#1
19th August 2014, 02:59 PM
| |||
| |||
Question paper for Diploma CET E&C
Please provide me question paper for KEA Diploma-Common Entrance Test (Diploma-CET) soon ?
|
#2
19th August 2014, 04:09 PM
| |||
| |||
Re: Question paper for Diploma CET E&C
Here I am giving you question paper for KEA Diploma-Common Entrance Test (Diploma-CET) in an image attached with it so you can get it easily. Paper Pattern: The exam will have 180 objective type questions Duration of three hours Each answer carries one mark. The questions will be based on following topcis : Applied Mathematics, Applied Science and Engineering Paper (Ceramics / Civil / Mechanical / Electronics and Communication / Mining / Textile / Chemical /Computer Science / Electrical and Electronics /Biotechnology / Environmental /Aeronautical ) |
#3
24th March 2015, 05:00 PM
| |||
| |||
Re: Question paper for Diploma CET E&C
Will you please provide the Karnataka Diploma CET V Semester Electronics and Communication Engineering exam question paper ?
|
#4
24th March 2015, 05:11 PM
| |||
| |||
Re: Question paper for Diploma CET E&C
Here I am providing the information regarding the Karnataka Diploma CET V Semester Electronics and Communication Engineering Exam Question Paper for your idea . Time Allowed: 3 hrs Maximum Marks :100 marks Karnataka Diploma CET V Semester Electronics and Communication Engineering exam paper |
#5
8th October 2019, 12:31 PM
| |||
| |||
Re: Question paper for Diploma CET E&C
here I am looking for Karnataka Diploma CET E&C (Electronics and Communication Engineering) Question paper for this exam preparation , so will you plz provide me same here ??
|
#6
8th October 2019, 01:14 PM
| |||
| |||
Re: Question paper for Diploma CET E&C
As you want here I am giving bellow Karnataka Diploma CET E&C (Electronics and Communication Engineering) Question paper on your demand : 1. The property of light that Huygen's wave theory could explain is (A) Polarisation (C) Interference (B) Photoelectric effect (D) Compton effect 2. The spectrum of black body radiation is successfully explained by (A) Newton's corpuscular theory of light (B) Huygen's wave theory of light (C) Maxwell's electromagnetic theory of light (D) Planck's quantum theory of light 3. For constructive interference of light, the path difference should be /nk (A) 1 (B) (211+1) (C) (2n+1)` (D) (2n +1) k 4. Two very close objects are just resolved if the central maximum of one object is on (A) central maximum of another (B) first minimum of another (C) beyond second minimum of another (D) between central maximum and first minimum of another 5. The light is incident at polarising angle Op and the angle of refraction is r, then (A) Op+ r = 0 (C) Op+ r = 180 (B) 01)+ r = 90 (D) 01)+ r = 360 Karnataka Diploma CET E&C (Electronics and Communication Engineering) Question paper |