A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source. The voltage across the resistance and the capacitance are shown in the figure. The voltage across the inductor (VL) is __________VCorrect answer is between '50,50'. Can you explain this answer?

Explore Courses UPSC Exam UPSC Test Series Free Notes EduRev Infinity

Open App

GATE Exam > GATE Questions > A series R-L-C circuit is excited with a 50V,...

Join the Discussion on the App

A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source. The voltage across the resistance and the capacitance are shown in the figure. The voltage across the inductor (V_L) is __________V

Correct answer is between '50,50'. Can you explain this answer?

FREE This question is part of

Instrumentation Engineering - IN 2017 GATE Paper MCQ Quiz

Attempt Test

Attempt this Test

Verified Answer

A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source....

bc3 V_R = V = 50V ⇒ The circuit is at resonance
at resonance V_L = V_c ⇒ V_L = 50V

View all questions of this test

View all answers Start learning for free

< Previous Question Next Question >

Explore Courses for GATE exam

Similar GATE Doubts

A single-phase, 4 kVA, 200 V/100 V, 50 Hz transformer with laminated CRGO steel core has rated no-load loss of 450 W. When the high-voltage winding is excited with 160 V, 40 Hz sinusoidal ac supply, the no-load losses are found to be 320 W. When the high-voltage winding of the same transformer is supplied from a 100 V, 25 Hz sinusoidal ac source, the no-load losses will be _________W (rounded off to 2 decimal places). Correct answer is '162.50'. Can you explain this answer?

View answer

A capacitor is added to the portion of the resistance of a multiplier in order to make the pressure coilcircuit non-inductive. T he value of resistance is r while the tot al resistance and inductance of pressurecircuit are respect ively RP and L. T he value of capacitance C is

View answer

In a 132 kV system, the series inductance up to the point of circuit breaker location is 50 mH. The shunt capacitance at the circuit breaker terminal is 0.05 μF. The critical value of resistance in ohms required to be connected across the circuit breaker contacts which will give no transient oscillation is _____________. Correct answer is '500'. Can you explain this answer?

View answer

A 3-phase, 50 Hz, 12 pole induction motor has star connected rotor and the resistance measured across any two slip ring is 0.04 Ω. Its full load slip is 0.02 the torque required by the load varies as the speed squared. The torque slip curve to be a straight line. In the normal operating region. The resistance to be inserted in the rotor circuit to reduce the full load speed 350 RPM is ______ Correct answer is between '0.5,0.6'. Can you explain this answer?

View answer

The circuit below is excited by a sinusoidal source. The value of R, in Ω for which the admittance of the circuit becomes a pure conductance at all frequencies is _____________. Correct answer is '14.14'. Can you explain this answer?

View answer

Share with a Friend

Answer this doubt

Question Description
A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source. The voltage across the resistance and the capacitance are shown in the figure. The voltage across the inductor (VL) is __________VCorrect answer is between '50,50'. Can you explain this answer? for GATE 2024 is part of GATE preparation. The Question and answers have been prepared according to the GATE exam syllabus. Information about A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source. The voltage across the resistance and the capacitance are shown in the figure. The voltage across the inductor (VL) is __________VCorrect answer is between '50,50'. Can you explain this answer? covers all topics & solutions for GATE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source. The voltage across the resistance and the capacitance are shown in the figure. The voltage across the inductor (VL) is __________VCorrect answer is between '50,50'. Can you explain this answer?.

Solutions for A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source. The voltage across the resistance and the capacitance are shown in the figure. The voltage across the inductor (VL) is __________VCorrect answer is between '50,50'. Can you explain this answer? in English & in Hindi are available as part of our courses for GATE. Download more important topics, notes, lectures and mock test series for GATE Exam by signing up for free.

Here you can find the meaning of A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source. The voltage across the resistance and the capacitance are shown in the figure. The voltage across the inductor (VL) is __________VCorrect answer is between '50,50'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source. The voltage across the resistance and the capacitance are shown in the figure. The voltage across the inductor (VL) is __________VCorrect answer is between '50,50'. Can you explain this answer?, a detailed solution for A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source. The voltage across the resistance and the capacitance are shown in the figure. The voltage across the inductor (VL) is __________VCorrect answer is between '50,50'. Can you explain this answer? has been provided alongside types of A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source. The voltage across the resistance and the capacitance are shown in the figure. The voltage across the inductor (VL) is __________VCorrect answer is between '50,50'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice A series R-L-C circuit is excited with a 50V, 50 Hz sinusoidal source. The voltage across the resistance and the capacitance are shown in the figure. The voltage across the inductor (VL) is __________VCorrect answer is between '50,50'. Can you explain this answer? tests, examples and also practice GATE tests.

Explore Courses for GATE exam