3.2 (10 pts) Apply mesh analysis to determine Io in phasor domain. ΊΩ 2200 A j2Ω...
In the circuit shown below, apply nodal analysis in the phasor domain to determine the currentie (a) in phasor-domain, Ix, (b) and in time-domain, ix(1). SO 3502 1 F 503 IMF 10.5 cos 10%+v 21cos 1054 v
In the circuit shown below, apply nodal analysis in the phasor domain to determine the current flowing out of the source on the right side, name it is (a) in phasor-domain, 1:1 (b) and in time-domain, is). 250 5923 ( 21 cos 105 V +1FMF 10.5 cos 101©
3.2 Mesh-Current Method (3-2) Apply the mesh-current method to determine the mesh curents h to l. From these results determine the voltage across the current source Vi. R4 V, I R3 Vsrc Figure 3.2: Circuit for Problem Use these component values: . ISRs-12.5 mA . Ri = 5.6 kQ, R2 = 2.2 kQ, R3 = 3.3 kQ, and R4 = 4.7 kΩ
Frequency is 60Hz Use mesh analysis and Phasor approach to find both Phasors and the corresponding time domain representation of the current through and voltage across each circuit element Verify the correctness of the results by means of Tellegen’s theorem (Power Balance) Draw the phasor diagram with respect to either extraordinary node R2 R1 0.8K 0.7K L3 L2 L1 1.2mH 1.5mH 1mH C2 C1 2.2nF 2.4nF 10 360 us2 Usl 14 < 00 R2 R1 0.8K 0.7K L3 L2 L1...
3.4: Mesh Analysis Practice Problem 3.6-Using Mesh analysis find Io in the circuit 6 2 8Ω 20 V ( ± 10i, di
Find Io using mesh analysis. 10 12/0° v 2/0°A 31.2 + T-jin
5. Find the current is(t) using mesh analysis in the s-domain. (20 pts) F 4H mm HH 4e-2t u(t) V i2(1) 2eu(t) V 102
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
3. (15 pts) Determine v, in the following figure as a phasor and in the time domain. 22 122 8cos(t +45°) V 0.5 F 29 1H VL
Use mesh analysis to find Io j60 2 20 Ω 80 -j40 -j40 2 100/1200 V ( 6030 V