1) Is the 1kHZ circuit in part 1 more inductive or capactive. Explain how the data supports your answer 2) Is the 10kHZ circuit in part 1 more inductive or capactive. Explain how the data supports your answer 3) Why do we use Vr to compare the phase of E when measuring the phase with the o-scope?
1) Is the 1kHZ circuit in part 1 more inductive or capactive. Explain how the data supports your answer 2) Is the 10kHZ circuit in part 1 more inductive or capactive. Explain how the data supports your answer 3) Why do we use Vr to compare the phase of E when measuring the phase with the o-scope?
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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Hello, please look at my lab data and help with the following questions: This was for an RCL Lab.
1) Is the 1kHZ circuit in part 1 more inductive or capactive. Explain how the data supports your answer
2) Is the 10kHZ circuit in part 1 more inductive or capactive. Explain how the data supports your answer
3) Why do we use Vr to compare the phase of E when measuring the phase with the o-scope?
Transcribed Image Text:Data Sheet
j0002
L_2 7mH
c_047uF
R=
PART I
phasor
f=1kHz
V =
フ60
X =16952 V
Vc.
Vn =ded3
E = 708 vrmg
Xc=34002
-7ム4
VR
6.9EV
E = sqrt((V-Vc)? + V)=
O = tan" (V-Ve)/Vn) = 71,4°
ī= Ins
f=10kHz
1,82
Vc=2
Va=S. 49
E = 10,49
= 16402 phasor
Xc 340RV.
VL=
JR
=54.9
+ 56.70
9,55
E = sqrt((V-Vc)" + V)-.
d' = tan* ((V-Ve)/Va) = 54.9
4ン15.755 4=36. At
T二100う
Ve
PART II
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