Bachelor of Technology (Mechanical Engineering)

MATH114 Applied Mathematics – I

The knowledge of Mathematics is necessary for a better understanding of almost all the Engineering and Science subjects.  Here our intention is to make the students acquainted with the concept of basic topics from Mathematics, which they need to pursue their Engineering degree in different disciplines.

CHEM 136 Engineering Chemistry

The objective of the course is to give the students a general view of the industrial applications of chemistry in the field of water technology, fuel quality, the effect of corrosion and measures for control and usage of lubricants. It also gives a basic knowledge of instrumental methods.

ES103 Basic Electrical Engineering

This course aims to make students aware of basic concepts of Electrical Engineering like Fundamental laws & Theorems, Analysis of AC & DC Circuits and working principles of Electrical Machines.

EVS 104 Introduction to Environmental Studies

This course aims to provide students with the scientific background needed to understand how the Earth works and how we, as human beings, fit into that. At the end of the course, it is expected that students will be able to identify and analyze environmental problems as well as the risks associated with these problems and understand what it is to be a steward in the environment, studying how to live their lives in a more sustainable manner.

ES104 Engineering Graphics Lab

This course will provide students with concepts on the drawings of curves like a straight line, parabola, ellipse etc. After completion of this course, students will be able to draw different figures manually and will be capable of using various instruments involved in drawings.

BC105 Technical Communication I

FBL Foreign Language – I

To train students in grammar, conversational classes through dialogues, different expressions with basic verbs learnt.

MATH122 Applied Mathematics – II

This course enables the students to analyze techniques to solve differential equations, complex analysis problems and Laplace transform, which can be further applied to solve practical engineering problems in fluid dynamics, mechanics and modelling of simple electrical circuits etc.

PHYS132 Engineering Physics

This course aims to introduce the students to graduate-level physics fundamentals, which form the basis of all Applied Science and Engineering disciplines. After completing this course, students will gain the basic knowledge of EM waves, Optics and relativistic mechanics. Further, they will be able to apply these basic ideas in engineering applications.

ES101 Engineering Mechanics

The objective of this course is to provide fundamental knowledge of the force system and its effect on the behaviour of the bodies that may be in a dynamic or in a static state. It includes the equilibrium of different structures like beams, frames, trusses etc. and the force transfer mechanism in the different components of a body under given loading conditions.

ES107 Workshop Practices

In this course, hands-on training is given in different sections to familiarize with the basic manufacturing processes and to study the various tools and equipment used. The student will learn about the labour involved, machinery or equipment necessary, and time required to fabricate and also should be able to estimate the cost of the product or job work.

ES202 Introduction to Computers and Programming in C

This course aims to familiarise students with various important features of procedure-oriented programming language, i.e. C. This course guides the students to develop and modify C programs and to implement basic projects.

BC106 Technical Communication II

FBL Foreign Language – II

MATH211 Applied Mathematics - III

The aim of this course is to introduce Fourier series analysis, which is central to many applications in engineering apart from its use in solving boundary value problems. It familiarize the student with Fourier transform techniques used in wide variety of situations. This course also introduces various effective mathematical tools for the solutions of partial differential equations that model several physical processes and to develop transform techniques for discrete-time systems.

ES205 Engineering Materials

Materials engineering is essential for designing, producing, examining and testing materials as diverse as metallic engineering alloys, semiconductors and superconductors, ceramics, plastics and composites. This course deals with the structures and properties of various materials, which have engineering applications. This course will help students understand the properties and behavior of different types of materials and their applications.

ES203 Object Oriented Programming Using C++

This course identifies the basic difference between programming approaches like procedural and object-oriented; and implements various features of OOP such as inheritance, polymorphism, exceptional handling etc. using programming language C++. Specific emphasis will be given to use the programming to solve engineering related problems in various domains.

MAE213 Engineering Thermodynamics

Course objectives are to impart in-depth understanding of the laws and principles of thermodynamics and its application for analyzing the systems.  

MAE214 Mechanics of Materials

Course objectives are to impart the concepts of stress and strain in several types of structures and machines under different loading conditions. This course will help the students to estimate stresses and deflection in beams and column due to bending and torsional stress.

MAE204 Machine Drawing with CAD Lab

The objectives of the course are to draw machine components using conventional method and commercial software such as Auto CAD/solid-Works.

ES205 Engineering Materials

ES203 Object Oriented Programming using C++

OABC Outdoor Activity Based Course

ETTP100 Term Paper

To prepare the students to study systematically in order to write clearly and comprehensively about a topic/ issue; To enhance student’s ability in written and oral presentations.

