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GATE EE 2000

MCQ (Single Correct Answer)

-0.6

The circuit shown Fig. is equivalent to a load of GATE EE 2000 Electric Circuits - Network Elements Question 23 English

$${4 \over 3}\,\Omega $$

$${8 \over 3}\,\Omega $$

$$4\,\Omega $$

$$2\,\Omega $$

GATE EE 2000

Subjective

-0

Predict the current $${\rm I}$$ in Fig. in response to a voltage of $$20\angle {0^0}\,V.$$ The impedance values are given in $$ohms.$$ Use Thevenin's theorem. GATE EE 2000 Electric Circuits - Network Theorems Question 15 English

GATE EE 2000

MCQ (Single Correct Answer)

-0.6

The impedance seen by the source in the circuit in Fig. is given by GATE EE 2000 Electric Circuits - Sinusoidal Steady State Analysis Question 22 English

GATE EE 2000 Electric Circuits - Sinusoidal Steady State Analysis Question 22 English

$$\left( {0.54 + j0.313} \right)\,ohms$$

$$\left( {4 - j2} \right)\,ohms$$

$$\left( {4.54 - j1.69} \right)\,ohms$$

$$\left( {4 + j2} \right)\,ohms$$

GATE EE 2000

MCQ (Single Correct Answer)

-0.6

If an $$ac$$ voltage wave is corrupted with an arbitrary number of harmonics, then the overall voltage waveform differs from its fundamental frequency component in terms of

only the peak values

only the $$rms$$ values

only the average values

all the three measures (peak, $$rms$$ and average values)

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