11.5 Determine the average power dissipated in the 4Ω resistor of the circuit in Fig. P11.5 2Ω j6Ω /4Ω 4Ω f-60 Hz Figure P11.5: Circuit for Problem 11.5
11.5 Determine the average power dissipated in the 4Ω resistor of the circuit in Fig. P11.5
2Ω j6Ω /4Ω 4Ω f-60 Hz Figure P11.5: Circuit for Problem 11.5
Find Vo using mesh analysis.
R2 2Ω R5 R3 4Ω R1 6Ω 2 Tins
L4' : Find 11,12 and Vi in the following circuit. 4Ω 2Ω 3 A 6Ω 4 6Ω 40 1, 6Ω 2Ω 4Ω An ammeter model consists of an ideal ammeter in series with a 202 resisto m resistor R as shown below. The al 5
Use the node-voltage method to find vo in the following circuit. 4Ω 2 H 4cos(4t) A 62 F. A. vo (t) 7.67 cos(4t- 35.020) V Using the mesh-current analysis to obtain Io in the following circuit 2202A 2Ω j2Ω 12 FA. 1°-3.35<174.3° A
Determine Vx in the circuit of Figure 3. 4Ω 2/ 2Ω 6Ω ΙΩ +8 V 1Ω Figure 3
Find I, in the circuit of Fig. 2. 4Ω Ι, 22 2Ο | -2Ω j6Ω 60/30° V (4) ξ8 Ω 3 10 Ω Figure 2
Problem 10.14 please
2Ω Figure P10.15 Figure P10.13 10.14 Find I, in the circuit in Fig. P10.14. 12Ω 4Ω 4Ω 6/0V Io Figure P10.14
Find all the currents in the following circuit.
2Ω 2 V 3Ω 7Ω 4Ω 10 V 10Ω 6Ω 5Ω 6V 2Ω 5Ω 11Ω 3 V
Solve the circuit and find the currents 11, /2 and I3 3Ω 2Ω 20 VI 4Ω Is 40 V ΙΩ 6Ω
2. Find equivalent resistance between terminals A and B. 6Ω 2Ω 4Ω 9Ω 2Ω 4Ω 6Ω