FBL Foreign Language – III

BS207 Self-Reliance and Socialization (UG) 

MATH242 Applied Mathematics - IV

The course equips students with numerical analysis tools, which provide solutions to practical problems when more conventional analytical approaches fall short. Additionally, students become familiar with all of the fundamental statistics ideas that will aid them in a variety of fields in the upcoming semesters. Applications of this course include probability, probability distribution, and curve fitting issues in business and engineering difficulties.

ES206 Modeling and Simulation of System 

The aim of this course is to provide a thorough introduction of MATLAB to students with an in-depth study of various arithmetic, logical and mathematical operations. It starts with basics concepts of the software and understanding its use in engineering problems. The main emphasis of this course will be understanding the application of MATLAB to solve various engineering practical questions.

MAE218 Theory of Machine-I 

Course objectives are to understand the basic structure and engineering mechanisms. This course also helps in analyzing the motion transmission from one machine component to other components in entire system and in designing and fabricating of kinematic mechanisms.

POE206 Fundamentals of Industrial Engineering 

Industrial Engineering provides a general and powerful framework to understand the basic principles of industrial engineering, which deals with design, analysis, operation of industrial processes and optimization of complex organizational processes. The first half of the course deals with the relevant tools and techniques necessary for industrial engineering, work force management and manufacturing cost analysis. The operations and industrial processes of the organization for achieving waste reduction is also focused in this section. The second half of the course will focus on the production, planning, material management and the design of organizational process, systems and sub-systems.

MAE217 Engineering Fluid Mechanics 

Course objectives are to develop an appreciation for the properties of Newtonian fluids, study analytical solutions to variety of simplified problems, understand the dynamics of fluid flows and the governing dimensionless parameters, apply concepts of mass, momentum and energy conservation to flows and grasp the basic ideas of turbulence.

POE205 Manufacturing Technology I 

The aim of the course is to provide the students with an understanding of the basic principles underlying the design, analysis and knowledge of manufacturing machines. The course will help to learn the application of various manufacturing machines and their techniques. It anticipated that this course would become part of the new manufacturing emphasis area in mechanical engineering.

OABC Outdoor Activity Based Course

MAE219 Software for Mechanical Engineering 

Software for Mechanical Engineering is a course that focuses on the use of computer-aided design (CAD), computer-aided engineering (CAE), and computer-aided manufacturing (CAM) software in the field of mechanical engineering. The course covers the fundamentals of CAD software, including 2D and 3D modeling, assembly design, and drawing creation.

POE204 Smart Manufacturing Engineering 

Smart Manufacturing Engineering is a course that covers the principles and technologies involved in modern manufacturing systems. The course focuses on the application of the Internet of Things (IoT), artificial intelligence (AI), and other digital technologies to optimize manufacturing processes, increase efficiency, and reduce costs.

FBL Foreign Language – IV

MAE326 Theory of Machine-II

Course objectives are to introduce fundamentals of forces, induced the motion of parts or mechanism / machine and to analyze the transformation of motion as well as power from one to another component, adverse effect on the function of the mechanism or machine is to be considered. This course helps in determining the counterbalance methodologies involved

MAE301 Machine Design-I

Machine Design-1 provides a general and powerful framework to design the mechanical elements such as power screws, detachable and permanent joints, shaft, key and coupling. The first half of the course deals with the estimation of stresses and strains in machine elements. The design of machine components and power screws also is done in the first section. The second half of the course will focus on the analysis of shafts, couplings, multidimensional static failure criteria, and different types of joints used for specific purposes including rivets and welds.

POE310 Manufacturing Technology II

The objective of this course is to introduce the fundamentals of the metal removal process like turning, shaping, milling, drilling, grinding etc.  The students are expected to be able to select, analyze and design basic manufacturing processes for product development.

MAE314 Fundamentals of Heat and Mass Transfer

The course objectives are to introduce a basic knowledge of the phenomena of heat and mass transfer so as to develop the method for solving a wide variety of practical engineering problems related to heat transfer phenomena and to provide the useful information concerning of particular systems and processes.

POE306 Product Design

Course objectives are to introduce the product design process for the industry. This course discusses various issues in product design, and product life cycle with an aim to introduce the role of computers in product design, concurrent engineering and design for manufacturing.

MAE324 Renewal Energy Source

The Renewable Energy Sources course is designed to provide students with a comprehensive understanding of the various renewable energy sources and their applications. The course covers the fundamental principles and concepts of renewable energy, including solar, wind, geothermal, hydroelectric, and biomass energy. The course also explores the integration of renewable energy sources into existing energy systems, including the electrical grid, and the environmental and economic implications of renewable energy.

