In an RLC series circuit, the voltage amplitude and frequency of the source are 100 V and 500 Hz, respectively, and R = 510 0, L = 0.22 H, and C = 2.4 µF. (a) What is the impedance of the circuit (in Q)? Ω (b) What is the amplitude of the current from the source (in A)? A (c) If the emf of the source is given by v(t) (100 V)sin(1,000πt), how does the current vary with time? (Use the following as necessary: t. Assume i(t) is in amps and t is in seconds. Do not include units in your answer.) i(t)= (d) Repeat the calculations with C changed to 0.24 μF. Z= 10 i(t) Ω = A

In an RLC series circuit, the voltage amplitude and frequency of the source are 100 V and 500 Hz, respectively, and R = 510 0, L = 0.22 H, and C = 2.4 µF. (a) What is the impedance of the circuit (in Q)? Ω (b) What is the amplitude of the current from the source (in A)? A (c) If the emf of the source is given by v(t) (100 V)sin(1,000πt), how does the current vary with time? (Use the following as necessary: t. Assume i(t) is in amps and t is in seconds. Do not include units in your answer.) i(t)= (d) Repeat the calculations with C changed to 0.24 μF. Z= 10 i(t) Ω = A

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter23: Resistive-inductive-capacitive Series Circuits

Section: Chapter Questions

Problem 3PP: The circuit is connected to a 60-Hz line. The apparent power in the circuit is 29.985 VA, and the...

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In an RLC series circuit, the voltage amplitude and frequency of the source are 100 V and 500 Hz, respectively, and R = 510 0, L = 0.22 H, and C = 2.4 µF.
(a) What is the impedance of the circuit (in Q)?
Ω
(b) What is the amplitude of the current from the source (in A)?
A
(c) If the emf of the source is given by v(t) (100 V)sin(1,000πt), how does the current vary with time? (Use the following as necessary: t. Assume i(t) is in amps and t is in seconds. Do not
include units in your answer.)
i(t)=
(d) Repeat the calculations with C changed to 0.24 μF.
Z=
10
i(t)
Ω
=
A

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