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B-TECH in Mechanical Engineering at Indian Institute of Technology Guwahati
Kamrup, Assam
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About the Specialization
What is Mechanical Engineering at Indian Institute of Technology Guwahati Kamrup?
This Mechanical Engineering program at IIT Guwahati focuses on fundamental principles, design, analysis, and manufacturing across diverse engineering applications. It addresses the critical needs of core Indian industries like automotive, aerospace, energy, and manufacturing, emphasizing innovation and sustainable solutions. The program is distinguished by its strong research focus and interdisciplinary approach.
Who Should Apply?
This program is ideal for aspiring engineers who possess strong analytical skills, a keen interest in design and machinery, and a desire to contribute to technological advancement. It suits fresh graduates seeking entry into R&D, manufacturing, or energy sectors, as well as those aiming for higher studies or entrepreneurship in India''''s dynamic engineering landscape.
Why Choose This Course?
Graduates can expect robust career paths in India as design engineers, manufacturing engineers, R&D specialists, or consultants, with entry-level salaries typically ranging from INR 8-15 LPA. The program fosters critical thinking and problem-solving, preparing students for leadership roles and enabling seamless transitions into specialized fields or entrepreneurial ventures within Indian and global markets.
Student Success Practices
Foundation Stage
Build Strong Fundamental Concepts- (Semester 1-2)
Focus rigorously on understanding core science and engineering principles in Mathematics, Physics, Chemistry, and Basic Engineering subjects. Regularly solve problems from textbooks and reference materials to solidify theoretical knowledge.
Tools & Resources
NPTEL lectures, Khan Academy, Departmental problem-solving sessions, Peer study groups, Previous year question papers
Career Connection
A robust understanding of fundamentals is crucial for grasping advanced engineering concepts, performing well in competitive exams (GATE, UPSC ESE), and for successful R&D roles in core Indian industries.
Develop Foundational Programming Skills- (Semester 1-2)
Master introductory programming concepts, particularly in Python or C/C++, as they are increasingly vital for engineering simulations, data analysis, and automation. Practice coding regularly on online platforms.
Tools & Resources
HackerRank, LeetCode, CodeChef, NPTEL''''s Introduction to Programming courses, IITG''''s own computing lab sessions
Career Connection
Essential for careers in design automation, computational fluid dynamics (CFD), finite element analysis (FEA), and smart manufacturing, prevalent in modern Indian engineering firms.
Cultivate Effective Study Habits and Peer Learning- (Semester 1-2)
Establish a consistent study routine, attend all lectures and tutorials, and actively participate in academic discussions. Form study groups with peers to clarify doubts, discuss complex topics, and collaboratively solve challenging problems.
Tools & Resources
Academic calendars, Lecture notes, College library resources, Departmental faculty office hours, Collaborative whiteboarding tools
Career Connection
Fosters teamwork, communication skills, and diverse problem-solving approaches, highly valued by Indian employers and for collaborative project work in R&D and manufacturing.
Intermediate Stage
Apply Theory Through Practical Labs and Projects- (Semester 3-5)
Maximize learning from hands-on lab sessions in subjects like Manufacturing Processes, Mechanics of Solids, and Thermal Engineering. Seek out opportunities for mini-projects or departmental research assistantships to apply theoretical knowledge to real-world problems.
Tools & Resources
Departmental labs, Workshop facilities, Relevant simulation software (e.g., SolidWorks, ANSYS for basic simulations), Faculty guidance
Career Connection
Direct application of skills is crucial for roles in design, manufacturing, and R&D in core Indian industries, providing practical exposure that recruiters seek.
Seek Early Industry Exposure and Internships- (Semester 3-5)
Actively look for summer internships in manufacturing plants, design firms, or R&D centers during breaks. Even short-term projects or industrial visits can provide invaluable insights into industry practices and trends.
