What Is Mock Seat Allocation In JoSAA? JEE Main + JEE Advanced Counselling
What Is JoSAA?
Now conducted twice in a year, and by NTA (National Testing Agency), JEEs are largest engineering entrance exams of the nation. JEEs because two major 1st stage and 2nd stage exams are included in this procedure. First being, JEE Main and second being JEE Advances. Both the exams are conducted by the Government of India just to provide admission to engineering volunteers in best Engineering colleges of the nation.
But, JoSAA is a counselling procedure that is limited to IITs (Indian Institute Of Technology), NITs (National Institute of Technology), IIEST (Indian Institute of Engineering Science And Technology, Shibpur); IIITs (Indian Institute of Information Technology) and other GFTIs (Government Funded Technical Institutes).
To be precise, a total of 23 IITs, 31 NITs, 25 IIITs and 28 other GFTIs are there to accept admissions through the JoSAA Counselling. The main events of the JoSAA counselling are fixed ie. checking the institution profile, seat matrix, documents to be submitted at the Regional Centre or RC, Certificate Format, List of reporting centres in IITs, list of reporting centres in NITs, IIITs, and other-GFTIs. On the day of writing this article, the latest in news is JoSAA 2019 registration and choice filling: 16 June 2019 to 25 June 2019.
JoSAA just came in 2016. Before that, counselling for the listed technical institutions after JEE Mains and JEE Advanced used to be conducted by Central Seat Allocation Board – Joint Entrance Examination (Main). Still, last or the special round of counselling is being done by CSAB only. Please note that there is a very big difference between a special round of counselling or spot round of counselling.
Also, before appearing in the special round of counselling, the candidate must go through the additional business rule for successful counselling procedure. There have been cases in which following misinformation, even JEE Main and JEE Advanced good rank holders have not been able to select the right college.
Following this issue of being mistaken to select information, mock seat allotment or mock seat allocation procedure is being carried out by JoSAA. It is just a pre-practice session to teach students how to actually select their college. Counselling schedule for 2019 is already out by JoSAA which is as follows –
On 30 April 2019, National Testing Agency (NTA) declared the JEE (Main) 2019 Ranks, again on 14 June 2019, Announcement of JEE (Advanced) 2019 Results was done. After 16 June 2019, 10:00 AM, Candidate registration and Choice filling for academic programs under JoSAA STARTS; Candidates who would write AAT can fill their choices starting from June 21, 2019, after the declaration of AAT results.
Again on the same time on 22 June and 24 June respectively, Display of Mock Seat Allocation-1 based on the choices filled-in by candidates as on June 21, 2019, 17:00 IST and Display of Mock Seat Allocation-2 based on the choices filled-in by candidates as on June 23, 2019, 17:00 IST.
Finally, on 25 June 2019, Candidate registration and Choice filling for academic programs under JoSAA ENDS and on 26 June 2019, Reconciliation of data, Seat Allocation, verification and validation happen. The most awaited event i.e. First Round of Seat Allocation to happen on 27 June 2019. Then, again on 28 June 2019, Document Verification and Acceptance of Seat by reporting at Reporting Centres (Round 1). For Seat Allocation of the second round, Display of seats filled / availability status to be done on July 3, 2019.
Is Engineering Still Worthy?
Do you like solving technical problems? Are you good at science and Maths? You might consider becoming an Engineer. Engineers are problem solvers. who apply the theories and principles of Science and Mathematics to research and develop, economical solutions to technical problems, their work is the link between the perceived social needs and commercial applications.
However, it’s always good to let students know what’s ahead and help them understand how their choices may impact their life. In this section, we are providing the pros and cons of an engineering degree. Pros of an engineering degree, engineering degrees usually dominate the best college degrees lists. It’s a bit easier to get a job with an engineering degree than with humanity.
Degree of Engineering jobs pay well and are more stable than most other careers also. There is a wide variety of job opportunities. If you like solving problems then the right engineering job will keep you busy, happy, you would finally know how things work in real life. You would finally learn the science or engineering behind all the machines. You can design and implement your own creation, engineers often escalate to management positions and earn excellent money over the life of their careers.
