For the circuits shown find the average power and reactive power delivered by the source. 3.2...
For the circuit in the given figure, find the average, reactive, and complex power delivered by the dependent voltage source. Assume V = 58 2259 V. 40 -j1 2220 v 19 v 129 2V The average power is W. The reactive power is VA. The complex power is ( ) VA
For the system shown in Figure 2: a) Find
IS. b) Find the average power delivered to each element. c) Find
the reactive power for each element. d) Find the apparent power for
each element. e) Find PT, QT, ST. f) Sketch the power triangle.
Figure 2 g) Find the power factor seen by the source E.
Problem 2 For the system shown in Figure 2: a) Find Is. R3 b) Find the average power delivered to each element c)...
8. value: 10.00 points Problem 11.057 - Power delivered to dependent source For the circuit in the given figure, find the average, reactive, and complex power delivered by the dependent voltage source. Assume V : = 47 2 25° V. 412 -j1Ω 212 V 12 j222 2V The average power is 114.72 W. The reactive power is 33.7 VA. The complex power is 114.72 33.7]) VA.
.) An unbalanced Y-Y circuit is shown in Figure 2. Find the average power delivered to the load. 21H 10 cos (4t - 90°) 20 2H 10 cos 4150°) 4Ω 2H 10 cos (4t + 30°) Source Line Load Figure 2
Part A Find the average power delivered by the ideal current source in the circuit in the figure if ig-4 cos 5000t mA.(Figure 1) Express your answer with the appropriate units. P. Value Units igure 1 of 1 Submit Request Answer Provide Feedback 500 Ω 1000 Ω 100 mH 160 nF
a) Find the average power delivered to each 10 ? resistor in the circuit shown in the figure below. b) Repeat after connecting,4 to C and B to D . 10? 50? hacia hacia 5012 0 10?
Find the average Power delivered to R4
rage power delivered to R4 in Fig. 33 27 100 R som Fig. 33
Problem 4: Find the complex power S delivered by the voltage source and the power factor seen by the voltage source for the circuit of Figure 4 below. 01 12 4 10 cos 2t v (+ Figure 4
7.2Ω 6Ω 2) For the circuit shown, find (a) the voltage Vo; (b) the power delivered to the circuit by the current source; and (c) the power dissipated in the 10Ω resistor. Vo 300 64Ω 10Ω