Tools & Resources
Career Development Centre (CDC) at IITG, LinkedIn, Company websites, Alumni network for referrals, Industrial training programs
Career Connection
Helps in building a professional network, understanding industry demands, and often leads to pre-placement offers (PPOs) in Indian and multinational companies operating in India.
Develop Specialized Skill Sets and Certifications- (Semester 3-5)
Identify areas of interest within Mechanical Engineering (e.g., CAD/CAM, fluid dynamics, robotics, thermal systems) and pursue additional certifications or online courses to build specialized skills beyond the curriculum.
Tools & Resources
Coursera, edX, Udemy courses on specific software (e.g., AutoCAD, CATIA, SolidWorks), NPTEL advanced courses, Industry certifications
Career Connection
Differentiates candidates in a competitive job market, especially for niche roles in aerospace, automotive, or automation sectors in India.
Advanced Stage
Excel in Major Projects and Research- (Semester 6-8)
Dedicate significant effort to the Major Project (ME401, ME404), choosing a topic aligned with career aspirations or current industry needs. Aim for high-quality research, innovative design, or robust experimental validation, potentially leading to publications.
Tools & Resources
Research labs, Advanced simulation software (ANSYS, ABAQUS, COMSOL), Library resources for academic papers, Faculty mentorship
Career Connection
Showcases problem-solving abilities, research aptitude, and project management skills, which are highly valued by R&D firms, PSUs, and for pursuing higher studies (M.Tech/Ph.D.) in India and abroad.
Strategize for Placements and Higher Education- (Semester 6-8)
Actively participate in placement preparatory activities, including aptitude tests, group discussions, and mock interviews. Tailor resumes and cover letters to specific job descriptions. Simultaneously prepare for GATE if considering M.Tech in India or GRE/TOEFL for international studies.
Tools & Resources
IITG''''s Career Development Centre, Online aptitude test platforms, Interview guides, Alumni mentors, GATE coaching materials
Career Connection
Directly impacts securing desirable job offers in leading Indian engineering companies or admission to top-tier postgraduate programs.
Network with Industry Professionals and Alumni- (Semester 6-8)
Attend webinars, workshops, and conferences hosted by the department or professional bodies. Engage with guest speakers, alumni, and industry leaders to gain insights, explore career opportunities, and build a valuable professional network.
Tools & Resources
LinkedIn, Professional engineering societies (e.g., Institution of Engineers India - IEI), Alumni events, Departmental seminars
Career Connection
Opens doors to referrals, mentorship, and hidden job opportunities in various sectors across India, providing a competitive edge in career progression.
Program Structure and Curriculum
Eligibility:
- No eligibility criteria specified
Duration: 8 semesters / 4 years
Credits: 152 Credits
Assessment: Assessment pattern not specified
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| CH101 | Chemistry | Basic Science Course (BSC) | 4 | Atomic structure and bonding, Chemical thermodynamics and kinetics, Electrochemistry and corrosion, Organic chemistry principles, Material chemistry |
| MA101 | Mathematics-I | Basic Science Course (BSC) | 4 | Differential calculus, Integral calculus, Sequences and series, Multivariable calculus, Vector calculus |
| PH101 | Physics-I | Basic Science Course (BSC) | 4 | Classical mechanics, Oscillations and waves, Optics, Thermodynamics principles, Special relativity concepts |
| HS101 | English Communication | Humanities and Social Sciences including Management Course (HSMC) | 3 | Grammar and vocabulary, Written communication skills, Oral presentation techniques, Listening and comprehension, Public speaking |
