Using superposition theorem, find the voltage V0 across the 2Ω resistor due to the 4A current source in Fig. 8.
A. 2V B. 8V C. 4V D. 6V
Using superposition theorem, find the voltage V0 across the 2Ω resistor due to the 4A current source in Fig. 8.
Using superposition theorem, determine the voltage across R2(VR2) in the network of fig. P6.
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
Use the superposition Theorem to find the voltage Vab Voltage due to 2A source = units Voltage due to 120V source = units Vaba units 2002 4092
Use superposition to determine the voltage across the current source in Fig. 5.57 22 k? 47 k? 4.7 k? FIGURE 5.57 Volts
1. a) Using loop analysis, find voltage across 4A current 25 pts) source (You need to show the polarity of the voltage How much total power is released by the two sources? b) 4A 322 c)Find [VA], the voltage difference between node A and B 72 a) b) c)
Use superposition to find the voltage across the 6 A current source in Figure 3.
Why the value of 12 at mesh 2,3 ?? 2.26 The current ia and the voltage source in Fig. P2.26 PSPICE are 1 A and 2V respectively. If the current ig is 1 A: a) Find the mesh currents. b) Find the power dissipated in each resistor c) Find vg d) Find the cumulative power dissipated across all MULTISIM the resistors put together in the given circuit. Figure P2.26 362 3Ω 2Ω 1Ω 2 V 2Ω
Find the current through and the voltage across each resistor in Fig. 6. Problem 10. Find the current through and the voltage across each resistor in Fig. 6. R1 152 ww V, 9.0 V R 102 R, 18 R, 35 Q V, 12 V Figure 6: Problem 10: Find the current through and the voltage across each resistor.
Problem #1 (5) Use superposition to find the voltage V across the 4 2 resistor with polarity as marked. This problem includes 3 subproblems, Problem#1, Problem#2 and Problem#3. w 222 + 20V 412 5A V due to the voltage source: Problem #2 (5) Use the same circuit diagram in Probl. V due to the current source: Problem #3 (5) Use the same circuit diagram in Probl. Actual V:
AP2-2. In Fig. AP2.2, find the voltage across the 20-Ω resistor using loop currents. If possible, choose the loop currents so that only one equa- tion is necessary. 12 A 20 Ω 3 A 1012 2Ω Figure AP2.2