Component B, C and E are voltage sources and hence delivering power while A and D are acting as resistance since voltage notation is not on them hence they are absorbing power or power is used as joule heating effect.
Yes conservation of power is is satisfied in tis case since Kirchoff's laws are valid in any electrical circuit which means energy and charged is conserved. Energy conserved (Kirchoff's voltage law) means power is also conserved.
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3. For the circuit below, determine whether each component is absorbing or delivering power Is conservation...
Q1. Determine the power consumed by each circuit element (PA, PB, Pc, Po, PE and P), respectively, and specify whether each circuit component is supplying power or absorbing power (dissipated power) shown in Fig. 1 and Fig 2. le=-2A Fig. 1 Fig. 2
11·The current through each element and voltage drop across each element are given for the circuit shown below. 7.273 mA -7273 mA a10V7.273 う-" . | c | |-5455 n1A d - 2.727 V 1.818 mA a. Use passive sign convention to determine the power for each circuit element. b. Which circuit elements are absorbing energy from the circuit? c. Which circuit elements are supplying (delivering) energy to the circuit? d. Is this circuit balanced? In other words, is the...
Problem 30: For the circuit provided below, determine the following: (a) Determine the current 1x in the circuit. (b) Calculate the power supplied by the dc current source. 10 Ω 75 V 15 2 () ЗА l Answer: (a) Ix = -5 A (b) P3A = 315 W Problem 31: Determine the voltage, Voc, in the circuit below. 10 Ω 10 22 b 10 22 WC 5 AC 1012 10 Ω Answer: Vbc = 10 V
Given the circuit below, determine the reactive power Q
supplied by the circuit. Give your answer as positive and in units
of VAR.
Given the circuit below, determine the reactive power Q supplied by the circuit. Give your answer as positive and in units of VAR. Use the following quantities: w = 9,043 rad/sec and Vin = 28 20° + Vout HH m 3 mH 5 F 400 Vin 2002
Question 3 25 pts Given the circuit below, determine the apparent power supplied by the circuit. Give your answer as positive and in units of VA. Use the following quantities: w=851 rad/sec and Vin = 14 20°V 20 mH Vout(t) Vin(t) 4 mF 292
ame Su chool Number 4: : The source voltage of the circuit below is V()-140cos(30). The component values are RI-20, XL-30. Xc-20 a) Determine the load impedance Zab that will absorb maximum power if it is connected to terminals a-b of the circuit below. b) Determine the maximum power absorbed by this load. Xc XL. M-0.8H R1 2-2 0.4H Vit)
ame Su chool Number 4: : The source voltage of the circuit below is V()-140cos(30). The component values are RI-20,...
explain the answer a little please
1. Given the circuit below, determine the current through each of the resistors and the power used by resistor 3. (20 points) R,-50Ω Battery Voltage is 120 V R2-20 Ω R, 30 2 R, 40 Ω R7-70 Ω R8-80 Ω 9:52v LTE Done Attachment . Given the circuit below, determine the current through each of the resistors and the power used by resistor 3. (20 points) Rs = 50 Ω Battery Voltage is 120...
Given the circuit below, determine the average real power supplied by the circuit. Give your answer as positive and in units of W. Use the following quantities: w = 485 rad/sec and Vin = 2520°V Vout 3 mH 5 F 4002 200
In the circuit below, the load is shown as component X1. EO 4 Ohms a. Determine the Thevenin equivalent voltage of the circuit to the left of the load (7 points) Answer b. Determine the Thevenin equivalent resistance of the circuit to the left of the load (7 points) Answer u 14 points)
Given the circuit below, determine the average real power P supplied by the circuit. Give your answer as positive and in units of W. Use the following quantities: w = 9,356 rad/sec and Vin = 45 20 V Vout 3 mH 5 ur 4022 V 2002