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Problem 2 (8 pt) : Find the expression of voltage drop on 2Ω resistor in figure 2. 1s10 A 4Ω 8Ω 10Ω 2Ω 3Ω 3010 v + 6Ω Figure 2 Problem 2 (8 pt) : Find the expression of voltage drop on 2Ω resistor in figure 2. 1s10 A 4Ω 8Ω 10Ω 2Ω 3Ω 3010 v + 6Ω Figure 2
Solve the circuit and find the currents 11, /2 and I3 3Ω 2Ω 20 VI 4Ω Is 40 V ΙΩ 6Ω
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
2. Find equivalent resistance between terminals A and B. 6Ω 2Ω 4Ω 9Ω 2Ω 4Ω 6Ω
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
Use mesh analysis to find current Io 4Ω 3Ω 60 V 2Ω 2Ω I. ΙΩ +22.5 412 5A
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
Nhat is the equivalent resistance Rab? 4Ω 2Ω b 8Ω 4Ω Ο 6Ω Ο 4 Ω Ο 5Ω Ο 3 Ω
2. Find Va, Ve, and lx. 4Ω 2Ω ΙΩ VA 822 6V VB 4V- 8V 2A
Apply Thévenin's theorem twice to find Vo in the circuit in the figure below. Chapter 8, Problem 8.126 Apply Thévenin's theorem twice to find Vo in the circuit in the figure below. 1Ω 2Ω ΙΩ 20Ω a Find the real part of V (b) Find the imaginary part of vo Chapter 8, Problem 8.126 Apply Thévenin's theorem twice to find Vo in the circuit in the figure below. 1Ω 2Ω ΙΩ 20Ω a Find the real part of V (b)...