Using Kirchhoff’s Rules find the current A:
V1: 5.0
R1: 100
R2: 200
R3: 330
R4: 100
R5: 200
Using Kirchhoff’s Rules find the current A: V1: 5.0 R1: 100 R2: 200 R3: 330 R4:...
Please use Kirchhoff’s Rules only to solve for this table using setup 2. Thank you again! Setup #1 Setup #2 R1 R4. R3 R2 R2 R1 R3 V1 Setup #3 Setup #4 R1 R2 R4 R3 R5 V2 R1 R2 V1 R3
R1 1.5K R3 3K V1 50V R2 6k R4 6K R1 Total R2 R3 R4 Current Voltage Resistance 1.5K Power NA 6K 3K 6K
Find the voltage at R4 using mesh analysis. R1 R5 M 100 Vout+ 15 V1 + R3 470 R4 220 5 R2 M Vout- 220
V1 V2 R1 R5 Vout+ 15 100 V1 + R3 R4 5 470 220 R2 Vout- 220 1. Using circuit analysis techniques you learned in class, calculate the Thévenin voltage between the terminals Vout+ and Vout- in the above circuit. Using the zeroing method, calculate the Thévenin resistance of the above circuit as seen from the terminals Yout+ and Vout- What is the Norton (short circuit) current for the above circuit?
Part 1: Gain =8, R1=5k, R2=20k, R5=100, and V1=1V. Find Vout/Vin. Part 2: Let R4=0 and R3=∞. Find Vout/Vin. (Hint: make sure the button called Enable Biased Voltage Display is depressed) (Another Hint: when a resistance is zero, short it; when a resistance is infinity, delete it). Part 3: Let R4=2k and R3=∞. Find Vout/Vin. Part 4: Let R4=0 and R3=1000. Find Vout/Vin. Part 5:Let R4=2k and R3=1000. Find Vout/Vin. R1 Vout G1 5k R4 1k R5 100 V1 R2...
(34pts) 2. Using superposition, find vs. Given: R1=102, R2=2292, R3=3052, R4=4412, R5=5082, V1=20V, V2=24V and I=4A. RIR R5 NNN www R2 01 vi R4 v2
2). Using Mesh analysis, Calculate the current through resistor R5. R2=2022 R1=102 R3=302 R4=402 V1=60V R6=6022 R5=502 15A R7=702 R8=802 { V240V R9=902 R10=1002
1. Find the voltage across resistor R3 R4 Sko V1 R3 - 12 $1. 00 2. Find the current through and voltage across R6 R1 R2 1.sk = V2 12V 1.00 R4 R8 4700 1.Ok R7 $1.0ko R6 2.25kn 3. Find the voltage across and current through R3 R1 R2 4.7k 1.Ok 12V 1.5k) R5 W 4.7kQ R4 WW 1.5k R6 4. Find the voltage across R2 and the current through R6 R7 R5 R3 1.0k 1.0kg vi 12V R6...
find ALL node voltages and branch currents 3) R1 2 V1 R4 110V R6 16 R2 3 V2 R5 24 110V R3 2
Find the equivalent resistance of the circuit below. R1=333 12, R2=100 N2, R3=1000 N2, R4=1.750 kN2, R5=550 N2, R6=3.5 k 2. (Report result to nearest whole number) R1 w R2 V R3 w R4 w R5 R6