circuit of 160.uF and a 1.10M ohms resistor
connected to a 240 -V power source for a long time and then
disconnected and shorted as shown in the figure how long will it be
until the potential difference across the capacitors drops below 70
V
lUhics devices can be dangerous even after they are shut off. con an RC circuit with a 160.-uF capacitor and...
A 7.50-nF capacitor is charged up to 12.0 V. then disconnected from the power supply and connected in series through a coil. The period of oscillation of the circuit is then measured to be 8.60 X 10^-5 s. Calculate: (a) the inductance of the coil: (b) the maximum charge on the capacitor: (c) the total energy of the circuit; (d) the maximum current in the circuit.
A 7.90-nF capacitor is charged up to 14.0 V,then disconnected from the power supply and connected in series through a coil. The period of oscillation of the circuit is the measured to be 8.80*10-58 Part A Calculate the inductance of the coil. ANSWER: L= H Part B Calculate the maximum charge on the capacitor ANSWER Q с Part 6 Calculate the total energy of the circuit. ANSWER: J Part D Calculate the maximum current in the circuit ANSWER: 1 =
30.32 . A 20.0-pF capacitor is charged by a 150.0-V power sup- ply, then disconnected from the power and connected in series with a 0.280-mH inductor. Calculate: (a) the oscillation frequency of the circuit; (b) the energy stored in the capacitor at time t = 0 ms (the moment of connection with the inductor); (c) the energy stored in the inductor at t = 1.30 ms.
A 0.6 pF capacitor is charged to 27 V. After charging, the capacitor is disconnected from the voltage source and is connected to another uncharged capacitor. The final voltage is 9 V. (a) What is the capacitance of the other capacitor? x PF Enter a number. (b) How much energy was lost when the connection was made? e non se conserva una
The charged capacitor from problem 1 is now disconnected from the battery. The isolated capacitor has capacitance C = 10 mu F, a potential difference V = 9 V, and stores charge Q on each plate. a. Find Q b. The spacing between the capacitor's plates is now decreased by a factor of 3. Find the values of Q, C, and V after the spacing is decreased.
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