2. Calculate all the voltages and currents in the circuit shown below 11 4Ω 8Ω 13...
1. Use PSpice to find the node voltages for the following circuit. 2% 12 4Ω ΙΩ 4Ω 10 V I A 2. Use PSpice to find the mesh currents for the following circuit. 8Ω 3 A 12 V 40(із 2u
and R3 8Ω. The currents R1 4Ω drops across that initially there is no current in the inductor, and the switch is open. RL circuit in the figure, R1-4Ω (leftmost one in the figure), R2-40 (middle in the figure), .The currents in R1, R2, and R3 are denoted as 11, 12, and 13, respectively. The voltage ss R1, R2, R3 and the inductance L are denoted as V1, V2, V3, and VL, respectively. Suppose Q7) For the Close the switch,...
4.48 Determine the currents indicated in the circuit shown below 8Ω + I3 1.2Ω 12 12Ω - Ι4 0.5Ω 18Ω M Ο 11 30V 6Ω 2Ω 12Ω
2. Solve the circuit below for ia 10Ω 4Ω 8ia a +I +10 V 12Ω 8Ω
4. Find currents 11 and 12 and voltages Vi and V2 for the circuit shown below. R 11 R 12 W | 21 50 V 000 000 L L 11 L2 R 42 1. R3372 av C+1 R350
4. Find currents 11 and 12 and voltages Vi and V2 for the circuit shown below. R 11 R 12 W | 21 50 V 000 000 L L 11 L2 R 42 1. R3372 av C+1 R350
8Ω 4Ω For the circuit shown obtain the Thevenin's equivalent circuit between points "a" and "b" looking into the left and then (i) Find the load resistance Ri for maximum power transfer (i) Find the maximum power Transfer to the load resistance R
Solve the circuit and find the currents 11, /2 and I3 3Ω 2Ω 20 VI 4Ω Is 40 V ΙΩ 6Ω
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....
Find the Rab for the circuit shown below: 20 Ω 8Ω 5 Ω Rab 18 Ω 20 Ω S 12 NNN 99 2 Ω Calculate the mesh currents if and i2 shown in the circuit below: 2 Ω 9Ω Q 8V (1) 12V 4 Ω 3 Ω