5. After transforming voltage and circuit to the o domain, find the current by dividing voltage by impedance. This usually results in a complex number. To convert back to the time-domain, which is the answer sought, do four things: Rationalize using complex conjugate; the result is an X+jY representation. • Convert complex number to polar-coordinates: The radial distance is the peak current. The angle is the phase angle. 6. Based on the procedure in 5 above, convert the following o domain currents back into the time domain (assume @ = 1000): I = 10+j10 I=-8+j4
5. After transforming voltage and circuit to the o domain, find the current by dividing voltage by impedance. This usually results in a complex number. To convert back to the time-domain, which is the answer sought, do four things: Rationalize using complex conjugate; the result is an X+jY representation. • Convert complex number to polar-coordinates: The radial distance is the peak current. The angle is the phase angle. 6. Based on the procedure in 5 above, convert the following o domain currents back into the time domain (assume @ = 1000): I = 10+j10 I=-8+j4
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Please help me covert the domain currents back into the time domain:
I = 10 + j10 And I = -8+j4
please refer to question 5 in the screen shot for more details.
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