2. (3 pts) Find Z for maximum average power transfer to the load. Show all work....
(a) Given a circuit in Figure Q4(a): (1) State the condition for maximum average power transfer to the load impedance. Z (2 marks) (1) Determine the load impedance, Z (4 marks) (in) Find the maximum average power (5 marks) Lt mm JI R RE 492 120° A 20 C. 70.502 W ZL 1 Figure Q4(a) An air conditioner operates at 240V... at a frequency of 60 Hz. It absorbs an average power of 9 kW at a lagging power factor,...
Maximum Power Transfer Learning Goal: To find the load resistance and load power for the maximum power transferred to a load. A resistive network containing independent and dependent sources can be modeled with a Thévenin equivalent circuit, as shown below. Maximum power transfer occurs when the load resistance RLequals the Thévenin resistance RTh Part A Find the Thévenin equivalent circuit with respect to the terminals a,b for the circuit above. What is the Thévenin voltage VTh? Express your answer in...
Problem 4.6. Find the average power absorbed by the 2 ohm resistor. j2 <--Ix +12/0 V 2 1x -j3 Problem 4.7. power Determine the impedance Z for maximum power transfer and the maximunm -j3 j2 -) 610 V
【Calculation Only] Find the value of Zi for maximum average power transfer. In addition, determine the value of the maximum average power delivered to the load. 3· j40 -j2Ω +420 V
Part 1 In the network in the figure below, find RL for maximum power transfer and the maximum power transferred to this load. First find the Thevenin Equivalent Resistance. RTH the tolerance is +/-5% Click if you would like to Show Work for this question: Qpen Show Work ▼ Part 2 Next find the load resistance for maximum power transfer. Part 3 Now find the Thevenin Equivalent Voltage TH = the tolerance is +/-5% Click if you would like to...
Chapter 9, Problem 9.032 Determine (a) the impedance ZL for maximum average power transfer and (b) the value of the maximum average power transferred to ZL for the circuit shown in the figure below. Chapter 9, Problem 9.032 Determine (a) the impedance Z_ for maximum average power transfer and (b) the value of the maximum average power transferred to Z_ for the circuit shown in the figure below. 12/30° 04/0A Z c 3
For the circuit shown above, (a) determine the impedance ZL results in maximum average power transfer to ZL ? (b) What is the maximum average power transferred to the load impedance determined in (a) ? 20/0° © 2003 -j6n+ Z For the circuit shown above, (a) determine the impedance ZL results in maximum average power transfer to ZL? (b) What is the maximum average power transferred to the load impedance determined in (a) ?
3. The load impedance Z, in the following povwier circuit is adjusted until the maximum average delivered to the load is delivered to it Find the value of the maximum average power mpedance. (25) 10?
Average Power 3. (30 pts) a) Find the average power absorbed by ZR ZR2, 2 and Ze components. b) Solve for Vs. c) Find the average power in the Is current source. Use Passive Sign Convention to show that the source is supplying power. d) Show that the power absorbed - power supplied (ie EP=0). ANUIUIJ JITU TUT 250 uF A 1 mH Time Domain v(t)= 4sin(1000t + 90°)V 393 vo(t) i(t) i (t)= 7cos(1000) A Bi(t)
Please show all work Problem #2 For the three-phase balanced system shown in the figure determine the following: 1. V and I 2. The three-phase power absorbed by the load. 3. The real and reactive three-phase powers lost in the transmission line. Р 4. The power efficiency, N =- -Load *100. of the three-phase system. Source V = 100 20° V. a 112 j122 A + ommo 15+ j2102 D=1002-120V.. 12 122 B 15+j2102 15+ j2 152 D =100420 V...