If a career in research is interesting, an engineering degree can pave the way to further study. An understanding of high-level maths gives a greater understanding of the world around you and the application of this to real problems can be very satisfying, abundant job opportunities worldwide. The world will always get more technologically advanced and will need more engineers. Cons of an engineering degree – the engineering coursework can be quite difficult if you don’t have the aptitude for it. Then you might not be able to get through it. More time in school, than an associate’s degree. Also, the cost for college will be relatively high.
Often engineering students have very little opportunity to take business manufacturing art or writing courses. The amount of stuff you learn at the university is negligible to what you do in the industry. In industry, you will probably solve a problem that has never been encountered before. You need to keep learning new stuff to stay current in your field. The work can be stressful especially when equipment or structure has the potential to impact human life long work hours. It’s hard to maintain a good work-life balance in the initial phase of an engineering career. The workload can be unpredicted and at times, very high competitive atmosphere for promotion, performance is perceived by superiors.
It determines one’s ability to be promoted need to to do a lot of hard work during studies. And also after studies until you get settles in a good job even after that you have to continue to work hard to keep up with the latest technology. Studying never stops, well don’t be scared it is not that difficult. Those who look to keep up with the latest technology. The bottom line is you have to enjoy it if you like tinkering electronics, writing computer programs, design building or taking apart engines. Then you might enjoy being an engineer. It’s a tough decision to make when you are young, but each other to talk to some real engineering.
Most Competitive Branch: Computer Science & Engineering (CSE)
Computer Engineering is a combination of electrical engineering and computer science. As in if you have the electoral engineering curriculum and the computer science curriculum which don’t share really any classes. The computer engineering curriculum is literally 50% of the EE classes and 50% of the CSE classes.
Now this only accounts for your core major classes. It does not include the elective classes in your last year’s where you can choose from a long list of computer engineering, computer science or electrical engineering classes to specialize in that. We will show you at the end that. But let’s dive into specifically what classes you take which you already know if you have seen the computer science and electrical engineering.
On the electrical engineering side, you have to take all their basic circuit classes where you learn resistor, capacitor and inductor circuits. You will solve for the voltage and current moving throughout them and these are the simpler circuits. But, are the techniques and components that are the foundation for circuits that exist everywhere like in Phones, computers, satellites, drones etc. You will learn about the basics of binary and how computers make decisions using ones and zeroes. This includes learning things like logic gates. These take in ones and zeroes and produce a certain output based on the input.
Each different GATE does something different based on those inputs computers have hundreds of millions of those and when strung together can do very advanced digital processing such as for a digital clock, a wristwatch, an alarm system etc. You also take on of their signal processing courses where you look at complicated signals or changing voltages in time and analyze them in detail. This is important in things like filter design, and removing unwanted signals. Just like your radio in your car is being hit by every radio station in your city at once. So, why do you only hear one at a time? will your electronics within the process the signals and filter or remove everything except the one you are listening to.
So, when you tune to let’s say 94.5 FM, your car is allowing signals of 94.5 megahertz to pass to your speaker. But filtering out everything else. So you only hear that station so you analyze the math behind the manipulation of these signals and see how to Herman which frequencies they are made up of. This is essentially a maths class, it involves a good amount of calculus if high-level maths and this class seemed interesting. Then electrical engineering may be better for you, although computer engineers do have to take multiple years of calculus and apply it in some other of the electrical engineering classes as well. So hopefully you enjoy math somewhat before engineering this major. Then lastly you will take half of their electronic courses. This is where you look at the transistor and diode.
A transistor can switch between a high and low voltage like five and zero volts and the computer read these as ones and zeroes. So that’s what we actually mean when we say a computer reads ones and zeros. There are over a billion transistors in your laptop to make it work and store all the data. So you will do circuit analysis but now with the knowledge of how transistors work which are way different than a simple resistor but apply the same principles. Like looking at a voltage in a loop and conservation of current you may have seen in high school physics in the lab. You will hook up circuits on a breadboard.
