Description:
Civil Engineering:
The civil engineering curriculum is designed to give the student a sound education in preparation for this people-oriented, public works profession. The first two years include courses that deal with the principles of mathematics, physical and engineering sciences on which engineering concepts are based, as well as courses in humanities and social sciences and introductory courses in engineering and design. The last two years are devoted to developing the necessary technical competence, as well as the ability to apply the knowledge that the student has acquired to the design and synthesis of complex civil engineering projects.
The civil engineering curriculum is designed to give the student a sound education in preparation for this people-oriented, public works profession. The first two years include courses that deal with the principles of mathematics, physical and engineering sciences on which engineering concepts are based, as well as courses in humanities and social sciences and introductory courses in engineering and design. The last two years are devoted to developing the necessary technical competence, as well as the ability to apply the knowledge that the student has acquired to the design and synthesis of complex civil engineering projects.
Computer Science Engineering:
The Computer Science curriculum prepares students for careers in all areas of the computer industry as well as for graduate studies in computer science and computer related fields. Students have also found a computer science major to be excellent preparation for careers in law, medicine, business administration, industrial engineering, biomedical engineering, and other technical and non-technical fields.
The Computer Science curriculum prepares students for careers in all areas of the computer industry as well as for graduate studies in computer science and computer related fields. Students have also found a computer science major to be excellent preparation for careers in law, medicine, business administration, industrial engineering, biomedical engineering, and other technical and non-technical fields.
Electronic Engineering:
ECE combine coursework with rigorous laboratory experiences to help you discover and understand the laws, principles, and concepts of electrical and computer engineering. You’ll work with cutting-edge equipment provided by Eagle Test Systems and Texas Instruments, as you put theory into practice testing complex electronics for automotive, computing, telecommunications, aerospace, and defense industries.
ECE combine coursework with rigorous laboratory experiences to help you discover and understand the laws, principles, and concepts of electrical and computer engineering. You’ll work with cutting-edge equipment provided by Eagle Test Systems and Texas Instruments, as you put theory into practice testing complex electronics for automotive, computing, telecommunications, aerospace, and defense industries.
Electrical Engineering:
Electrical Engineering (EE) is a professional engineering discipline that deals with the study and application of electricity, electronics and electromagnetism. Common EE tasks include designing communication systems, energy conversion and power delivery, control systems applications, design of analog and digital systems, and others.
Electrical Engineering (EE) is a professional engineering discipline that deals with the study and application of electricity, electronics and electromagnetism. Common EE tasks include designing communication systems, energy conversion and power delivery, control systems applications, design of analog and digital systems, and others.
Mechanical Engineering:
The mechanical engineering curriculum is designed to prepare students for productive careers in industry, government, education and private consulting as well as for graduate study. Thus, it is based on the fundamental principles of science and engineering. These provide a strong foundation that enables students to apply what they have learned to the complex technological problems of today and to teach themselves the new technologies of tomorrow.
The mechanical engineering curriculum is designed to prepare students for productive careers in industry, government, education and private consulting as well as for graduate study. Thus, it is based on the fundamental principles of science and engineering. These provide a strong foundation that enables students to apply what they have learned to the complex technological problems of today and to teach themselves the new technologies of tomorrow.
Fee Structure
B.Tech courses
Tuition Fee Rs.45000/- per year
Tuition Fee Rs.45000/- per year