| PH102 | Physics Lab-I | Basic Science Course (BSC) | 2 | Basic physics experiments, Measurement techniques, Error analysis, Data interpretation, Laboratory safety |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| CS101 | Introduction to Computing | Engineering Science Course (ESC) | 4 | Programming fundamentals, Data types and variables, Control structures, Functions and modules, Basic algorithms (e.g., using Python) |
| EE101 | Basic Electronics Engineering | Engineering Science Course (ESC) | 4 | DC and AC circuit analysis, Semiconductor diodes and applications, Bipolar Junction Transistors (BJTs), Operational amplifiers, Introduction to digital electronics |
| MA102 | Mathematics-II | Basic Science Course (BSC) | 4 | Linear algebra, Ordinary differential equations, Laplace transforms, Fourier series, Partial differential equations |
| ME101 | Engineering Graphics | Engineering Science Course (ESC) | 3 | Orthographic projections, Sectional views, Isometric and perspective views, Introduction to AutoCAD, Assembly drawings |
| BT101 | Biology | Basic Science Course (BSC) | 2 | Cell biology, Genetics fundamentals, Ecology and environment, Human physiology, Biotechnology applications |
| EE102 | Basic Electronics Engineering Lab | Engineering Science Course (ESC) | 2 | Basic circuit construction, Diode and transistor characteristics, Op-amp based circuits, Digital logic gates, Measurement instruments usage |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME201 | Engineering Mechanics | Program Core Course (PCC) | 4 | Statics of particles and rigid bodies, Equilibrium analysis, Dynamics of particles, Kinematics of rigid bodies, Work, energy, impulse and momentum |
| ME202 | Materials Science and Engineering | Program Core Course (PCC) | 3 | Crystal structures and defects, Mechanical properties of materials, Phase diagrams and transformations, Heat treatment processes, Composite materials and polymers |
| ME203 | Manufacturing Processes-I | Program Core Course (PCC) | 3 | Metal casting processes, Forming processes (rolling, forging, extrusion), Machining fundamentals, Welding processes, Powder metallurgy |
| ME204 | Fluid Mechanics | Program Core Course (PCC) | 4 | Fluid properties and classifications, Fluid statics and buoyancy, Fluid kinematics, Fluid dynamics (Bernoulli''''s equation, Navier-Stokes), Boundary layer theory |
| ME205 | Thermodynamics | Program Core Course (PCC) | 4 | Zeroth and First Law of Thermodynamics, Second Law and entropy, Properties of pure substances, Gas mixtures and psychrometry, Thermodynamic cycles (power and refrigeration) |
| ME206 | Manufacturing Processes Lab-I | Program Core Course (PCC) | 2 | Foundry practice, Machining operations (turning, milling), Welding techniques (arc, gas), Sheet metal working, Basic measurement and inspection |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME207 | Mechanics of Solids | Program Core Course (PCC) | 4 | Stress and strain analysis, Axial load, torsion, and bending, Shear force and bending moment diagrams, Deflection of beams, Combined stresses and Mohr''''s circle |
| ME208 | Machine Drawing | Program Core Course (PCC) | 3 | Dimensioning and tolerancing, Fits and limits, Representation of fasteners (bolts, rivets), Gears and springs drawing, Assembly and detail drawings |
| ME209 | Machine Dynamics | Program Core Course (PCC) | 4 | Kinematics of mechanisms, Velocity and acceleration analysis, Kinetics of rigid bodies, Vibration analysis (single degree of freedom), Balancing of rotating masses |
| ME210 | Theory of Machines | Program Core Course (PCC) | 4 | Kinematic pairs and chains, Cams and followers, Gears and gear trains, Belts, ropes and chains, Flywheels and governors |
| ME211 | Thermal Engineering-I | Program Core Course (PCC) | 4 | Internal Combustion Engines (IC Engines), Gas turbines, Compressors and pumps, Steam nozzles and condensers, Vapour power cycles |
| ME212 | Mechanics of Solids Lab | Program Core Course (PCC) | 2 | Tensile and compressive testing, Torsion testing, Hardness and impact testing, Beam deflection experiments, Material characterization |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME301 | Thermal Engineering-II | Program Core Course (PCC) | 4 | Conduction heat transfer, Convection heat transfer, Radiation heat transfer, Heat exchangers, Refrigeration and air conditioning systems |