These are where circuits go for basis texting then once everything seems to work, that’s when you would move it to a circuit board that you have probably seen in computers and phones. How you test them is by using an oscilloscope which is where you literally see the electrical signals or changing the voltage in time. So you will see maybe if the voltage in a transistor is changing between a high and low one. Or as a computer would see when a one or a zero. This is all the hardware the electronics, the circuits, the breadboard etc. that computer engineering needs to learn.
But now let’s get into the software or the computer science side. You will start to learn the basics of the programming and C and Java C and Java are programming languages that have their own syntax and rules. You have to follow to tell the computer what to do. These are the languages that google, facebook, LinkedIn etc. all used to make their websites work. These are not the languages to make the layout of the page or to make it look pretty. That is HTML and CSS. These are the programming languages which are the backbone of the websites. Like how does Google search their database and bring up the results quickly efficiently and with the best results, first to help?
You find what you are looking for or how can Pandora guess songs. You will like based on what you have listened to or rates and so on. These are what programming languages accomplish. Programming is what makes apps, video games and even instructs things like unmanned aircraft and satellites. But you will start from the very beginning if you have never coded before. So in your first class, you might be asked to write a program where a user can type in two numbers and it outputs the sum before they input a list of numbers and it outputs the largest or they input a word.
And, it outputs that work backwards by the end of it. You may be asked to program something like a very basic blackjack game. You also get into some basic algorithms which are kind of like step by step instructions to solve a problem just like this image even. But in programming, you will be asked things like how do you tell the computer to put a list of number as efficiently as possible or how does the computer search. If a number is in a list. So, you got to understand what a computer can do.
This may be easy for us to do. Using our brain, but computers are not free. Thinking they need exact step by step instruction to do what you need them to. As a quick example, if you had a list of numbers in order and the computer had to check if the number 26 is there. Well, you could tell the computer to start with the left cheek, each one until you find 26 or run out of numbers which is probably what you did in your head. Very fast, just now but that takes nine checks. So, what if instead and we took the middle number and 26 is bigger. So we threw out everything else less than or equal to that middle number.
Then with the new list, we did the same thing. Check the middle number and look we already find 26 and even if it were not in the middle. In this check, this is still way often fewer steps than the previous and therefore it’s more efficient than checking each one by one. This is one kind of searching algorithm and is the kind of thinking you will need for programming. Programming mostly does not involve high-level maths. You will not see calculus and basically any undergrad computer science classes. But you need to solve the problem and have the ability to analyze these using simple maths. But in a way clever way that the computer can understand and follow a note we just showed you how the algorithm works in the class.
You would also have to program it using knowledge of the languages lastly one fo the students favourite classes where you learn about the Arduino. This finally, where hardware and circuitry meet programming and you will take electrical engineering. The Arduino has lots of inputs for you to hook up wires from an external circuit as when they basically read in voltages, then you program what you wanted to do based on those inputs. Where you plug in and download the code onto the Arduino then use it for different purposes.
So maybe you use a position sensor connected to a circuit and then connect that to the Arduino. The Arduino reads and voltages which may be higher or lower depending on if an object is close or far. Then Program the Arduino to output voltages which it can do as well when an object is close that spin the wheels of a robotic vehicle to avoid that obstacle and thus you have collision avoidance. Overall, computer engineering is great because you have skill in programming and software side as well as the hardware and circuitry side. So, if you wanted to job at maybe Apple, you could work on their software operating system or iOS.
It’s just a memory or the servers or with their encryption security or you can help with their electronics and hardware. You can ask the people about the fence companies on something like obstacle avoidance for UAVs or create a computer simulation for an aircraft and radar system. To see how to work in theory before designing it probably hard to get that kind of job right out of the school. But you can see how your future career has a lot of potential on top of being a mix of electrical engineering and computer science.
You will take electives where you can choose from any of the upper-division. Computer Engineering, Electrical Engineering or Computer Science classes. Some may include computer security and learning about firewalls and access control computer vision and looking at image processing of 2D and 3D images on the computer like facial recognition software. Autonomous robot navigation and programming vehicles to move around automatically, web development and interactive website design and of course so much more.
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