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5. Calculate the currents in the circuit below: R, ΙΩ 12 28 V Loop 1
In the circuit given below, R = 60 . Find the currents / through 14 and the voltage vo 81 109 209 309 2010 R The value of vo in the circuit is 60.00 V. The value of l in the circuit is 6.00 A. The value of 2 in the circuit is 3.00 A. The value of 13 in the circuit is 2.00 A. The value of l in the circuit is 1.00 A
Consider the circuit shown in the figure below. Calculate the currents I1, I2, and I3.
In the circuit given below, R= 1 kg. Find the mesh currents 11, 12, and 13. R 1k WWW min me 152 WWW Ik we ar 12 V 12 V 10 V The value of ly in the circuit is The value of ly in the circuit is The value of lz in the circuit is
2. Calculate all the voltages and currents in the circuit shown below 11 4Ω 8Ω 13 2
In the circuit given below, R 7 kQ. Find the mesh currents using MATLAB 8 k2 I3) 8 kS.2 3 mA 4 k2 + 3k2 MA. The value of 11 in the circuit is he value of 12 in the circuit is The value of l3 in the circuit is The value of in the circuit is The value of l in the circuit is MA. mA. mA. MA.
For the circuit shown, calculate the three currents. Use the directions of the currents as shown. 52 1: 15 V 1: 62 1 12 V 80 + 702
09) For the balanced Δ-Y circuit of the Fig. below, calculate the phase and line currents, where Zi- (4 +j3) 2 per phase. Vab 220 20°, Assume abc sequence. ZL Von- Bn
Please help me with this homework...Given the circuit below, draw the output characteristic curve showing the load line, maximum values, and actual currents and voltage on the circuit your characteristic. Calculate the RB
1.Calculate all currents in the circuit shown. 2.Calculate the voltage drops in each of the resistors Note: you must show the entire algebraic procedure in solving the generated equations, as well as the direction of the Currents that you assumed. Aplicación de las Leyes de Kirchfoff 6 C E 3.00 KS2 M E. R3 60.0 V ES 1 k12 = 103 22 70.0 V 80.0 V R 4.00 k12 2.00 k12 -W Ri a