| ME302 | Manufacturing Processes-II | Program Core Course (PCC) | 3 | Advanced machining processes, CNC programming and machine tools, Additive manufacturing (3D printing), Metrology and quality control, Automation in manufacturing |
| ME303 | Machine Design-I | Program Core Course (PCC) | 4 | Design for static and dynamic loads, Failure theories, Design of riveted and welded joints, Design of threaded fasteners, Design of shafts and keys |
| ME304 | Measurement and Control | Program Core Course (PCC) | 3 | Principles of measurement, Transducers and sensors, Signal conditioning, Control system modeling, PID controllers and system response |
| ME305 | Manufacturing Processes Lab-II | Program Core Course (PCC) | 2 | CNC machining operations, Advanced metrology equipment, Additive manufacturing practicals, Tool design and testing, Quality inspection techniques |
| ME306 | Thermal Engineering Lab | Program Core Course (PCC) | 2 | IC engine performance analysis, Heat transfer coefficient determination, Refrigeration system performance, Air conditioning unit testing, Boiler efficiency experiments |
| PEC-I | Professional Elective-I | Professional Elective Course (PEC) | 3 |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME307 | Machine Design-II | Program Core Course (PCC) | 4 | Design of bearings (rolling and sliding), Design of gears and gear trains, Design of clutches and brakes, Design of springs, Design of connecting rods and crankshafts |
| ME308 | Computer Aided Design | Program Core Course (PCC) | 4 | Geometric modeling techniques (wireframe, surface, solid), Feature-based design, Assembly modeling and detailing, Introduction to CAD software (e.g., SolidWorks, CATIA), Introduction to Finite Element Analysis (FEA) |
| ME309 | Fluid Machines Lab | Program Core Course (PCC) | 2 | Performance of pumps and turbines, Flow measurement techniques, Hydraulic and pneumatic circuits, Cavitation studies, Fluid machine component testing |
| OEC-I | Open Elective-I | Open Elective Course (OEC) | 3 | |
| OEC-II | Open Elective-II | Open Elective Course (OEC) | 3 | |
| PEC-II | Professional Elective-II | Professional Elective Course (PEC) | 3 | |
| ME310 | Industrial Training | Program Core Course (PCC) | 1 | Hands-on industry experience, Exposure to industrial practices, Project implementation in real-world setting, Problem-solving in industrial context, Technical report writing |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME401 | Major Project-I | Program Core Course (PCC) | 4 | Project planning and scope definition, Literature review and problem formulation, Design and methodology development, Experimental setup or simulation approach, Preliminary data analysis and reporting |
| ME402 | Heat and Mass Transfer | Program Core Course (PCC) | 4 | Principles of heat conduction, convection, radiation, Heat exchangers design and analysis, Mass diffusion mechanisms, Phase change heat transfer, Analogy between heat and mass transfer |
| ME403 | Mechanical Vibrations | Program Core Course (PCC) | 3 | Single degree of freedom systems, Free and forced vibrations, Damping and resonance phenomena, Multi-degree of freedom systems, Vibration isolation and control |
| OEC-III | Open Elective-III | Open Elective Course (OEC) | 3 | |
| PEC-III | Professional Elective-III | Professional Elective Course (PEC) | 3 | |
| PEC-IV | Professional Elective-IV | Professional Elective Course (PEC) | 3 |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| ME404 | Major Project-II | Program Core Course (PCC) | 6 | Advanced project execution and management, Prototype development and testing, Data analysis and validation, Thesis writing and presentation, Innovation and potential patenting |
| OEC-IV | Open Elective-IV | Open Elective Course (OEC) | 3 | |
| PEC-V | Professional Elective-V | Professional Elective Course (PEC) | 3 | |
| PEC-VI | Professional Elective-VI | Professional Elective Course (PEC) | 3 | |
| PEC-VII | Professional Elective-VII | Professional Elective Course (PEC) | 3 |
