A parallel connection of a resistor, inductor and capacitor is presented in the figure below. The applied voltage is: u(t)=15square root of 2sin(wt+45deg ),V . The impedances of the elements are: R = 13 Ω, ωL = 41 Ω, 1 /wC= 18 OHMS . Find the currents through the elements, the apparent power S, the active power P and the reactive power Q.
A parallel connection of a resistor, inductor and capacitor is presented in the figure below. The applied voltage is: u(t)=15square root of 2sin(wt+45deg ),V . The impedances of the elements are: R = 13 Ω, ωL = 41 Ω, 1 /wC= 18 OHMS . Find the currents through the elements, the apparent power S, the active power P and the reactive power Q.
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter30: Dc Motors
Section: Chapter Questions
Problem 6RQ: What is CEMF?
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A parallel connection of a resistor, inductor and capacitor is presented in the figure below. The applied voltage is: u(t)=15square root of 2sin(wt+45deg ),V . The impedances of the elements are: R = 13 Ω, ωL = 41 Ω,
1 /wC= 18 OHMS . Find the currents through the elements, the apparent power S, the active power P and the
reactive power Q.
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