3. Use Superposition Theorem to solve for the current I through the 10-Ohm resistor. RSD I...
Use Superposition to find Current passing thru 6 ohm resistor Use Superposition method to find the current passing through the 6 ohm resistor as shown below. 2012 100 V 4 A 25 V 9Ω 30(2
Using superposition theorem, find the current in 2 ohm resistor in the circuit in Figure 1. Points)
Use the principle of superposition to determine the component of the current i through R3 that is due to Vs2. (Round the final answer to three decimal places.) TR4 Vsi {R Rs w Assume: Vs1 = Vs2 = 450 V R1 = 7.5 ohm R2 = 6 ohm R3 = 10.5 ohm R4 = 1.5 ohm R5 = 2 ohm The component of current IR3 -2 = 0
A DC current I passes through a resistor R (=100 Ohm). The LE in the resistance is 1%. The 0- 10 A ammeter has 1% of full-scale accuracy. The ammeter reads 8A. Calculate the LE of the DC power measurement in the resistor
Use the principle of superposition to determine the current through Ry in the following figure. Let R - 10 ohm, Ry 4 ohm, Ry - 2 ohm, R42 ohm, Rs - 2 ohm, Vs - 24 V. Is = 2 A (Round the final answer to three decimal places.) TR
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
2, using the superposition theorem, calculate the current through the resistance R = 8 Ω for the circuit below. SA RŠ4Ω E 24 V
Use the superposition theorem to find the current through R RI R2 56 Ω 100) Ω 27 Ω R3 27 Ω Figure 4: Circuit sample 2
Question 2 Using Superposition theorem, solve for the current through R3 in the Figure below. 1s1 = 100 mA, Vs1=28 V, R1=680 Ω, R2 = 220 Ω, R3 = 330 Ω, R4 = 533 Ω, Enter positive for down direction and negative for up direction. Enter your results in mA. R3 R2 Is1 R1 R4 4.35
10. Use the superposition theorem to find the current I in the circuit below. [5] 60k2 I=