#1
25th June 2012, 04:37 PM
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MHT-CET online test
I want to sit in MHT-CET test 2012 and for that I want to apply online. Is it possible? If yes, give me the page or link from where I can apply online and also tell me how much I have to pay for it.
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#2
25th June 2012, 06:13 PM
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Re: MHT-CET online test
For Maharashtra Common Entrance Test there is no any scheme of online registration. Candidate can download application form and brochure from website of Maharashtra State Directorate of Technical Education which is dte.org.in/ . Cost of the Application Form along with Brochures of MHT-CET-2012 including Examination fee is Rs.700/- and Rs.500/- for reserve category candidates |
#3
25th March 2015, 12:53 PM
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Re: MHT-CET online test
Hey, I am preparing for MHT-CET exam , I requires sample paper of the exam , will you provide me the sample paper of the MHT-CET test?
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#4
25th March 2015, 12:56 PM
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Re: MHT-CET online test
As you want I am here providing you sample paper of the MHT-CET exam. Sample paper : 4. According to Prevost’s theory every object (A) radiates heat at the temperature above room temperature (B) absorbs heat at the temperature above room temperature (C) radiates heat at all temperatures (D) reflects radiant heat at all temperatures 5. When interference pattern is obtained the distance between the mid point of the 6th dark band on one side and 4th bright band on the other side of the central bright band is (A) 2 times the band width (B) 10.5 times the band width (C) 9.5 times the band width (D) 10 times the band width 6. The internal resistance of lead acid cell is less than the internal resistance of (A) Daniell cell (B) Leclanche cell (C) dry cell (D) all of these 7. A resistance of 2 is connected in parallel to a galvanometer of resistance 48 . The fraction of the total current passing through the resistance of 2 is (A) 92% (B) 94% (C) 96% (D) 98% 8. A coil and a bar magnet move in the same direction with same high speed then (A) high emf is induced across the coil (B) no emf is induced across the coil (C) low emf is induced across the coil (D) magnetic flux linked with the coil changes fast |
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