Amity University, Noida B.Tech Admissions 2024
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JEE Advanced 2024 College Predictor
Course | Category | Opening All India rank | Closing All India rank |
---|---|---|---|
B.Tech Biochemical Engineering and Biotechnology | General - | 2745 | 10103 |
B.Tech Chemical Engineering | General - | 1261 | 4570 |
B.Tech Civil Engineering | General - | 2766 | 8274 |
B.Tech Computer Science and Engineering | General - | 29 | 450 |
B.Tech Electrical Engineering | General - | 358 | 1572 |
B.Tech Energy Engineering | General - | 2360 | 6398 |
B.Tech Engineering Physics | General - | 1404 | 6738 |
B.Tech Engineering and Computational Mechanics | General - | 819 | 2792 |
B.Tech Material Engineering | General - | 2966 | 10094 |
B.Tech Mathematics and Computing | General - | 140 | 942 |
B.Tech Mechanical Engineering | General - | 918 | 4401 |
B.Tech Power and Automation | General - | 603 | 2088 |
B.Tech Production and Industrial Engineering | General - | 1928 | 9192 |
B.Tech Textile Technology | General - | 4097 | 12034 |
B.Tech and M.Tech Chemical Engineering | General - | 2918 | 7820 |
B.Tech and M.Tech Computer Science and Engineering | General - | 116 | 700 |
B.Tech and M.Tech Mathematics and Computing | General - | 314 | 1026 |
The Joint Seat Allocation Authority (JoSAA) is responsible for releasing the IIT Delhi JEE Advanced cutoff 2024. The minimum marks required by the candidates to get admission into the B.Tech course offered by the institute are made available through the IIT Delhi cutoff 2024. Candidates can check the IIT Delhi JEE Main cutoff 2023 in the form of the opening and closing ranks. IIT Delhi JEE Main cutoff 2024 is regarded as the minimum mark required by candidates to participate further in admissions rounds.
The authorities release the JEE Advanced cutoff for IIT Delhi separately for different courses and categories of candidates. While preparing for the IIT Delhi cutoff 2024, the authorities consider many factors such as the difficulty level of the exam, the total number of applicants, the previous year's JEE Advanced cutoff trends, availability of seats, and much more.
Every year IIT Delhi cutoff varies from course to course for each category. IIT Delhi cutoffs 2024 will soon released by the counselling authorities. Candidates can check the given below table for a comparative analysis of the IIT Delhi cutoff for the last 3 previous years.
Courses | 2023 | 2022 | 2021 |
5139 | 4684 | 4436 | |
2361 | 2291 | 2213 | |
3996 | 3886 | 3194 | |
4237 | 4261 | 3607 | |
115 | 102 | 99 | |
185 | 196 | 180 | |
576 | 574 | 543 | |
792 | 797 | 841 | |
2785 | 2839 | 2646 | |
1160 | 1314 | 1258 | |
2562 | 2656 | 2142 | |
4015 | 4083 | 4072 | |
350 | 306 | 315 | |
429 | 401 | 376 | |
1757 | 1865 | 1675 | |
3213 | 3372 | 3112 | |
6100 | 5649 | 5470 |
Category | Minimum Percentage of Marks in Each Subject | Minimum Percentage of Aggregate Marks |
Common rank list (CRL) | 10 | 35 |
GEN-EWS rank list | 9 | 31.5 |
OBC-NCL rank list | 9 | 31.5 |
SC rank list | 5 | 17.5 |
ST | 5 | 17.5 |
Common-PwD rank list (CRL) | 5 | 17.5 |
OBC-NCL-PwD rank list | 5 | 17.5 |
SC-PwD rank list | 5 | 17.5 |
ST-PwD rank list | 5 | 17.5 |
Preparatory course rank lists | 2.5 | 8.75 |
