The college is offering B. Tech Degree in :
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S. No
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Course
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Sanctioned Intake
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|
1
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COMPUTER SCIENCE AND ENGINEERING
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120
|
|
2
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ELECTRONICS AND COMMUNICATION ENGINEERING
|
120
|
|
3
|
ELECTRICAL AND ELECTRONICS ENGINEERING
|
60
|
|
4
|
MECHANICAL ENGINEERING
|
120
|
What is Computer Science and Engineering?
Computer Science and Engineering (CSE) is an evolutionary degree program that has emerged from electrical engineering and computer science that deals with many aspects of computer systems. This degree program combines analytical skills, hardware expertise, and software knowledge. Computer engineers may design computer systems, networks, operating systems, or software.
What is Computer Science?
Computer Science is the systematic study of algorithmic methods for representing and transforming information, including their theory, design, implementation, application, and efficiency. The discipline emerged in the 1950s from the development of computability theory and the invention of the stored-program electronic computer. The roots of computer science extend deeply into mathematics and engineering. Mathematics imparts analysis to the field; engineering imparts design.
What is Computer Engineering?
Computer Engineering is the design and prototyping of computing devices and systems. While sharing much history and many areas of interest with Computer Science, Computer Engineering concentrates its effort on the ways in which computing ideas are mapped into working physical systems. Emerging equally from the disciplines of Computer Science and Electrical Engineering, Computer Engineering rests on the intellectual foundations of these disciplines, the basic physical sciences and mathematics.
What is Electronics and Communication Engineering?
Electronics and Communication Engineering (ECE) is much more than just building electrical circuits. ECE engineers are responsible for integrating electronic devices, communication systems, and electric power into all aspects of our daily lives. The ECE program is designed to prepare students to work in manufacturing, energy systems, robotics, circuits, communications, information processing and biomedical engineering.
Why Electrical Engineering?
Electrical engineering is an integral part of our lives: biomedical instrumentation developed by electrical engineering—e.g. the pacemaker, CAT scan, and MRI—saves lives; nanotechnology produces new materials and devices; consumer electronics and video games produced by electrical engineers provide entertainment around the world. Electrical engineering contributes, on some level, to nearly everything we do.
Whether we are working with environmental engineers, a car manufacturing company, or medical specialists, electrical engineers are involved at nearly every step from design to implementation for electronic devices and systems.
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Electrical engineering jobs represent over 25% of all available jobs in engineering!
What is Mechanical Engineering
Mechanical engineering (ME) is one of the most versatile and multidisciplinary engineering disciplines. ME encompasses almost all aspects of modern technology from man-made devices to biological systems. Mechanical engineers design, develop, and manufacture every kind of vehicle, power system, machine, and tool. Any type of machine that produces, transmits, or uses power is most likely the product of a mechanical engineer. Mechanical Engineers are also expected to understand and be able to apply concepts from the chemistry, math, physics, and electrical engineering fields.
Careers in Mechanical Engineering
Mechanical engineering graduates qualify for jobs in areas such as computer-aided engineering (finite element method, virtual prototyping, computer-aided manufacturing), fluid mechanics, solid mechanics, heat transfer, manufacturing, robotics, control systems, stress analysis, applied thermodynamics, combustion, heating, refrigeration and air conditioning, and turbo machinery. Moreover, emerging technologies in biotechnology, materials science, and nanotechnology are likely to create new job opportunities for mechanical engineers. ME graduates work in one of several departments of businesses including design, manufacturing, research, testing, and management. They work in diverse industries such as aerospace, automotive, electronics, energy, HVAC, manufacturing, materials processing, medical device, nuclear, and pharmaceutical industries as lead personnel.