GATE EE Question Paper 1995

GATE EE Question Paper 1995.

GATE 1995 Electrical Engineering Question Paper with Answers Free Download

GATE i.e. Graduate Aptitude Test in Engineering Electrical Engineering 1995 Exam Has been Conducted by IISc Bangalore IIT Bombay IIT Delhi IIT Guwahati IIT Kanpur IIT Kharagpur IIT Madras IIT Roorkee. This GATE EE 1995 examination is the procedure to get the admission in M.Tech

GATE Electrical Engineering i.e. EE Question Paper, This GATE EE 1995 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 1995 question paper in pdf file for GATE EE you can download it in FREE, if GATE Electrical Engineering 1995 paper in text for GATE EE you can download GATE EE 1995 page also just Go to menu bar, Click on File->then Save.

GATE EE Question Paper 1995

GATE EE 1995 Question paper Free Download PDF is available in www.oldquestionpapers.net which has been provided by many students this GATE Electrical Engineering 1995 paper is available for all the students in FREE and also GATE EE 1995 question paper fully solved i.e with answer keys and solution.

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The insulation level of a 400 kV EHV overhead transmission line is decided on the basis of

(a) lightning over voltage
(b) switching over voltage
(c) corona inception voltage
d) radio and TV interference

In order to have a lower cost ol electrical energy generation,

(a) the load factor and diversity factor should be low
(b) the load factor should be low but diversity factor should be high
(c) the load factor should be high but diversity factor should be low
(d) the load factor and diversity factor should be

The main criterion for selection of the size of a distribution br a radial distribution system is

(a) voltage drop
(b) corona loss
(c) temperature rise
(d) capital cost

The insulation resistance of a cable of length 10 kin is 1 MO. For a length of 100 km of the same cable, the insulation resistance will be

(a) J MO
(b) 10 M(2
(c) 0.1 M2
(d) 0.01 MO

 

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