Course Name | Category | Gender Neutral | Female Only |
Biotechnology and Biochemical Engineering | OBC | 2771 | 5690 |
EWS | 561 | 1081 | |
General | 4403 | 6971 | |
SC | 1720 | 2587 | |
ST | 741 | - | |
Chemical Engineering | OBC | 1242 | 2587 |
EWS | 267 | 901 | |
General | 1940 | 3932 | |
SC | 753 | 1065 | |
ST | 333 | - | |
Civil Engineering | OBC | 1329 | 3108 |
EWS | 331 | 1176 | |
General | 3429 | 5854 | |
SC | 681 | 964 | |
ST | 74 | 330 | |
Computer Science and Engineering | OBC | 65 | 197 |
EWS | 12 | 62 | |
General | 93 | 465 | |
SC | 39 | 115 | |
ST | 19 | 107 | |
Electrical Engineering | OBC | 295 | 1156 |
EWS | 46 | 120 | |
General | 469 | 1676 | |
SC | 152 | 285 | |
ST | 54 | 32 | |
Electrical Engineering (Power and Automation) | OBC | 525 | 1288 |
EWS | 96 | - | |
General | 802 | 2287 | |
SC | 348 | 565 | |
ST | 174 | 460 | |
Engineering Physics | OBC | 1631 | 3710 |
EWS | 299 | 706 | |
General | 2849 | 5946 | |
SC | 1298 | - | |
ST | 482 | 1100 | |
Mathematics and Computing | OBC | 247 | 866 |
EWS | 29 | 89 | |
General | 314 | 989 | |
SC | 207 | 558 | |
ST | 145 | 437 | |
Mechanical Engineering | OBC | 606 | 2481 |
EWS | 113 | 780 | |
General | 1222 | 4125 | |
SC | 310 | 785 | |
ST | 108 | 1008 | |
Production and Industrial Engineering | OBC | 1752 | 4530 |
EWS | 435 | 1346 | |
General | 3253 | 7047 | |
SC | 1372 | 2176 | |
ST | 660 | - | |
Textile Technology | OBC | 3258 | 6542 |
EWS | 694 | 1727 | |
General | 6549 | 9677 | |
SC | 2162 | 2605 | |
ST | 1020 | - |
Name of the Courses | Categories | Opening Rank | Closing Rank |
General | 1854 | 3650 | |
OBC NCL | 1849 | 2574 | |
SC | 1065 | 1177 | |
ST | 309 | 743 | |
General | 1141 | 1874 | |
OBC NCL | 547 | 1148 | |
SC | 304 | 636 | |
ST | 217 | 337 | |
General | 792 | 3107 | |
OBC NCL | 743 | 1224 | |
SC | 153 | 491 | |
ST | 29 | 87 | |
General | 3 | 100 | |
OBC NCL | 38 | 65 | |
SC | 16 | 31 | |
ST | 12 | 25 | |
General | 172 | 462 | |
OBC NCL | 102 | 271 | |
SC | 32 | 113 | |
ST | 19 | 69 | |
Electrical Engineering (Power and Automation) | General | 502 | 927 |
OBC NCL | 317 | 522 | |
SC | 155 | 326 | |
ST | 106 | 171 | |
General | 882 | 2097 | |
OBC NCL | 1028 | 1798 | |
SC | 420 | 943 | |
ST | 166 | 487 | |
General | 196 | 300 | |
OBC NCL | 139 | 174 | |
SC | 49 | 136 | |
ST | 65 | 170 | |
General | 545 | 1025 | |
OBC NCL | 327 | 547 | |
SC | 166 | 226 | |
ST | 18 | 77 | |
General | 1538 | 3070 | |
OBC NCL | 1083 | 1747 | |
SC | 712 | 1002 | |
ST | 483 | 660 | |
General | 3624 | 6076 | |
OBC NCL | 1256 | 3258 | |
SC | 1011 | 1769 | |
ST | 675 | 141P* |
Name of the Courses | Categories | Opening Rank | Closing Rank |
General | 2858 | 3860 | |
OBC NCL | 1157 | 2131 | |
SC | 1054 | 1349 | |
ST | 523 | 675 | |
General | 949 | 1780 | |
OBC NCL | 634 | 981 | |
SC | 207 | 671 | |
ST | 157 | 300 | |
General | 701 | 2869 | |
OBC NCL | 486 | 980 | |
SC | 226 | 532 | |
ST | 10 | 53 | |
General | 3 | 104 | |
OBC NCL | 21 | 67 | |
SC | 17 | 35 | |
ST | 5 | 25 | |
General | 226 | 416 | |
OBC NCL | 108 | 203 | |
SC | 36 | 106 | |
ST | 1 | 43 | |
Electrical Engineering (Power and Automation) | General | 467 | 928 |
OBC NCL | 293 | 484 | |
SC | 214 | 270 | |
ST | 69 | 113 | |
General | 1115 | 2433 | |
OBC NCL | 704 | 1466 | |
