Assume that you have an LRC AC Circuit with one inductor which has an inductance of L = 81 mH and internal resistance r = 50 № described by the LRC Circuit phasor diagram below. VL Vc VR 10 Vps Vr VL-VC If your AC Power Supply is tuned to a frequency f = 600 Hz and you measure a Power Supply rms potential Vps = 3.5 V, a capacitor rms potential Vc = 2.4 V, a (real) inductor rms potential Vind = 4.5 V, and a resistor rms potential VR = 2.1 V, what is the potential across the inductor's internal resistance, V₁? Hint: Calculate the angular frequency, w, and the inductor's impedance XL = wL. (Make sure you're in Ohms!) Then, use the expression from your Lab 8 Handout and Calculation sheet for V₁.
Assume that you have an LRC AC Circuit with one inductor which has an inductance of L = 81 mH and internal resistance r = 50 № described by the LRC Circuit phasor diagram below. VL Vc VR 10 Vps Vr VL-VC If your AC Power Supply is tuned to a frequency f = 600 Hz and you measure a Power Supply rms potential Vps = 3.5 V, a capacitor rms potential Vc = 2.4 V, a (real) inductor rms potential Vind = 4.5 V, and a resistor rms potential VR = 2.1 V, what is the potential across the inductor's internal resistance, V₁? Hint: Calculate the angular frequency, w, and the inductor's impedance XL = wL. (Make sure you're in Ohms!) Then, use the expression from your Lab 8 Handout and Calculation sheet for V₁.
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter33: Inductors And Ac Circuits
Section: Chapter Questions
Problem 62PQ
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Question
![O 4.05 V
4.44 V
O 1.4 V
O 0.73 V](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F965b327b-dcc3-4292-a995-a48a8e435a5f%2F4ae98ce1-dacd-43c1-a11a-8b7fadb7c4a7%2F08fduwo_processed.png&w=3840&q=75)
Transcribed Image Text:O 4.05 V
4.44 V
O 1.4 V
O 0.73 V
![Assume that you have an LRC AC Circuit with one inductor which has an inductance of
L =
81 mH and internal resistance r = 50 described by the LRC Circuit phasor
diagram below.
=
VL
4.05 V
Vc
4.44 V
VR
Vps
Vr
If your AC Power Supply is tuned to a frequency f = 600 Hz and you measure a Power
Supply rms potential Vps = 3.5 V, a capacitor rms potential Vc = 2.4 V, a (real) inductor rms
potential Vind = 4.5 V, and a resistor rms potential VR = 2.1 V, what is the potential across
the inductor's internal resistance, V₁?
VL-VC
Hint: Calculate the angular frequency, w, and the inductor's impedance XL = wL. (Make sure you're in
Ohms!) Then, use the expression from your Lab 8 Handout and Calculation sheet for V₁.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F965b327b-dcc3-4292-a995-a48a8e435a5f%2F4ae98ce1-dacd-43c1-a11a-8b7fadb7c4a7%2Fqlypw0n_processed.png&w=3840&q=75)
Transcribed Image Text:Assume that you have an LRC AC Circuit with one inductor which has an inductance of
L =
81 mH and internal resistance r = 50 described by the LRC Circuit phasor
diagram below.
=
VL
4.05 V
Vc
4.44 V
VR
Vps
Vr
If your AC Power Supply is tuned to a frequency f = 600 Hz and you measure a Power
Supply rms potential Vps = 3.5 V, a capacitor rms potential Vc = 2.4 V, a (real) inductor rms
potential Vind = 4.5 V, and a resistor rms potential VR = 2.1 V, what is the potential across
the inductor's internal resistance, V₁?
VL-VC
Hint: Calculate the angular frequency, w, and the inductor's impedance XL = wL. (Make sure you're in
Ohms!) Then, use the expression from your Lab 8 Handout and Calculation sheet for V₁.
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