Any other department that will be established by the Union with the recommendation of the Academic Council. The University offers courses leading to the award of the following degrees: .. i) Bachelor of Science in Civil Engineering abbreviated as B.Sc. Any other degree that may be awarded by any department with the approval of the union on the recommendation of the Academic Council.

The Academic Council, with the recommendation of the Admission Committee, determines the rules for admission to reserved places. The Registrar will refer the matter to the relevant Head of Department and also to the Equivalence Committee. After receiving the opinions of the Head of Department and the Equivalence Committee, the matter will be forwarded to the Academic Council.

The head of the department and the candidate are informed about the decision of the expert assembly. The head of the department forwards the application with comments to the university secretariat.

Grading System

The maximum period of strike may under no circumstances exceed two academic sessions during a student's period of study for the degree. Both GPA and CGPA are rounded to the second decimal place for reporting.

Distribution of Marks

Class tests

Earned Credits

Performance Evaluation

Honors, VC’s List and University gold medal

Students who receive an F grade in a course during either of the two regular semesters will not be eligible for the VC list that year.

Registration for the Second & Subsequent Semesters

Measures for Helping Academically weak Students

Backlog Examination

Backlog Courses: the courses) that a student has registered in a semester, but for which he/she has received a grade of 'F' after the semester exam for those course(s).

Short Semester Examination

Minimum Earned Credit and GPA Requirements for Obtaining Degree

Time Limits for Completion of Bachelor’s Degree

Industrial/Professional Training Requirements

Application for Graduation and Award of Degree

Inclusion of repeaters from the present system to the new course system

Absence during Semester

Chairman of the Examination Committee will propose the name of the Paper Setters and Examiners from the panel of Paper Setters and Examiners to the Vice-Chancellor. Chairman of the Examination Committee will arrange to prepare question typing and printing (as required). Printed questions will be sent to the Dean at least 1 (one) day before the examination in a sealed envelope signed by the Chairman of the Examination Committee and the person involved in question preparation.

Chairman of the examination committee will send the answer set with mark sheet and questions to the examiners for examination. The Vice-Chancellor will appoint two examiners on the recommendation of the chairman of the examination committee. Vice-Chancellor will appoint three tabulators/Data entry teachers on the recommendation of the chairman of the examination committee.

The chairman of the examination committee will hand over the three copies of reviewed mark sheets to the tabulators/data entry teachers. Tabulation will take place in a secured place under the supervision of the chairman of the examination committee.

CHAPTER- IV

Course Structure for the Undergraduate Studies (Prerequisite Courses)

Summary of Courses for the Undergraduate Studies 1st Year Odd Semester

1 st Year Even Semester

2 nd Year Odd Semester

2 nd Year Even Semester

3 rd Year Odd Semester

3 rd Year Even Semester

4th Year Odd Semester

4th Year Even Semester

Optional Courses Offered in the Undergraduate Studies

Summary of the Courses of undergraduate Studies at a glance

CHAPTER- V

Detail Syllabus for the Undergraduate Studies

Even Semester

Industrial Chemistry: Raw materials and production technology and applications of cement, glass, ceramics, fertilizers and sugar; crude oil and its refining processes. Magnetism: Law of electromagnetic induction, Ampere's law and its application; Magnetic properties of matter; magneto motive force, magnetic field intensity, permeability, susceptibility, classifications of magnetic materials, magnetization curves, hysteresis loss, magnetostriction, Hall effect, magnetic force on a current carrying conductor. Basic Mechanical Devices/Systems: Introduction to steam, gas and water turbines with their accessories; internal combustion engines, cars;.

Fundamental concept of thermodynamics: basic concepts and definitions; thermodynamic systems, property and state, thermodynamic process and cycle. The graphic language: introduction to pictorial drawings, letters, projection theory, orthographic projection, first and third angle projection. Welding workshop: Introduction to tools and equipment used in welding and sheet metal working workshops; electric arc welding; gas welding; gas cutting; soldering and brazing practices; welding errors; simple exercise on sheet metal.