SC | 463 | 764 | |
ST | 465 | 613 | |
General | 207 | 329 | |
OBC NCL | 136 | 232 | |
SC | 66 | 150 | |
ST | 95 | 109 | |
General | 445 | 944 | |
OBC NCL | 210 | 452 | |
SC | 11 | 188 | |
ST | 24 | 60 | |
General | 1694 | 2637 | |
OBC NCL | 905 | 1517 | |
SC | 584 | 1046 | |
ST | 427 | 471 | |
General | 2958 | 5161 | |
OBC NCL | 1700 | 2787 | |
SC | 1349 | 1809 | |
ST | 445 | 725 |
For admission to IIT Delhi PG courses, candidates are advised to check the GATE cutoff released by the institute. Students need to appear for the GATE examination and after the declaration of the results, the IIT Delhi GATE cutoff will be released. Candidates meeting the cutoff can proceed with the admission process.
Name of Programme | Category | Cutoff |
Biomedical Engineering | General | 650 |
OBC | 650 | |
SC | 500 | |
EWS | 617 | |
SC | 585 | |
ST | 585 | |
General (PwD) | 585 | |
OBC (PwD) | 585 | |
SC (PwD) | 585 | |
ST (PwD) | 585 | |
M.Tech Chemical Engineering | General | 470 |
EWS | 470 | |
OBC | 423 | |
SC | 376 | |
ST | 376 | |
General (PwD) | 376 | |
OBC (PwD) | 376 | |
SC (PwD) | 376 | |
ST (PwD) | 376 | |
M.Tech Structural Engineering | General | 650 |
EWS | 650 | |
OBC | 650 | |
SC | 550 | |
ST | 550 | |
General (PwD) | 350 | |
EWS(PwD) | 350 | |
OBC (PwD) | 350 | |
SC (PwD) | 350 | |
ST (PwD) | 350 | |
M.Tech Computer Science and Engineering | General | 800 |
EWS | 800 | |
OBC | 720 | |
SC | 550 | |
ST | 550 | |
General (PwD) | 550 | |
OBC (PwD) | 550 | |
SC (PwD ) | 550 | |
ST (PwD) | 550 | |
M.Tech Communications Engineering | General | 730 |
OBC | 650 | |
SC | 470 | |
ST | 350 | |
General (PwD) | 350 | |
OBC (PwD) | 350 | |
SC (PwD) | 350 | |
ST (PwD) | 350 | |
M.Tech VLSI Design Tools and Technology | General | 775 |
OBC | 775 | |
SC | 725 | |
ST | 725 | |
General (PwD) | 725 | |
OBC (PwD) | 725 | |
SC (PwD) | 725 | |
ST (PwD) | 725 | |
M.Tech Industrial Engineering | General | 725 |
OBC | 650 | |
SC | 500 | |
ST | 300 | |
General (PwD) | 300 | |
OBC (PwD) | 300 | |
SC (PwD) | 300 | |
ST (PwD) | 300 | |
M.Tech Instrument Technology | General | 415 |
OBC | 400 | |
SC | 375 | |
ST | 375 | |
General (PwD) | 375 | |
OBC (PwD) | 375 | |
SC (PwD) | 375 | |
ST (PwD) | 375 | |
M.Tech Design of Mechanical Equipment | General | 725 |
OBC | 650 | |
SC | 500 | |
ST | 300 | |
General (PwD) | 300 | |
OBC (PwD) | 300 | |
SC (PwD) | 300 | |
ST (PwD) | 300 | |
M.Tech Design Engineering | General | 700 |
OBC | 630 | |
SC | 450 | |
ST | 450 | |
General (PwD) | 450 | |
OBC (PwD) | 450 | |
SC (PwD) | 450 | |
ST (PwD) | 450 | |
M.Tech Polymer Science and Technology | General | 600 |
OBC | 600 | |
SC | 480 | |
ST | 480 | |
General (PwD) | 480 | |
OBC (PwD) | 480 | |
SC (PwD) | 480 | |
ST (PwD) | 480 | |
M.Tech Production Engineering | General | 725 |
OBC | 650 | |
SC | 500 | |
ST | 300 | |
General (PwD) | 300 | |
OBC (PwD) | 300 | |
SC (PwD) | 300 | |
ST (PwD) | 300 | |
M.Tech Textile Engineering | General | 600 |
OBC | 540 | |
SC | 400 | |
ST | 400 | |
General (PwD) | 400 | |
OBC (PwD) | 400 | |
SC (PwD) | 400 | |
ST (PwD) | 400 | |
M.Tech Textile Chemical Processing | General | 600 |
OBC | 540 | |
SC | 400 | |
ST | 400 | |
General (PwD) | 400 | |
OBC (PwD) | 400 | |
SC (PwD) | 400 | |
ST (PwD) | 400 | |
