GATE EE 2026 | GATE EE Year Wise Previous Years Questions - ExamSIDE.Com

General Aptitude

1

GATE EE 2026

MCQ (Single Correct Answer)

+2

-0

The MOSFET switches shown in the circuit are ideal.

Which of the following is the correct option for Boolean logical expression of the output (OUT), and the maximum possible power (P) consumed by the circuit?

A

$\mathrm{OUT}=\overline{A B+\bar{C}}, P=5 \mathrm{~mW}$

B

$\mathrm{OUT}=\overline{(A+B) \bar{C}}, P=5 \mathrm{~mW}$

C

$\mathrm{OUT}=\overline{A B \bar{C}}, P=7.5 \mathrm{~mW}$

D

$\mathrm{OUT}=\overline{A B} C, P=7.5 \mathrm{~mW}$

2

GATE EE 2026

MCQ (Single Correct Answer)

+1

-0

A circuit with ideal elements is shown.

GATE EE 2026 Electric Circuits - Network Elements Question 2 English

Which one of the following options correctly identifies all the linear elements in the circuit?

A

R only

B

R, L, and C only

C

D only

D

L, C and D only

3

GATE EE 2026

MCQ (Single Correct Answer)

+1

-0

For the circuit shown, which one of the following options correctly identifies the Thevenin's equivalent parameters between nodes Y and Z ?

GATE EE 2026 Electric Circuits - Network Theorems Question 1 English

A

$\mathrm{V}_{\mathrm{TH}}=100 \mathrm{~V}, \mathrm{R}_{\mathrm{TH}}=10 \mathrm{k} \Omega$

B

$\mathrm{V}_{\mathrm{TH}}=140 \mathrm{~V}, \mathrm{R}_{\mathrm{TH}}=0 \mathrm{k} \Omega$

C

$\mathrm{V}_{\mathrm{TH}}=100 \mathrm{~V}, \mathrm{R}_{\mathrm{TH}}=0 \mathrm{k} \Omega$

D

$\mathrm{V}_{\mathrm{TH}}=140 \mathrm{~V}, \mathrm{R}_{\mathrm{TH}}=10 \mathrm{k} \Omega$

4

GATE EE 2026

MCQ (Single Correct Answer)

+1

-0

$$ \text { Refer to the four circuits shown. } $$

GATE EE 2026 Electric Circuits - Network Elements Question 1 English

Which one of the following options for $\mathrm{k}_1, \mathrm{k}_2, \mathrm{k}_3$, and $\mathrm{k}_4$ makes all of them realizable?

A

$\mathrm{k}_1=1, \mathrm{k}_4=-\frac{1}{3}$, for all values of $\mathrm{k}_2$ and $\mathrm{k}_3$

B

$\mathrm{k}_2=-2, \mathrm{k}_3=+\frac{1}{3}$, for all values of $\mathrm{k}_1$ and $\mathrm{k}_4$

C

$\mathrm{k}_1=2, \mathrm{k}_2=0.5, \mathrm{k}_3=-\frac{2}{3}, \mathrm{k}_4=-3$

D

$\mathrm{k}_1=2, \mathrm{k}_2=-0.5, \mathrm{k}_3=-\frac{2}{3}, \mathrm{k}_4=+3$

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