Vector analysis: linear dependence and independence of vectors, vector geometry, differentiation and integration of vectors with respect to a parameter, displacement, surface and volume integrations, gradient of a scalar function, divergence and curvature of a vector and its physical meaning, conservative system, Green's theorem, Gauss's divergence theorem, Stok's theorem and their applications in physics problems. Determination of eigenvalue and eigenvectors, Solving a system of linear equations with matrix methods. Introduction to the number system, overview of DOS, Windows, Linux, MAC, UNIX operating systems, basic general word processing packages, spreadsheet analysis, etc.

Introduction to C/C++ language, program construction and data types, I/O statements, expressions, decision making, loop, function and its calling procedure, recursion, arrays and pointer, abdominal structure, object oriented programming Application of computer programming for solving mechanical engineering problems. Three-phase EMF generation, delta and wye connections, line and phase quantities, solution of three-phase circuits, balanced polyphase systems. Metal Removal Process: Introduction to precision and non-precision turning, drilling, shaping, planing, milling, grinding, grinding, finishing processes.

Introduction to Foundries: Introduction to tools and equipment used in foundries and machine shops; molding sand and its preparation; making molds for ferrous and non-ferrous castings; use of core boxes; casting metals. Study of lathes, forming machines, milling machines, drilling machines and grinding machines and their operation. Introduction to safety measures: Introduction to the principles of working, construction, operation, types of cutting tools, selection of cutting speed and feeds etc.

Odd Semester

Manufacturing: Definition, EM-Functions and application

Power Plant Economics: Theory of Rates; instrumentation in power plants, selection of power plants; advantages, disadvantages and comparisons of different types of power plants. Hydroelectric power plant: Types of operation, site selection, turbine selection, seasonal and intermittent plants, components of the plant, efficiency. Electrical Transmission and Distribution: Basic concept, types of transmission and distribution system, important electrical equipment in power plants, smart grid.

Performance study: performance and characteristics of turbines, pumps and compressors; Design of pumps; System analysis and fluid machine selection. Power transmission system planning: mechanical, electrical, hydraulic and pneumatic drive in machine tools, basic aspects; rev range, gearbox design. Budget: Types of expenditure; controllable and uncontrollable expenses; flexible budgets; budget revision; zero budgets; cost control with a budget.

Derivation of NC codes from solid design and its graphic representation, intersection of surfaces and interference of volumes, use of CAD in the design of mechanisms, design of piping systems, design of heat exchanger, design of mechanical components. Nuclear Fuel Cycle and Waste Management: Components of Nuclear Fuel Cycle (NFC), types of NFC, components of NFC with diagram, differences between closed and open NFCs, classification of radioactive waste, types of waste associated with PWR operation. Water management in a nuclear power plant: Different types of cooling systems, disposable, wet cooling tower, dry cooling tower, etc.

Linear Programming Models: Mathematical formulation, graphical solution, simplex and duel simplex methods, types of solutions, duality, interpretation of the duel problem and postoptimality analysis. Biomechanics of joints and implants: Skeletal joints, forces and stresses in human joints, Analysis of rigid bodies in equilibrium, free body diagrams, types of joints, biomechanical analysis of elbow, shoulder, spine, hip knee and ankle. Design of orthopedic implant, specifications for a prosthetic joint, biocompatibility, requirement of a biomaterial, properties of different types of biomaterials, manufacturing process of implants, fixation of implants.

Lubrication: Basic equations of lubrication theory, oil flow calculation; Lubrication methods; Types of industrial lubricants and their standard grades; Boundary, hydrostatic and hydrodynamic lubrication. Fatigue: giving up due to fatigue; types of fatigue with fixed and variable amplitude, characteristics of combined loading; Notch sensitivity, factors affecting fatigue strength; fatigue tests, Use of fatigue properties in design. Cars and locomotives: major components common to cars and locomotives, types of traction, nomenclature of steam locomotives, classification of locomotives, preventive maintenance of locomotives, rolling stock, braking systems, maintenance of passenger cars and wagons, design features of modern wagons and goods.