M.Tech Fibre Science and Technology | General | 450 |
OBC | 405 | |
SC | 300 | |
ST | 300 | |
General (PwD) | 300 | |
OBC (PwD) | 300 | |
SC (PwD) | 300 | |
ST (PwD) | 300 | |
M.Tech Thermal Engineering | General | 725 |
OBC | 650 | |
SC | 500 | |
ST | 300 | |
General (PwD) | 300 | |
OBC (PwD) | 300 | |
SC (PwD) | 300 | |
ST (PwD) | 300 | |
M.Tech Transportation Engineering | General | 600 |
EWS | 600 | |
OBC | 600 | |
SC | 350 | |
ST | 350 | |
General (PwD) | 350 | |
OBC (PwD) | 350 | |
SC (PwD) | 350 | |
ST (PwD) | 350 |
Note: The Indian Institute of Technology Delhi cutoff varies from one category to another.
IIT Delhi, located in Hauz Khas, New Delhi, is an autonomous globally acclaimed public research and engineering institute.The campus boasts a rich history and is one of the oldest Indian Institutes of Technology in India.
The course is so easy if you are an average student. It is as interesting for me as it can be for you as well. The Physics Department is so helpful and supportive. The Physics Department is open for 24 hours. So you can keep working on your project, as it is so amazing.
Facilities are provided in our college are very good . There are library , study hall , and well equipped and well maintained with the top class material . All of these are available in our college .
Hello!
The eligibility criteria for is BCA, B.Sc, B.Com or a similar stream with at least 50% marks. In addition to this, mathematics is a compulsory subject in class 12.
Here's a list of colleges that offers MCA course with reasonable course fees:
Hope this information will help you. Thank you.
Question : Read the passage and answer the following questions.
IIT Delhi researchers have designed and fabricated a device that can generate electricity from water drops, raindrops, water streams, and even from ocean waves using "Triboelectric Effect" and "Electrostatic Induction". The device is called "Liquid-solid Interface Triboelectric Nanogenerator". The generated electricity can be stored in batteries for further use. Triboelectric effect is a known phenomenon for a long time, and in this effect, charges are generated when two surfaces are in friction. The best example we see are sparkling lights when we move the blankets/jackets.
The device has a very simple structure consisting of specially designed nanocomposite polymers and contact electrodes and can generate a few Milliwatt (mW)power, which is sufficient to power small electronic devices like watches, digital thermometers, radio frequency transmitters, healthcare sensors, pedometers. When compared to conventional methods, such as the use of the piezoelectric effect, the present device can generate significantly more electricity.
The researchers successfully incorporated nanostructures into a polymer matrix, which enhanced the film's surface roughness, polarizability, and hydrophobicity, among other characteristics, as a result. Due to the enhancement in the above property, the flexible film is used to fabricate the device where raindrops have just to slide down and can generate electricity. The artificially created rough surface allows to generate more charge and superhydrophobic properties of the solid surface help to roll the water drop without getting stick to the surface.
