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GATE Electrical Engineering Mastery Hub: Practice Test 2026

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Q1Domain Verified
In a series RLC circuit driven by a sinusoidal voltage source, what is the condition for maximum voltage across the inductor, and what is the impedance at this condition?
Damping ratio = 1; Z = R
Maximum current; Z = 0
Unity power factor; Z = R
Resonance; Z = R
Q2Domain Verified
Consider a linear, time-invariant (LTI) network with impedance $Z(s)$. If the network is subjected to a unit step input voltage $V(s) = 1/s$, and the network's natural response (transient) is characterized by poles at $s = -1$ and $s = -2$, what is the steady-state value of the output current $i(t)$?
{ "text": "", "is_correct": false }
The sum of the residues of $I(s)$ at the poles of $V(s)$.
1
The residue of $I(s)$ at $s=0$.
Q3Domain Verified
For a non-ideal transformer with winding resistances $R_1$ and $R_2$, leakage reactances $X_{L1}$ and $X_{L2}$, and magnetizing reactance $X_m$, derive an expression for the input impedance seen at the primary terminals when the secondary is terminated with a load impedance $Z_L$. Assume the transformer is ideal in terms of turns ratio $n$.
$Z_{in} = R_1 + jX_{L1} + n^2(R_L + jX_L + jX_m)$
$Z_{in} = R_1 + jX_{L1} + n^2(R_L + jX_L) || (jX_m)$
$Z_{in} = R_1 + jX_{L1} + n^2(R_L + jX_L) + j n^2 X_m$
$Z_{in} = R_1 + jX_{L1} + \frac{1}{n^2}(R_L + jX_L) + j X_m$

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This domain protocol is rigorously covered in our 2026 Elite Framework. Every mock reflects direct alignment with the official assessment criteria to eliminate performance gaps.

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This domain protocol is rigorously covered in our 2026 Elite Framework. Every mock reflects direct alignment with the official assessment criteria to eliminate performance gaps.

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