JEE Question Paper 2004.
Joint Entrance Examination (JEE) Admission to Undergraduate Engineering Programs at NITs, IIITs, Has been Conducted By IITs For the admission in Engineering Courses This JEE 2004 examination is the procedure to get the admission in MBA
JEE 2004 Question Paper having Physics, Chemistry, Mathematics. This JEE 2004 Question will help all the students for their exam preparation, here the question type is MCQ i.e multiple choice question answers, if this JEE 2004 question paper in pdf file for IIT JEE you can download it in FREE, if Joint Entrance Examination (JEE) 2004 paper in text for JEE you can download JEE 2004 page also just Go to menu bar, Click on File->then Save.
JEE Question Paper 2004
JEE 2004 Question paper Free Download PDF is available in www.oldquestionpapers.net which has been provided by many students this Joint Entrance Examination i.e. JEE 2004 paper is available for all the students in FREE and also IITJEE 2004 question paper fully solved i.e with answer keys and solution.
You can get daily updates on JEE Main 2004 from www.oldquestionpapers.net here you can also check similar links for other related study materials on JEE Screening Entrance 2004 exam. Here JEE 2004 question is also available in English.
Time: 2 hours
Note: Question number 1 to 10 carries 2 marks each and 11 to 20 carries 4 marks each.
A long wire of negligible thickness and mass per unit length X is floating in a liquid such that the top surtace of liquid dips by
a distance If the length of base of vessel is 2a, [lnd surface tension of the liquid. (y <<a)
In Searle’s apparatus diameter of the wire was iiieasured 0.05 cm by screw gauge of least count 0.00 1 ciii. The length ol’ ire was measured 110 cm by meter scale of least couift 0.1 ciii. An external load ol’ 50 N was applied. The extension iii length of wire was measured 0.125 cm by uiicroiiietcr of least count 0.001 ciii. Find the maximum possible error iii measurement oiyoung’s modulus.
A point object is moving with velocity 0.01 rn/s on principal axis towards a con’.ex lens of focal length 0.3 m. Whcn object is at a distance of 0.4 m from the lens, find
(a) rate of change of position of the image, and
(b) rate of change of lateral magnification of image.