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3. Use mesh-current method to find the steady-state expression for io(t). vs1 60 cos(40,000t)V v,,-90 sin(40,000t + 180°) V si- 202
a DA to 24 V 257 AAA 1 de 123 M 422 Use the mesh-current method to find the current Io.
Solve using matrices Use mesh analysis to find vab and io in the circuit of Fig. 3.89 Figure 3.89: 20Ω 30 52 80 V(+ 20 92 3012 vab 80 V(+ 30 2 20Ω
For the following circuit: (a) Second step use Mesh-Current Method to solve for all of the currents flowing in each of the different resistors in the circuit. Show all steps. (b) Find the current flowing from the voltage source and the voltage across the current source. (c) Calculate what i, and v, are in the circuit. i 45 Ω 2 A 60 12 512 V 10 V 2012 3512 1012 +
please solve this problem (a) Use the mesh-current method to find vo in the circuit shown below. (b) Find the power delivered by the dependent source. 50 120 20 ing 160 30 10 V 4V
Use mesh analysis to find current Io 4Ω 3Ω 60 V 2Ω 2Ω I. ΙΩ +22.5 412 5A
Use mesh analysis to find Io j60 2 20 Ω 80 -j40 -j40 2 100/1200 V ( 6030 V
A.) Use the mesh-current method to find the branch current Ia in the circuit shown in the figure when Io= 2.2 ∠0∘A, Vg1= 22 ∠0∘V, and Vg2= 11 ∠0∘V.(Figure 1) B.) Use the mesh-current method to find the branch current Ib in the circuit shown in the figure. C.) Use the mesh-current method to find the branch current Ic in the circuit shown in the figure. D.) Use the mesh-current method to find the branch current Id in the circuit...
3. Use Mesh Analysis to solve for current lo in Circuit 3. 60v@ Doa {12 O 492 w 19 20 22.5 V 225v 192 SA uit 3
Solve using one of the following methods: • Node Voltage Method • Mesh Current Method • Source Transformation (Thevenin and Norton Equivalents) Find the current i, across the 12 resistor in the circuit shown below. 112 3512 on $2012 101 3600 3302 75 V