-j52 13.12 11 2290° V 412 ZL Find the Thevenin equivalent of the circuit with respect...
j312 -j52 HE 2290° V 412 ZL Find the Thevenin equivalent of the circuit with respect to Z. Express the answer in terms of the Thevenin voltage (Vr ), short-circuit current (isc), and Thevenin impedance (Z). Round answer to 2 decimal places, add trailing O's as needed. TI .V | А Zr-
Question 3 -j52 HE j312 2290° v 412 ZL Find the Thevenin equivalent of the circuit with respect to Z. Express the answer in terms of the Thevenin voltage (Vr), short-circuit current (ise), and Theveni Round answer to 2 decimal places, add trailing O's as needed. Vr = 2 V isc 2 с А Zra 2. 12 Question 4 a 1020° V 36-82 Vab m2 102 - 240° 102 - 120° V 36-8036-80 Vea lo с id Find the line...
Question 3 30 pts -j52 412 12 -90° A 3212 ZL Find the Thevenin equivalent of the circuit with respect to Z - Express the answer in terms of the Thevenin voltage (Vr), short-circuit current (ise), and Thevenin impedance (ZT). Round answer to 2 decimal places, add trailing o's as needed. 2 V 2 A Zr= 2 12
Question 3 30 pts 212 412 w 12 -90° A 4 -j512 32 Find the Thevenin equivalent of the circuit with respect to Zų. Express the answer in terms of the Thevenin voltage Vr), short-circuit current (isc), and Thevenin impedance (Zr). Round answer to 2 decimal places, add trailing O's as needed. Vr = ov 2 A ZT= 12
Question 3 30 pts 212 412 w 12 -90° A 4 -j512 32 Find the Thevenin equivalent of the circuit with respect to Zų. Express the answer in terms of the Thevenin voltage Vr), short-circuit current (isc), and Thevenin impedance (Zr). Round answer to 2 decimal places, add trailing O's as needed. Vr = ov 2 A ZT= 12
Question 2 30 pts 2290° A 412 -j52 내 j3 22 220V 322 Find the SAE's for the assigned nodal voltages. Solve for the nodal voltages. Round answer to 2 decimal places, add o's as needed. Express magnitude as positive number and angle between +180° V1 = 2 V V2 = 2 V V3 = Z -V
Find the Thevenin equivalent with respect to the terminals a,b for the circuit(Figure 1)if v = 410 V , i = 18 A .Find the equivalent voltage.Express your answer with the appropriate units.
Find and sketch the Thevenin Equivalent Circuit with respect to terminals A and B. Calculate the Thevenin voltage and impedance.
Find the Thevenin equivalent with respect to the terminals a,b for the circuit(Figure 1) if v = 320V , i = 11A . Find the equvalent voltage. Find the equivalent resistance. Find the Thevenin equivalent with respect to the terminals a,b for the circuit(Figure 1) if v = 320V , i = 11A . Find the equvalent voltage. Find the equivalent resistance.
-j512 th 222 (2) 412 2290° A 220° V j3 Ω Find the SAE's for the assigned nodal voltages. Solve for the nodal voltages. Round answer to 2 decimal places, add O's as needed. Express magnitude as positive number and angle between £180° Vi = V JI [ 02 = 2 OV U3 = L V