Superposition Theorem Example Use superposition to find v, in the circuit below. 10 V 2A 4...
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
Exercise 37 Use superposition to find vx in the circuit in Figure 202 Ķ W 10 V C 2A 403 0.1. Exercise 39 Find i in the circuit in Figure using the superposition principle. 612 Wi 822 16V
Use superposition on the circuit below; a) Find the voltage V'1 due to the 12V voltage source alone. b) Find the voltage V": due to the 5mA current source alone. c) Find the total voltage V1 due to both sources. 2002 1002 12 4002 VI 5 mA 3002 www
10. Use the superposition theorem to find the current I in the circuit below. [5] 60k2 I=
3) Using Nodal analysis technique find Vx in the circuit shown below 10 V 20 2 5Ω Vi V2 V3 9 A 10Ω 4) Using superposition theorem find lx for the circuit shown below: 10Ω 30 V+ 10 2 5 S2 -6 A
4. Use superposition to find Vo 2? S2 4 V 2V 2? 6 A Find Zload for maximum power transfer and the maximum average 5 (5) power transferred to the load. j2? 220 V 2? loa 5 Find Vx using mesh analysis. 10? 4? 2A 4A (T
In the following circuit: Vg=24V,ix=2A,β=1.5,V1=12V,V3=3V,V4=4V Find V: Find Vx: Find the power consumed in element 1: Find the power consumed in element 2: Find the power consumed in element 3: Find the power consumed in element 4: Find the power consumed in the independent voltage source: Find the power consumed in the not independent current source: 1 + 1 V4 + . + I + L V1 1
The next three problems refer to the circuit below. The phasor circuit is given; impedances are in Ohms and I and Vx represent phasors I and Vx. Question 15 (2 points) The next three problems refer to the circuit below. The phasor circuit is given; impedances are in Ohms and I and Vx represent phasors I and Vx- The voltage source is 10/0° V 5 j2 Vx + + 8Vx Which is a correct KVL equation for this circuit? -10...
Use superposition to find the voltage across the 5 ohm resistor, V1, due to the 10 V source acting alone. 5.0 V None of the other answers 6.25V 1.25V 3.75V
ints] Use the principle of superposition to find the voltage v in the circuit shown below. 6 (A) 5 (2) 8 (Q) 75 (V) (+ v 20 (O) 12 (Q)