The IIT Delhi research team also explored the underlying mechanism of the electricity generated when the water drop comes in contact with the solid surface and it is shown that saline water drops generate more electricity. The researchers also showed that the device can even work with ocean waves, where the water is saline, and through the ocean waves contacting the surface of nanocomposite polymer film, electricity is generated.
Question:
What is the name of the device which is being talked about in the passage?
Option 1: Solid-liquid Interface Triboelectric Nanogenerator
Option 2: Solid Interface Triboelectric Nanogenerator
Option 3: Liquid-Induction Interface Triboelectric Nanogenerator
Option 4: Liquid-solid Interface Triboelectric Nanogenerator
Correct Answer: Liquid-solid Interface Triboelectric Nanogenerator
Solution : The correct option is 4
Liquid-solid Interface Triboelectric Nanogenerator.
Explanation -
Let's focus on the following passage lines:
-- The device is called "Liquid-solid Interface Triboelectric Nanogenerator"
- In light of the foregoing statement, we can conclude that option 4 is the correct response.
Question : Read the passage and answer the following questions.
IIT Delhi researchers have designed and fabricated a device that can generate electricity from water drops, raindrops, water streams, and even from ocean waves using "Triboelectric Effect" and "Electrostatic Induction". The device is called "Liquid-solid Interface Triboelectric Nanogenerator". The generated electricity can be stored in batteries for further use. Triboelectric effect is a known phenomenon for a long time, and in this effect, charges are generated when two surfaces are in friction. The best example we see are sparkling lights when we move the blankets/jackets.
The device has a very simple structure consisting of specially designed nanocomposite polymers and contact electrodes and can generate a few Milliwatt mW power, which is sufficient to power small electronic devices like watches, digital thermometers, radio frequency transmitters, healthcare sensors, pedometers. When compared to conventional methods, such as the use of the piezoelectric effect, the present device can generate significantly more electricity.
The researchers successfully incorporated nanostructures into a polymer matrix, which enhanced the film's surface roughness, polarizability, and hydrophobicity, among other characteristics, as a result. Due to the enhancement in the above property, the flexible film is used to fabricate the device where raindrops have just to slide down and can generate electricity. The artificially created rough surface allows to generate more charge and superhydrophobic properties of the solid surface help to roll the water drop without getting stick to the surface.
The IIT Delhi research team also explored the underlying mechanism of the electricity generated when the water drop comes in contact with the solid surface and it is shown that saline water drops generate more electricity. The researchers also showed that the device can even work with ocean waves, where the water is saline, and through the ocean waves contacting the surface of nanocomposite polymer film, electricity is generated.
Question:Name the electronic devices which can be powered with the device mentioned in the passage:
1. Watches
2. Pedometers
3. Refrigerators
4. Radio Frequency Transmitters
Option 1: Only 1 and 2
Option 2: All 1,2,3, and 4
Option 3: Only 3 and 4
Option 4: Only 1,2 , and 4
Correct Answer: Only 1,2 , and 4
Solution : The correcrt option is 4 i.e "Only 1, 2, and 4."
Explanation:
Let's refer to the following lines of the passage:
The device has a very simple structure consisting of specially designed nanocomposite polymers and contact electrodes and can generate a few Milliwatt (Mw) power, which is sufficient to power small electronic devices like watches, digital thermometers, radio frequency transmitters, healthcare sensors, pedometers.
The above statement clearly mention the watches, pedometers and radio frequency transmitters.
As per last year trends, there are a total of 173 seats available in IIT Delhi for management programme. For MBA course there are a total of 90 seats available, for MBA Telecom there are 23 seats and for Executive MBA there a total of 60 seats. In Management category IIT Delhi secured 8th rank in NIRF Ranking.
JEE Advanced cutoff for IIT Delhi will be released by Joint Seat Allocation Authority (JoSAA).
The JEE Advanced cutoff for IIT Delhi will be prepared by the authorities considering various factors such as previous year cutoff trends, level of exam difficulty, number of applicants and more.
Yes, it is released separately for the various courses offered at IIT Delhi.
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