8. Find the complex power delivered by v, to the network in Fig. 11.69 Let v,...
1.32 Find the power that is absorbed or supplied by the network elements in Fig. P1.32 8 V 2 A +21 12 V (+ 2 A 24 V 20 V I 2 A 2 A 2 A 2 12 V 2 A Figure P1.32 1.32 Find the power that is absorbed or supplied by the network elements in Fig. P1.32 8 V 2 A +21 12 V (+ 2 A 24 V 20 V I 2 A 2 A 2...
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
3. For the network below, find the complex power S for each element. Show that Σs-0. j4 Q 3Ω 50 450 V (ms) -j6 A (ms) HE 4. For the network shown, determine (a) the value of the load impedance ZL such that maximum power is delivered to the load and (b) the complex power for a load having this value of impedance. 8 Ω -j1 Q 6 Loo A (ms) 50 L00 V (ms) j15 ZL
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 emitter follower of Fig. 12.2. let Vcc-10 V, 1-1 00 mA, and R.-100 Ω. If the output voltage is an 8-V-peak sinusoid, find the following: (a) the power delivered to the load; (b) the average power drawn from the supplies: (c) the power-conversion efficiency. Ignore the loss in Qs and R 0 URE 02 For the emitter follower of Fig. 12.2. let Vcc-10 V, 1-1 00 mA, and R.-100 Ω. If the output voltage is an 8-V-peak sinusoid,...
AL SDEMATIC A plot of the power delivered to Re in Fig. 9.120 for a range of values for R extending from 0 to 30 n FIG. 9.122 plot generated appears as a listing at the bottom left of the W/RL) Before leaving the subject, we should mention that the pou can be determined in more ways than one from the Add Trac box. For example, first enter a minus sign because of the resu rent direction through the resistor,...
1.19 Find I and the power absorbed by each element in the network of Fig. 1.30. 8A9v 6 Figure 1.30 For Prob. 1.19. 1.20 Find V, and the power absorbed by each element in the circuit of Fig. 1.31. 1.- 2A 28 V 12 V TIA 28 V 30 V + 6A1 Figure 1.31 For Prob. 1.20.
20Ω 30 Ω j20Ω Fig. 1.7 In the circuit of Fig. 1.8, find the RMS phasor voltage V so that the 60 Ω resistor absorbs an average power of 240 W. Hence, determine the complex power delivered to each component, the complex power and the power factor delivered by voltage source. Fig. 1.8 2) P1.8
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.