MAE316 Experimental Methods for Engineers

Course objectives are to provide students with theory and hands-on laboratory experience, including simple and more complex experiments and computerized data acquisition. Strong emphasis is placed on problem solving, professional judgment, and the importance of accuracy, error, and uncertainty analysis.

MAE325 Piping Design

Course objective is to develop an appreciation for the piping design. This course is structured to raise the level of expertise in piping design and to improve the competitiveness in the job markets. This course provides various piping system designs, development skills and knowledge of pipe layout. The students are given open studies to develop their professional skill.

SKE301 Aptitude and Reasoning Ability

To enhance the employability skills of students. It aims to improve aptitude, problem solving skills, logical and verbal reasoning of the student.

ETPT100 In-House Practical Training

The practical training program can best be described as an attempt to institutionalize efforts to bridge the gap between the professional world and academic institutions. Entire effort in practical training is in terms of extending the program of education and evaluation beyond the classrooms/laboratory’s /field of the University or Institution.

BS309 Cognitive Skills, Leadership and Decision Making

FBL Foreign Language – V

MAE313 Internal Combustion Engines

Course objectives are to provide an in-depth knowledge of the functioning of IC engines and gas turbines for propulsion. This course helps in understand the combustion methods used for various fuels and to provide the techniques to analyze the internal combustion engines. 

MAE302 Machine Design-II

Machine Design II is an advanced course that builds upon the fundamental concepts covered in Machine Design I. The course is designed to provide students with an in-depth understanding of the principles and practices involved in the design of mechanical systems and components. The course focuses on the selection and analysis of machine components such as bearings, gears, and power transmission systems. The design principles for mechanisms and machines such as cams, linkages, and gear trains are covered in detail.

POE301 Operations Research

In a rapidly changing environment an understanding is sought which will facilitate the choice and the implementation of more effective solutions, which, typically, may involve complex interactions among people, materials and money. Organizations may seek a very wide range of operational improvements - for example, greater efficiency, better customer service, higher quality or lower cost. Whatever the business, engineering aim, Operation Research can offer the flexibility and adaptability to provide objective help. This course introduces students to the principles of operational research.

MAE318 Thermal and Fluid Machinery

The course objectives are to understand the underpinning natural and physical sciences and the engineering fundamentals applicable to the engineering discipline, understanding of thermodynamic principles to the design and optimization of engineering systems. Students will have the ability to apply laws of thermodynamics on different hydraulic and steam systems and also how to analyze the fluid flow problems with the application of the momentum and energy equations.

MAE305 Refrigeration and Air-conditioning

POE303 Unconventional Manufacturing Techniques

MAE323 Introduction to Robotics

MAE317 Fundamental of Mechanical Vibrations

SKE311 Employability Skill for Mechatronics Engineering

POE308 Digital Manufacturing and Design

POE309 Industrial Welding and Surface Engineering

PFE301 Professional Ethics and Social Responsibility

FBL Foreign Language – VI

LAW132 Law for Engineers

The aim of the course is provide general exposure to the students about the elementary knowledge of law that would be of use in their profession. It also enable students to appreciate the importance of law and its impact on business and society. Key topics includes Law making, Principles of contract, Adjudicatory System, Intellectual Property, Governance and Transparency etc.

HIST138 Aspects of Indian History for Engineers

This course is designed to provide adequate understanding of history and scientific achievements of Ancient India. It deals with identification of major dynasties and examine social, economic and cultural conditions of ancient India. Student are exposed to analyze the scientific achievements, recognize the ancient heritage and examine the past versus present scenario.

ECON132 Economics for Engineers

The objective of this course is to familiarize the prospective engineers with elementary principles of economics.  It also deals with acquainting the students with standard concepts and tools that they are likely to find useful in their profession when employed in the firm/industry/corporation in public or private sector. It also seeks to create an awareness about the status of the current economic parameters /indicators/ policy debates. 

SOC104 Sociology for Engineers

The objective of this course is to familiarize the prospective engineers with elements of Indian history, sociological concepts and theories by which they could understand contemporary issues. This course also aims to make students understand the problems in Indian society.  Critical analysis regarding social processes of globalization, modernization and social change are also dealt. 

MAE 403 Computer Aided Design

The objective of this course is to impart students an in-depth exposure to methods in geometric modeling and its applications in CAD/CAM. This course introduces integrated approach to CAD including: Overview of CAD, numerical techniques for CAD, Computer graphics and design, Principle and management of design data base system, finite element analysis and CAD, Design optimization. Along with the theoretical presentations, commercial CAD software are also introduced and applied to create Engineering components and assemblies.

