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Electrical Engineering (EE) Exam  >  Electrical Engineering (EE) Tests  >  Basic Electrical Technology  >  Test: Voltage & Current in a Series RLC Circuit - Electrical Engineering (EE) MCQ

Test: Voltage & Current in a Series RLC Circuit - Electrical Engineering (EE) MCQ


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20 Questions MCQ Test Basic Electrical Technology - Test: Voltage & Current in a Series RLC Circuit

Test: Voltage & Current in a Series RLC Circuit for Electrical Engineering (EE) 2024 is part of Basic Electrical Technology preparation. The Test: Voltage & Current in a Series RLC Circuit questions and answers have been prepared according to the Electrical Engineering (EE) exam syllabus.The Test: Voltage & Current in a Series RLC Circuit MCQs are made for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Voltage & Current in a Series RLC Circuit below.
Solutions of Test: Voltage & Current in a Series RLC Circuit questions in English are available as part of our Basic Electrical Technology for Electrical Engineering (EE) & Test: Voltage & Current in a Series RLC Circuit solutions in Hindi for Basic Electrical Technology course. Download more important topics, notes, lectures and mock test series for Electrical Engineering (EE) Exam by signing up for free. Attempt Test: Voltage & Current in a Series RLC Circuit | 20 questions in 20 minutes | Mock test for Electrical Engineering (EE) preparation | Free important questions MCQ to study Basic Electrical Technology for Electrical Engineering (EE) Exam | Download free PDF with solutions
Test: Voltage & Current in a Series RLC Circuit - Question 1
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In a series RLC circuit, the phase difference between the voltage across the capacitor and the voltage across the resistor is?

Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 1

In a series RLC circuit, the phase difference between the voltage across the capacitor and the voltage across the resistor is 90 degrees.

Test: Voltage & Current in a Series RLC Circuit - Question 2
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In a series RLC circuit, the phase difference between the voltage across the inductor and the voltage across the resistor is?

Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 2

In a series RLC circuit, the phase difference between the voltage across the inductor and the voltage across the resistor is 90 degrees.

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Test: Voltage & Current in a Series RLC Circuit - Question 3
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In a series RLC circuit, the phase difference between the voltage across the capacitor and the voltage across the inductor is?

Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 3

In a series RLC circuit, the phase difference between the voltage across the capacitor and the voltage across the inductor is 180 degrees.

Test: Voltage & Current in a Series RLC Circuit - Question 4
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In a series RLC circuit, the phase difference between the voltage across the resistor and the current in the circuit is?
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 4

 In a series RLC circuit, the phase difference between the voltage across the resistor and the current in the circuit is 0 degrees because they are in phase.

Test: Voltage & Current in a Series RLC Circuit - Question 5
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 In a series RLC circuit, the phase difference between the voltage across the capacitor and the current in the circuit is?
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 5

In a series RLC circuit, the phase difference between the voltage across the capacitor and the current in the circuit is 90 degrees.

Test: Voltage & Current in a Series RLC Circuit - Question 6
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In a series RLC circuit, the phase difference between the voltage across the inductor and the current in the circuit is?
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 6

 In a series RLC circuit, the phase difference between the voltage across the inductor and the current in the circuit is 90 degrees.

Test: Voltage & Current in a Series RLC Circuit - Question 7
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 The current in the inductor lags the voltage in a series RLC circuit ___________ resonant frequency.
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 7

The current in the inductor lags the voltage in a series RLC circuit above the resonant frequency.

Test: Voltage & Current in a Series RLC Circuit - Question 8
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The current in the capacitor leads the voltage in a series RLC circuit ___________ resonant frequency.
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 8

The current in the capacitor leads the voltage in a series RLC circuit below the resonant frequency.

Test: Voltage & Current in a Series RLC Circuit - Question 9
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The current in the inductor ___________ the voltage in a series RLC circuit above the resonant frequency.
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 9

The current in the inductor lags the voltage in a series RLC circuit above the resonant frequency.

Test: Voltage & Current in a Series RLC Circuit - Question 10
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The current in the capacitor ___________ the voltage in a series RLC circuit below the resonant frequency.
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 10

ω < ω0 => ω < 1/√LC
=> ωL < 1/ωC => XL < XC The circuit is capacitive dominant so, the current in the capacitor leads the voltage in a series RLC circuit above the resonant frequency.

Test: Voltage & Current in a Series RLC Circuit - Question 11
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 In a series RLC circuit, the phase difference between the current in the capacitor and the current in the resistor is?
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 11

In a series RLC circuit, the phase difference between the current in the capacitor and the current in the resistor is 0 degrees because the same current flows in the capacitor as well as the resistor.

Test: Voltage & Current in a Series RLC Circuit - Question 12
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In a series RLC circuit, the phase difference between the current in the inductor and the current in the resistor is?
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 12

In a series RLC circuit, the phase difference between the current in the inductor and the current in the resistor is 0 degrees because the same current flows in the inductor as well as the resistor.

Test: Voltage & Current in a Series RLC Circuit - Question 13
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In a series RLC circuit, the phase difference between the current in the capacitor and the current in the inductor is?
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 13

In a series RLC circuit, the phase difference between the current in the inductor and the current in the capacitor is 0 degrees because the same current flows in the inductor as well as the capacitor.

Test: Voltage & Current in a Series RLC Circuit - Question 14
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 In a series RLC circuit, the phase difference between the current in the circuit and the voltage across the resistor is?
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 14

In a series RLC circuit, the phase difference between the voltage across the resistor and the current in the circuit is 0 degrees because they are in phase.

Test: Voltage & Current in a Series RLC Circuit - Question 15
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 In a series RLC circuit, the phase difference between the current in the circuit and the voltage across the capacitor is?
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 15

In a series RLC circuit, the phase difference between the voltage across the capacitor and the current in the circuit is 90 degrees.

Test: Voltage & Current in a Series RLC Circuit - Question 16
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In a series RLC circuit, the phase difference between the current in the circuit and the voltage across the inductor is?
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 16

 In a series RLC circuit, the phase difference between the voltage across the inductor and the current in the circuit is 90 degrees.

Test: Voltage & Current in a Series RLC Circuit - Question 17
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 _________ the resonant frequency, the current in the inductor lags the voltage in a series RLC circuit.
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 17

The current in the inductor lags the voltage in a series RLC circuit above the resonant frequency.

Test: Voltage & Current in a Series RLC Circuit - Question 18
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 _________ the resonant frequency, the current in the capacitor leads the voltage in a series RLC circuit.
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 18

The current in the capacitor leads the voltage in a series RLC circuit below the resonant frequency.

Test: Voltage & Current in a Series RLC Circuit - Question 19
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 The current in the inductor ___________ the voltage in a series RLC circuit above the resonant frequency.
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 19

The current in the inductor lags the voltage in a series RLC circuit above the resonant frequency.

Test: Voltage & Current in a Series RLC Circuit - Question 20
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The current in the capacitor ___________ the voltage in a series RLC circuit below the resonant frequency.
Detailed Solution for Test: Voltage & Current in a Series RLC Circuit - Question 20

The current in the capacitor leads the voltage in a series RLC circuit above the resonant frequency.

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