For the bridge circuit in figure, the voltage are:V2= 2 cos (1000 t + 45anddeg;) andVd= 0The value of R = 100 andOmega;. Then Zxwill bea)100 andOmega; resistor in series with 100 mH inductorb)100 andOmega; resistor in series with 100 andmu;F capacitorc)100 andOmega; resistance in parallel with 100 mH inductord)100 andOmega; resistance in parallel with 100 andmu;F capacitorCorrect answer is option 'A'. Can you explain this answer? - EduRev Electrical Engineering (EE) Question

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For the bridge circuit in figure, the voltage are:

V₂ = 2 cos (1000 t + 45°) and

V_d = 0

The value of R = 100 Ω. Then Z_x will be

a)
100 Ω resistor in series with 100 mH inductor
b)
100 Ω resistor in series with 100 μF capacitor
c)
100 Ω resistance in parallel with 100 mH inductor
d)
100 Ω resistance in parallel with 100 μF capacitor

Correct answer is option 'A'. Can you explain this answer?

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For the bridge circuit in figure, the voltage are:V2= 2 cos (1000 t + ...

By applying KVL,

-V₁ + IR - V_d = 0

⇒ V₁ = IR

By applying KVL,

-V₂ + V_d + I Z_x = 0

⇒ I Z_x = V₂

= 2cos(1000t+45^∘ )

⇒ Zxcos(1000t) =

(1000t+45^∘ )

⇒Zx =

= 100 + 100 j

So, Z_x is a 100 Ω resistance in series with 100 Ω inductive reactance

ωL = 100

So, Z_x is a 100 Ω resistance in series with 100 mH inductor

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A reading of 120 is obtained when standard inductor is connected in the circuit of a Q-meter and the variable capacitor is adjusted to value of 300 pF. A lossless capacitor of unknown value Cx is then connected in parallel with the variable capacitor and the same reading is obtained when the variable capacitor is readjusted to a value of 200 pF. The value of Cx in pF is (Answer up to the nearest integer) Correct answer is '100'. Can you explain this answer?

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For the bridge circuit in figure, the voltage are:V2= 2 cos (1000 t + 45°) andVd= 0The value of R = 100 Ω. Then Zxwill bea)100 Ω resistor in series with 100 mH inductorb)100 Ω resistor in series with 100 μF capacitorc)100 Ω resistance in parallel with 100 mH inductord)100 Ω resistance in parallel with 100 μF capacitorCorrect answer is option 'A'. Can you explain this answer?

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For the bridge circuit in figure, the voltage are:V2= 2 cos (1000 t + 45°) andVd= 0The value of R = 100 Ω. Then Zxwill bea)100 Ω resistor in series with 100 mH inductorb)100 Ω resistor in series with 100 μF capacitorc)100 Ω resistance in parallel with 100 mH inductord)100 Ω resistance in parallel with 100 μF capacitorCorrect answer is option 'A'. Can you explain this answer? for Electrical Engineering (EE) 2024 is part of Electrical Engineering (EE) preparation. The Question and answers have been prepared according to the Electrical Engineering (EE) exam syllabus. Information about For the bridge circuit in figure, the voltage are:V2= 2 cos (1000 t + 45°) andVd= 0The value of R = 100 Ω. Then Zxwill bea)100 Ω resistor in series with 100 mH inductorb)100 Ω resistor in series with 100 μF capacitorc)100 Ω resistance in parallel with 100 mH inductord)100 Ω resistance in parallel with 100 μF capacitorCorrect answer is option 'A'. Can you explain this answer? covers all topics & solutions for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for For the bridge circuit in figure, the voltage are:V2= 2 cos (1000 t + 45°) andVd= 0The value of R = 100 Ω. Then Zxwill bea)100 Ω resistor in series with 100 mH inductorb)100 Ω resistor in series with 100 μF capacitorc)100 Ω resistance in parallel with 100 mH inductord)100 Ω resistance in parallel with 100 μF capacitorCorrect answer is option 'A'. Can you explain this answer?.

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