A 32.1-µF capacitor stores 0.947 J of potential energy. What is the potential difference across the plates of this capacitor?
A 32.1-µF capacitor stores 0.947 J of potential energy. What is the potential difference across the...
A 2.1-µF capacitor is charged to a potential difference of 16.0 V and then connected across a 0.44-mH inductor. What is the current in the circuit when the potential difference across the capacitor is 8.0 V? (Give the magnitude.) ____________ A
A certain capacitor stores 520 J of energy when it holds 7.4 10-2 C of charge. (a) What is the capacitance of this capacitor? (b) What is the potential difference across the plates?
A 1.6 µF capacitor and a 4.9 µF capacitor are connected in parallel across a 450 V potential difference. Calculate the total energy in joules stored in the capacitors.
The electric potential energy stored in the capacitor of a defibrillator is 110 J, and the capacitance is 150 μF. What is the potential difference across the capacitor plates?
In the figure a potential difference of V = 120 V is applied across a capacitor arrangement with capacitances C1 = 12.3 µF, C2 = 7.39 µF, and C3 = 14.1 µF. What are (a) charge q3, (b) potential difference V3, and (c) stored energy U3 for capacitor 3, (d) q1, (e) V1, and (f) U1 for capacitor 1, and (g) q2, (h) V2, and (i) U2 for capacitor 2 C2 CL C3
In the figure a potential difference V = 80.0 V is applied across a capacitor arrangement with capacitances C1 = 14.7 µF, C2 = 3.82 µF, and C3 = 3.72 µF. What are (a) charge q3, (b) potential difference V3, and (c) stored energy U3 for capacitor 3, (d) q1, (e) V1, and (f) U1 for capacitor 1, and (g) q2, (h) V2, and (i) U2 for capacitor 2?
Two identical capacitors store different amounts of energy: capacitor A stores 2.1x10^-3 J, and capacitor B stores 2.8x10^-4 J. The voltage across the plates of capacitor B is 13 V. Find the voltage across the plates of capacitor A.
Two identical capacitors store different amounts of energy: capacitor A stores 3.5 10-3 J, and capacitor B stores 4.6 10-4 J. The voltage across the plates of capacitor B is 13 V. Find the voltage across the plates of capacitor A.
Two capacitors, C1 = 27.0 µF and C2 = 30.0 µF, are connected in series, and a 15.0-V battery is connected across the two capacitors. (a) Find the equivalent capacitance. µF (b) Find the energy stored in this equivalent capacitance. J (c) Find the energy stored in each individual capacitor. capacitor 1 J capacitor 2 J (d) Show that the sum of these two energies is the same as the energy found in part (b). (e) Will this equality always...
In the figure a potential difference V = 120 V is applied across a capacitor arrangement with capacitances C1 = 14.3 µF, C2 = 4.40 µF, and C3 = 4.43 µF. What are (a) charge q3, (b) potential difference V3, and (c) stored energy U3 for capacitor 3, (d) q1, (e) V1, and (f) U1 for capacitor 1, and (g) q2, (h) V2, and (i) U2 for capacitor 2? Chapter 25, Problem 034 In the figure a potential difference V...