Calculate the value of I1 2 and 3 for the circuit with the directions as indicated in the figure below.
Assume that R1 = 4.00 ohm, R2 = 10.0 ohm, R3 = 10.0 ohm, V1 = 3.00 V, V2 = 13.0 V and V3 = 8.00 V.
writing KCL at the junction of three currents:
I2=I1+I3
==>I1-I2+I3=0...(1)
writing KVL in left loop:
V3-R1*I1-V1-R3*I2=0
==>8-4*I1-3-10*I2=0
==>4*I1+10*I2=5...(2)
writing KVL in right loop:
V2-I3*R2-V1-R3*I2=0
==>13-10*I3-3-10*I2=0
==>10*I2+10*I3=10...(3)
solving equations 1 ,2 and 3 simultaneously,
we get I1=0
I2=0.5 A
I3=0.5 A
Calculate the value of I1 2 and 3 for the circuit with the directions as indicated...
2A/A 2. Calculate the power of the current controlled current sou rce I1, and the current through R3 in the circuit below. Then answer the following questions, (15 points) Note: Save the circuit source file as "2.ms10" I I1 4 R1 3 2 A/A 1000 R2 32000 V1 14 V R3 3000 5 2 R4 31000 V2 2V 0 The power of the current controlled current source is 10 ,and the direction is The magnitude of the current is 2....
pls help R1 R3 R2 w w V14 V3+ V2+ Consider the circuit shown below, where R1= 2 Ohm, R2= 8 Ohm, R3= 5 Ohm, V1= 14 V, V2= 9 V, and V3= 16 V. a) Find the potential difference across R1 Number Units b) Find the magniture of the current through R2 Number Units c) Find the power dissipated in R3 Number Units
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