MAE412 Advanced Mechanics of Materials

Course objectives are to introduce fundamentals of advanced strength of materials it will enable the students to distinguish between elementary strength of material and advanced concepts of unsymmetrical geometry and loads.so as to make the students understand torsion of rectangular cross-sectional members and estimate stresses in rotating members.

MAE404 Finite Element Methods

The objective of this course is to learn how to design and analyze structural components of machine system, especially using the finite element method. The course exposes students to analytical and numerical methods for computing stresses and strains in structures, use of finite element software for static structural analysis and the application of design and failure criteria to ensure that mechanical components can carry the design load without failure.

MAE401 Mechatronics

Mechatronics is basically combination of mechanical and electronics engineering. With growing demands of automation of different mechanical operation this subject fulfills the needs. Main objective of this course is to provide knowledge of different combinations of mechanical and electronics processes and various softwares used in it.

POE404 Computer Aided Manufacturing

The aim of the course is to provide the students with the understanding of the basic principles underlying the design, analysis, and synthesis of automation system. The course will help learn application of advanced manufacturing techniques of automated manufacturing, material handling, robotics and flexible manufacturing. Also, includes rapid prototyping with lab, so as to give complete understanding of futuristic automated manufacturing systems.

MAE320 Measurement and Metrology

MAE402 Non-Destructive Testing

NDT techniques are used for locating flaws as well as for characterizing material properties. Flaws within the materials can play havocs and may cause planes to crash, reactors to fail, trains to derail, pipelines to burst and alike. However if we detect the flaws using NDT techniques, all these catastrophic failures can be avoided. Use of NDT techniques results in better confidence in the material and one may opt for lower value of factor of safety. Understanding the basic principles of various NDT techniques, nature of flaws, importance of NDT techniques, various applications of NDT techniques, limitations of NDT techniques, codes, standards and specifications related to non-destructive testing techniques etc. would be taught to the students and thus the students would have proper skills and would be equipped with proper competencies to locate a flaw in various materials, products. They would also be ready to use NDT techniques for in-situ situations too.

POE414 Micro and Nano Manufacturing

The course objectives are to acquaint the students with the principles, basic micro and nano manufacturing, so as to know about the developments in the micro and nano manufacturing processes and research trends in this area.

POE411 Flexible Manufacturing System

POE402 Supply Chain Management – Planning

POE 408 Quality Engineering

Course objectives are to introduce advanced topics in metrology and measurement systems and to prepare students for leadership in quality function, as QA standards in charge in automotive industry.

POE403 Quality Control and Quality Assurance

POE409 Advanced Welding Technology

MAE414 Power Plant Technologies

Course objectives are to provide students with fundamental knowledge of the different ways of producing electricity so as to acquaint the types, construction, working principles and performance of different types of conventional and non-conventional power plants, students should also have knowledge of design, construction, operation and performance of various components of steam, gas and diesel power plant, students will be able to work out the plant economics and the impact of power plants on the environment.

AUTO401 Automobile Engineering

This course emphasizes on constructional details of automotive vehicles, which includes – basic structure, engine, transmission systems, suspension systems, steering system, braking systems and wheels & tyres.

MAE413 Heat Exchanger

The course objectives are to build up necessary background for the design of various types of heat exchangers. This course will help to learn the sizing of heat exchangers, thermal and mechanical stress analysis for various heat exchange applications.

MAE417 Theory of Boundary Layer

Basic understanding of viscous flows in general, and boundary layer flows, Understand the boundary layer model and different analytic methods, Introduce flow instability and transition from laminar flow to turbulence.

MAE418 Two Phase Flow and Heat Transfer

MAE415 Computational Fluid Dynamics

MAE419 Turbulent Flow

ETII100 Industry Internship

This course is non-teaching credit course (NTCC) where students will work on a minor project and prepare report on it.

POE412 Smart factory

MAE416 Industrial Robotics

POE413 Cyber Physical Production System

ETMN100 Minor Project

This course is non-teaching credit course (NTCC) where students will compete a 6-8 weeks internship in industry and prepare a report on it.

FBL Foreign Language – VII

ETMJ100 Major Project

Project gives students an opportunity to work intensively on a substantial problem to demonstrate their own creativity and originality. Additionally, they will apply knowledge, skills, and methodologies they have learned throughout the degree program when appropriate. Students learn about the research and development (R&D) cycle as well as technical methods for evaluating, designing, developing, synthesizing, and testing integrated systems. Software, Simulation tools, hardware, manufacturing machines, site visits, a hands-on and team-oriented approach, and faculty support are used complete the project.