2. In a series RLC circuit, the resistance R is150 ^, the inductance L is 0.2 H, and the capacitance C is 100μF. The applied voltage across the circuit is V-24Vwith a frequency of f=60Hz. 1. Calculate the inductive reactance X_L and capacitive reactance ✗_C. 2. Determine the total impedanceZ of the circuit. 3. Calculate the phase angle between the voltage and the current. 4. Based on the phase angle, identify whether the circuit is predominantly inductive or capacitive. ANS: = 1. XL 25.13^ 2. X C=26.53 ^ 3. Z 150.78 ^ = 4. is approx -7.3 (Predominantly capacitive). °

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter21: Alternating-Current Circuits And Electromagnetic Waves
Section: Chapter Questions
Problem 19P: A series RLC circuit has resistance R = 50.0 and inductance L. = 0.500 H. (a) Find the circuits...
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2. In a series RLC circuit, the resistance R is150 ^, the inductance L is 0.2 H, and the capacitance C is
100μF. The applied voltage across the circuit is V-24Vwith a frequency of f=60Hz.
1. Calculate the inductive reactance X_L and capacitive reactance ✗_C.
2. Determine the total impedanceZ of the circuit.
3. Calculate the phase angle
between the voltage and the current.
4. Based on the phase angle, identify whether the circuit is predominantly inductive or capacitive.
ANS:
=
1. XL 25.13^
2. X C=26.53 ^
3. Z 150.78 ^
=
4. is approx -7.3 (Predominantly capacitive).
°
Transcribed Image Text:2. In a series RLC circuit, the resistance R is150 ^, the inductance L is 0.2 H, and the capacitance C is 100μF. The applied voltage across the circuit is V-24Vwith a frequency of f=60Hz. 1. Calculate the inductive reactance X_L and capacitive reactance ✗_C. 2. Determine the total impedanceZ of the circuit. 3. Calculate the phase angle between the voltage and the current. 4. Based on the phase angle, identify whether the circuit is predominantly inductive or capacitive. ANS: = 1. XL 25.13^ 2. X C=26.53 ^ 3. Z 150.78 ^ = 4. is approx -7.3 (Predominantly capacitive). °
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