# GATE EE Question Paper 2019-20

GATE EE Question Paper 2019-20

GATE i.e. Graduate Aptitude Test in Engineering Electrical Engineering 2019-20 Exam Has been Conducted by IISc Bangalore IIT Bombay IIT Delhi IIT Guwahati IIT Kanpur IIT Kharagpur IIT Madras IIT Roorkee. This GATE EE 2019-20 examination is the procedure to get the admission in M.Tech

GATE Electrical Engineering i.e. EE Question Paper, This GATE EE 2019-20 Question will help all the students for their exam preparation, here the question type is MCQ i.e multiple choice question answers, if this GATE EE 2019-20 question paper in pdf file for GATE EE you can download it in FREE, if GATE Electrical Engineering 2019-20 paper in text for GATE EE you can download GATE EE 2019-20 page also just Go to menu bar, Click on File->then Save.

GATE EE 2019-20 Question paper Free Download PDF is available in www.oldquestionpapers.net which has been provided by many students this GATE Electrical Engineering 2019-20 paper is available for all the students in FREE and also GATE EE 2019-20 question paper fully solved i.e with answer keys and solution.

## GATE EE Question Paper 2019-20

You can get daily updates on GATE EE 2019-20 from www.oldquestionpapers.net here  you can also check similar links for other related study materials on  GATE Electrical Engineering exam. Here GATE EE 2019-20 question is also available in English.

Q.10 The slip of an induction motor normally does not depend on
(A) rotor speed (B) synchronous speed
(C) shaft torque (D) core-loss component

Q.13 The bridge method commonly used for finding mutual inductance is
(A) Heaviside Campbell bridge (B) Schering bridge
(C) De Sauty bridge (D) Wien bridge

Q.19 The output Y of a 2-bit comparator is logic 1 whenever the 2-bit input A is greater than the 2-bit input B. The number of combinations for which the output is logic 1. is
(A)4 (B)6 (C)8 (D)1O

Q.24 The typical ratio of latching current to holding current in a 20 A thyristor is
(A) 5.0
(B) 2.0
(C) 1.0
(D) 0.5

Q.34 A cylindrical rotor generator delivers 0.5 pu power in the steady-state to an infinite bus through a transmission line of reactance 0.5 pu. The generator no-load voltage is 1.5 pu and the infinite bus voltage is 1 pu. The inertia constant of the generator is 5 MW-s/IvWA and the generator reactance is 1 pu. The critical clearing angle, in degrees, for a three-phase dead short circuit fault at the generator tenninal is
(A) 53.5 (B) 60.2 (C) 70.8 (D) 79.6

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