The network showed in the figure is assembled with uncharged capacitors X, Y, and Z with CX= 7 microF, CY= 7 microF, and CZ= 6 micro F, and open switches, S1 and S2. A potential difference Vab =+120V is applied between points a and b. After the network is assembled, switch S1 is closed for a long time, but switch S2 is is kept open. Then switch S1 is opened and switch S2 is closed. What is the final Voltage across capacitor X?
The network showed in the figure is assembled with unchargedcapacitors X, Y, and Z with...
The network shown is assembled with uncharged capacitors X, Y, and Z, with C_x = 4.00 mF C_Y = 3.00 mF and C_Z = 5.00 mF. The switches S_1 and S_2 are initially open and a potential difference V_ab = 120V is applied between points a and b. In this problem we will assume that there is a resistance, R_s, = 0.800k Ohm, in the switch S_1. (I) The switch S_1 is closed, for a total of 9.40s, and then...
The capacitive network shown is assembled with initially uncharged capacitors. A potential difference, Vab = +100 V, is applied across the network. The switch S in the network is kept open throughout. The potential difference Vcd, across the open switch S, in SI units, is? Answer is +40
The capacitive network shown in the figure is assembled with initially uncharged capacitors. A potential difference, V_ab = +100V, is applied across the network. The switch S in the network is kept open. Assume that all the capacitances shown are accurate to two significant figures. What is potential difference V_cd across the open switch S?
In the diagram below, the four capacitors have the same capacitance; the battery provides 120V. Consider two cases, starting in both cases with uncharged capacitors. Case 1(a) While switch B is kept open, switch A is closed and then opened after C1,C2 and C3 are fully charged. What is now the electric potential difference across each capacitor? (b) Subsequently switch B is closed. What is now the electric potential difference across each capacitor? Case 2(c) Switch A is open. Switch...
The capacitors shown in the figure below are initially uncharged with the switch S1 open and switch S2 closed. After S1 andS2 have been closed for a long time, determine the voltage across the 28.0 μF capacitor.
A circuit is wired up as shown below. The capacitor is initially uncharged and switches S1 and S2 are initially open.1) What is the voltage across the capacitor immediately after switch S1 is closed?Vc = 0Vc = VVc = 2V/32) What is the voltage across the capacitor after switch S1 has been closed for a very long time?Vc = 0Vc = VVc = 2V/33) After being closed a long time, switch 1 is opened and switch 2 is closed. What...
In Figure 4, all of the capacitors have identical capacitance C, and the battery provides 60V. C1 60V C2 C4 C3 Figure 4 Consider the following scenarios, in each case starting with uncharged capacitors. Explain your answers. Case I (a) While switch B is kept open, switch A is closed and then opened after C1, C2 and Cs are fully charged. What is the potential difference across each capacitor? (b) Subsequently switch B is closed. What is now the electric...
3. (10 Points) A battery (E-30.0 V) is used in a circuit with two capacitors (C-2.00 mF), and two switches. Initially, the switches are open. Switch S1 is closed for 3.00 s then opened. Switch S2 is then closed at t-0.00 s. What is the current flowing in the resistor on the right at two resistors (R-2.50 k2), capacitors are uncharged and t-2.00s? St 2
E YA 3. In the diagram above, V = 100 volts: C1 = 12 microfarads: C2 = 24 microfarads; R = 10 ohms. Initially, Cland Czare uncharged, and all switches are open. a. First, switch Si is closed. Determine the charge on Ciwhen equilibrium is reached. b. Next S1 is opened and afterward S2 is closed. Determine the charge on C1 when equilibrium is again reached c. For the equilibrium condition of part b., determine the voltage across C1. d....
1. Consider this circuit with resistors and capacitors. The R2 battery V1 has a voltage of 9 V, the resistors R1 and R2 have values of 100 Ω and 50 Ω, and the capacitor C1 has a value of 100 nF. Initially, the switches S1 and S2 are open. S2 (10 points) Once we close S1, what will the voltage across Rl and Cl be? How much current initially flows around the closed loop? (10 points) The current in part...