This programme pre4pares the students for modern day research in chemical sciences by providing them, besides an in-depth education in chemistry, adequate training in mathematics, Physics, computer and engineering sciences. In the first two semesters of their stay in the programme, they take the same courses as their fellow engineering students. They are thus prepare to do frontline research in interdisciplinary areas, which include materials science, environmental science and molecular biology, in addition to tradition top-0ics in chemistry.

In keeping pace with present global industrial scenario, this five year integrated M.Sc. course in Industrial Chemistry aims at satisfying newer demands of academia and industries. The programme is a unique blend of the fundamentals of chemical concepts and their applications to diverse engineering sciences. It provides an adequate background of graduate level mathematics, physics land computer applicatio0jns to basic inputs into such chemistry allied disciplines as biochemical technology, drugs & pharmaceuticals, agrochemical and food additives, environmental sciences and high-tech materials.

With such wide background and a solid foundation of chemistry and its applications, the graduates will have diverse job opportunities in the production and R&D sectors in private and public organizations, in industries producing bulk and fine chemicals, medicines and chemicals, polymers and polymers products and advanced electronic and engineering materials. The outgoing students will also have ample opportunities in various professional outlets like marketing and quality control and industrial management. In addition, they can enter into training and research in specialized fields of chemical science in this county and abroad.

The salient features of these courses are the emphasis on modernized basic and applied science courses taught by the appropriate science faculties rigorous 18 week field training programme phased over five years, and training in instrumentation and workshop practice, theory and practice in computers including different languages and programming, and a thorough background in the fundamentals of all branches of earth sciences. Both the courses are primarily resources and are complementary to each other.

Applied geologists are increasingly involved in problems relating to harnessing of nature energy resources and environmental control. They work collaterally with engineers and social scientists in a variety of projects which include soil conservation, ground water utilization, multipurpose river valley projects, dam and reservoir site selection, tunneling, highway construction, terrain analysis and evaluation for civil and military purposes, rural development programmes etc.

Exploration geophysicists strive for the development of newer, sophisticated and more reliable techniques and discovering hidden underground mineral ,hydrocarbon and ground water resources not readily available for inspection and assessment. This calls for extensive research on pattern recognition, theoretical scale modeling and laboratory simulation of each conditions within earth's crust.

Central agencies like Geological Survey of India, Oil and Natural gas commission, Central Ground Water Board, State Ground Water Board. Coal India Ltd., oil India Ltd. Steel Authority of India Ltd. National mineral Development Corporation, Hindustan Copper It. Hindustan Zinc Ltd., Department of Atomic Energy, several computer software agencies like CMC, Price water house, ESSAR, Sonata and many other recruit earth scientists regularly,. Mines run by private sectors are also required by law no employ processional geo-scientist.

For those interested in research careers, excellent opportunities exist at places like the National Geophysical Research institute, Indian institute of Geomagnetism, Physical Research Laboratory, the R&D research laboratories on ONGC, ACC and other organizations, in universities and in some IITs.

The course if designed to provide strong foundation in both Mathematics and Computing. It attempts to integrate mathematical and numerical analysis, logic and discrete structures, statistics and operations research with theory and practice in computer science and software technology. In addition to other courses, extensive theory and/or laboratory courses are included covering numerical and non-numerical computing; algorithm, date structures and file organization; systems programming, compiler design, operating systems and database system; computer simulation and logic programming. Computer graphics, symbolic computation, artificial intelligence, software design theory, parallel algorithms etc. are also available as electives. Scopes are provided to complete three software projects. Employment opportunities are available in computer software industries and also in a organizations engaged in design, development and maintenance of compute-based systems. An academic career in teaching and research in either Mathematics or computer Science is also widely open.

This course is designed to produce students capable of pursuing advanced studies in theoretical and experimental physics as well as handling problems related to applications of physics in engineering, technology, industry and medicine. This is achieved by making use of a well balanced course structure consists of undergraduate core courses in basic sciences, engineering sciences, technical arts, and workshop practice. In addition, students are required to study course in computer science, humanities and social sciences etc. In the final years of the programme, the students can opt for specialized courses in advanced physics and they have to work for projects related to current problems in experimental and theoretical physics.

This course is designed to produce students capable of pursuing advanced studies in theoretical and experimental physics as well as handling problems related to applications of physics in engineering, technology, industry and medicine. This is achieved by making use of a well balanced course structure consisting of under graduate core courses in basic sciences, engineering sciences, technical arts and workshop practice In addition, students are required to study courses in computer science, humanities and social science etc. In the final years of the programme, the students can opt for specialized courses in advanced physics and they have to work for projects related to current problems in experimental and theoretical physics.