c) If we consider the resistor, capacitor and inductor as the load connected to the twovoltage sources, at which frequency can the load be considered resistive (two decimalaccuracy required)? d) If we consider the resistor, capacitor and inductor as the load connected to the twovoltage sources, at which range of frequencies can the load be considered inductive(two decimal accuracy required)? V1CHHV2+Figure 1: The circuit for laboratory 3.LmWRGiven the circuit shown in figure 1 with component values R = 10 kN, C = 1 µF and L = 22mH.Voltage sources V₂ = 3 V (DC) and V₁ 1.732 +j V (AC) with frequency f₁ [Hz] which is not yetdefined. Assume the circuit has reached steady state (no transients in response). Attempt eachof the following tasks before coming to the practical laboratory.

Answered: Image /qna-images/answer/addb2912-8ee7-4ecc-8cf8-e0b58e6dbfda.jpg

c) If we consider the resistor, capacitor and inductor as the load connected to the two voltage sources, at which frequency can the load be considered resistive (two decimal accuracy required)? d) If we consider the resistor, capacitor and inductor as the load connected to the two voltage sources, at which range of frequencies can the load be considered inductive

c) If we consider the resistor, capacitor and inductor as the load connected to the two voltage sources, at which frequency can the load be considered resistive (two decimal accuracy required)? d) If we consider the resistor, capacitor and inductor as the load connected to the two voltage sources, at which range of frequencies can the load be considered inductive

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter2: Fundamentals

Section: Chapter Questions

Problem 2.1MCQ: The rms value of v(t)=Vmaxcos(t+) is given by a. Vmax b. Vmax/2 c. 2Vmax d. 2Vmax

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Question

c) If we consider the resistor, capacitor and inductor as the load connected to the two
voltage sources, at which frequency can the load be considered resistive (two decimal
accuracy required)?

d) If we consider the resistor, capacitor and inductor as the load connected to the two
voltage sources, at which range of frequencies can the load be considered inductive
(two decimal accuracy required)?

V1
C
HH
V2
+
Figure 1: The circuit for laboratory 3.
L
m
W
R
Given the circuit shown in figure 1 with component values R = 10 kN, C = 1 µF and L = 22mH.
Voltage sources V₂ = 3 V (DC) and V₁ 1.732 +j V (AC) with frequency f₁ [Hz] which is not yet
defined. Assume the circuit has reached steady state (no transients in response). Attempt each
of the following tasks before coming to the practical laboratory.

Expert Solution

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Step 1: State the given data.

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Step 2: c) Finding the total impedance, ZT.

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Step 3: Finding the frequency at which the total impedance is purely resistive.

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Step 4: d) Finding the range of frequencies at which the total impedance is inductive.

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Solution

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Follow-up Question

If we consider the resistor, capacitor and inductor as the load connected to the two
voltage sources, at which range of frequencies can the load be considered capacitive
(two decimal accuracy required)?

Solution

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