A= 19V B= 79 V 2.Ok2 4.7k02 av 3.5KVA OBV Find VR using superposition theorem,
3. Using superposition theorem, calculate the voltage v. 13A 10Ω 14Ω 240V 20Ω 14Ω 4. Find the voltage v, using superposition theorem. 3A 10Ω 18Ω 240V 20Ω 48V 14Ω 12Ω 3. Using superposition theorem, calculate the voltage v. 13A 1012140 + 240V + + {200 31402 3140 > 1 4. Find the voltage v, using superposition theorem. 10121802 + 3200 240V C 48V 1491 120
2. Find i, in the circuit of figure 2 using superposition theorem and Verify the same using Multisim Simulation. (20 Marks) 25 F 100 cos 2000 V 3702 3 2002 50mH 4 sin 4000+ A Figure 2
Superposition Theorem Example Use superposition to find v, in the circuit below. 10 V 2A 4 2 2A is discarded by open-circuit 10V is discarded by short-circuit Dependant source keep unchanged 20Ω V1 20Ω V1 0.1v 2 A 4Ω 0.1v 0 V 10 Refer to in-class illustration, answer Vx 12.5V
HELP!!!!! Find the current through R1 using the superposition theorem if: V1= [10cos(1000t)]V AND V2=[15cos(2000t)]V L1 L2 2 μΗ 1 μΗ 1 kO
2. Use the superposition theorem to find V, and determine the power dissipated by the each Independent source in the circult shown below. 322 W 512 W 292 2A 5 V
Using superposition theorem, find the current in 2 ohm resistor in the circuit in Figure 1. Points)
Use Thevenin's theorem to find Voin the given circult where V 12 V. 2 A WW D 32 129 19v The value of voin the given circuit is
2, using the superposition theorem, calculate the current through the resistance R = 8 Ω for the circuit below. SA RŠ4Ω E 24 V
1. Find 10 in the network from following figure using superposition theorem only. 12 kn 120 6 mA 12 V 6 kn 6kn
Using superposition theorem, calculate the voltage v. 13A 100 1402 + 240V 3 2002 31402 > 1