i need help with problem 5 X resistances in the circuit can be neglected. The switch is closed at time t-0 X X 1 X E- W...
Problem 5 - variation of problem 30.64: Using the circuit shown in Figure 4, a) Find the reading in each ammeter and voltmeter just after switch S is closed b) Find the reading in each ammeter and voltmeter after S has been closed a very long time. c) At what time does the power in the inductor equal the power in the 75 Ω resistor? 100.0Ω 100.0Ω 15.0mH 50.0V 50.0Ω D 75.0Ω Problem 5 - variation of problem 30.64: Using...
a) Find the reading in each ammeter and voltmeter just after switch S is closed b) Find the reading in each ammeter and voltmeter after S has been closed a very long time. c) At what time does the power in the inductor equal the power in the 75 Ω resistor? 100.02 S 15.0mH 50.0V 50.0 75.00 a) Find the reading in each ammeter and voltmeter just after switch S is closed b) Find the reading in each ammeter and...
In the circuit shown in the figure (Figure 1), the switch has been open for a long time and is suddenly closed. Neither the battery nor the inductors have any appreciable resistance. Part A What do the ammeter read just after S is closed? Part B What do the voltmeter read just after S is closed? Part C What do the ammeter read after S has been closed a very long time? Part D What do the voltmeter read after S has been closed a very long time? Part...
*** Problem 3 When switch S in Figure 1 is open, the voltmeter V reads 3.08 V. When the switch is closed, the voltmeter reading drops to 2.97 V, and the ammeter reads 1.65 A. (Note: r is internal resistance of the battery.) fr Figure 1: Assume that the two meters are ideal so they don't affect the current in the circuit. a What is the EMF, V, produced by the battery? b) What is the liternal cesistance, r, of...
In the circuit in (Figure 1) the capacitors are all initially uncharged, the battery has no internal resistance, and the ammeter is idealized.For related problemsolving tips and strategies, you may want to view a Video Tutor Solution of Charging a capacitor.Part AFind the reading of the ammeter just after the switch S is closed.Part BFind the reading of the ammeter after the switch has been closed for a very long time.
In the circuit shown in (Figure 1) all meters are idealized and the batteries have no appreciable Internal resistance. For related problem solving tips and strategies, you may want to view a Video Tutor Solution of A complex network. Part B Find the reading of the voltmeter with the switch S open. PartC With the switch closed, find the reading of the voltmeter. Part D With the switch closed, find the reading of the ammeter. Part E Which way (up or down) does the curent fiow through the switch?
In this RC circuit, at t = 0 second, switch 1 is closed, switch 2 is left opened. a. Determine the current through the uncharged capacitor and the 2 resistors at t = 0 second. (1.33 A) b. Determine the current through the capacitor and the 2 resistors at t = 100 µs. (0.35 A) c. For this part, switch 1 is left opened and switch 2 is closed after the capacitor was charged for a very long time (assume...
In the circuit below, the switch was open for a long time and then closed at t=0 s. The values of the emf, resistors, and capacitors are ε = 11.5V, R1 = 2.4 Ω, R2 = 7.4 Ω, R3 = 0.3 Ω, CA = 7.1 μF, CB = 5.0 μF.(a) Immediately after the switch is closed, what is the current through resistor R1?A long time after the switch was closed, what are the charges stored on the two capacitors?(b) on...
Problem 6. The circuit shown below initially has no charge on the capacitors and the switch S is originally open.R1= 4Ω,R2= 6Ω,R3= 8Ω,R4= 8Ω,C1= 2μF, and C2= 6μF. a) Just after closing the switch S, find the currents I1,I2,I3, and I4. b) After the switch has been closed a very long time, find the currents I1,I2,I3, and I4. c) After the switch S has been closed for a very long time, find the potential at points A,B, C, and D....
Problem 1: /10 A) For the RL circuit of Figure 1, the switch is closed at t=0 (charging phase). Report the time constant of the circuit T1 , voltage V, and current i, at time t = t1/2 23 82H £292 3v 20 20 Fig. 1: EMILM B) At time t = t;/2 , the switch in the RL circuit of Figure 1 is opened (discharging phase); Report the time constant of the circuit ta , voltage V, and current...