Ceramic Engineering (B.Tech. - 4yrs)
1 | Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions. |
2 | Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions related to the domain of Ceramic engineering. |
3 | Design/development of solutions: Design solutions for complex engineering problems and system components or processes for the domain of Ceramic Engineering that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations. |
4 | Engineering knowledge: Apply the knowledge of basic science, fundamental engineering, processing and characterization to the solution of complex engineering problems in the domain of Ceramic engineering. |
5 | Environment and sustainability: Understand the impact of the professional engineering solutions related to the domain of Ceramic engineering in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development. |
6 | Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice. |
7 | Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings. |
8 | Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change. |
9 | Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modelling to complex engineering activities with an understanding of the limitations related to the domain of Ceramic engineering. |
10 | Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of basic science, fundamental engineering and subjects of the domain of Ceramic engineering. |
11 | Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments. |
12 | The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice. |
1 | To build strong foundation in mathematical, scientific and engineering fundamentals with an emphasis on the synthesis-structure-property-application relationship in the field of ceramic engineering. |
2 | To develop strong communication skills, ability to work as an effective team member, and for providing an awareness of life-long learning. |
3 | To develop strong interaction with industries through collaborative research, student training, consultancy and to work on multidisciplinary and real life industrial problems. |
4 | To develop the ability among the graduates to comprehend, analyze, and solve industrial processes, product development problems through proper training relevant to the general practice of Ceramic Engineering. |
5 | To impart training in design and computational skills, and to provide opportunity for specializing in specific areas of interest and broad knowledge in multi-disciplinary engineering subjects. |
6 | To prepare graduates for successful careers in industry and research meeting the needs of industries, academia and research organizations. |
Subject Code | Subject Name | L-T-P | Credit | |
---|---|---|---|---|
EE1000 | Basic Electrical Engineering | 3-0-0 | 3 | Syllabus |
MA1003 | Mathematics - I | 3-0-0 | 3 | Syllabus |
PH1005 | Statistical and Quantum Physics | 3-0-0 | 3 | Syllabus |
LS1001 | Biology | 2-0-0 | 2 | Syllabus |
EA1270 | Value Education and Ethics | 1-0-0 | 1 | Syllabus |
CS1010 | Programming for Problem Solving | 1-0-2 | 2 | Syllabus |
ME1000 | Workshop Practice | 0-0-3 | 2 | Syllabus |
PH1070 | Physics Laboratory | 0-0-3 | 2 | Syllabus |
Extra Academic Activity - I |
Subject Code | Subject Name | L-T-P | Credit | |
---|---|---|---|---|
CE1100 | Engineering Mechanics | 3-0-0 | 3 | Syllabus |
CH1400 | Environment and Safety Engineering | 3-0-0 | 3 | Syllabus |
CY1004 | Analytical Chemistry and Biomolecules | 3-0-0 | 3 | Syllabus |
EC1000 | Basic Electronics Engineering | 3-0-0 | 3 | Syllabus |
MA1004 | Mathematics - II | 3-0-0 | 3 | Syllabus |
HS1300 | Communicative English | 2-0-0 | 2 | Syllabus |
CE1010 | Computer Aided Drawing and Graphics | 0-0-3 | 2 | Syllabus |
CY1170 | Chemistry Laboratory | 0-0-3 | 2 | Syllabus |
Subject Code | Subject Name | L-T-P | Credit | |
---|---|---|---|---|
CR2101 | Materials Thermodynamics | 3-0-0 | 3 | Syllabus |
CR2403 | Ceramic Raw Materials | 3-0-0 | 3 | Syllabus |
MA2005 | Numerical Methods | 3-0-0 | 3 | Syllabus |
CS2011 | Introduction to AI and ML | 2-0-0 | 2 | Syllabus |
CR2271 | Ceramic Modelling Laboratory | 0-0-3 | 2 | Syllabus |
CR2471 | Chemical Analysis Laboratory | 0-0-3 | 2 | Syllabus |
EE2700 | Basic Electrical Engineering Laboratory | 0-0-2 | 1 | Syllabus |
Value Added Course - I | ||||
Humanities Elective - I | ||||
Additional Course - I |
Subject Code | Subject Name | L-T-P | Credit | |
---|---|---|---|---|
CR2110 | Ceramic Fabrication Processes | 3-0-0 | 3 | Syllabus |
CR2202 | Structure and Phase Equilibrium in Ceramics | 3-0-0 | 3 | Syllabus |
CR2204 | High Temperature Processes in Ceramics | 3-0-0 | 3 | Syllabus |
CR2472 | Ceramic Fabrication Laboratory | 0-0-3 | 2 | Syllabus |
CR2474 | Cement Laboratory | 0-1-2 | 2 | Syllabus |
CR2172 | High Temperature Processing Laboratory | 0-0-2 | 1 | Syllabus |
CS2672 | AI and ML Laboratory | 0-0-2 | 1 | Syllabus |
HS2270 | Language Laboratory | 0-0-2 | 1 | Syllabus |
Value Added Course - II | ||||
Technology in Society - I | ||||
Humanities Elective - II | ||||
Additional Course - II |
Subject Code | Subject Name | L-T-P | Credit | |
---|---|---|---|---|
CR3101 | Physical Ceramics: Properties | 3-0-0 | 3 | Syllabus |
CR3401 | Refractory Technology | 3-0-0 | 3 | Syllabus |
CR3473 | Refractory Laboratory | 0-0-3 | 2 | Syllabus |
CR3371 | Ceramography and Microscopy Laboratory | 0-0-2 | 1 | Syllabus |
Stream / Cluster Elective - I | ||||
Stream / Cluster Elective - II | ||||
Multidisciplinary Elective - I | ||||
Advanced Skill Development - I | ||||
Additional Course - III |
Subject Code | Subject Name | L-T-P | Credit | |
---|---|---|---|---|
CR3402 | Glass Technology | 3-0-0 | 3 | Syllabus |
CR3272 | Instrumental Characterization Laboratory | 0-0-3 | 2 | Syllabus |
CR3474 | Glass Laboratory | 0-0-3 | 2 | Syllabus |
CR3476 | Whiteware Laboratory | 0-0-3 | 2 | Syllabus |
CR3670 | Product Development Laboratory | 0-0-0 | 1 | Syllabus |
Value Added Course - III | ||||
Stream / Cluster Elective - III | ||||
Stream / Cluster Elective - IV | ||||
Multidisciplinary Elective - II | ||||
Additional Course - IV |
Subject Code | Subject Name | L-T-P | Credit | |
---|---|---|---|---|
CR4095 | Capstone Project - I | 0-0-0 | 4 | Syllabus |
CR4555 | Special Topics by Industry Experts | 0-0-0 | 1 | Syllabus |
CR4901 | Seminar and Technical Writing | 0-0-2 | 1 | Syllabus |
Stream / Cluster Laboratory Elective - I | ||||
Stream / Cluster Laboratory Elective - II | ||||
Stream / Cluster Laboratory Elective - III | ||||
Stream / Cluster Elective - V | ||||
Stream / Cluster Elective - VI | ||||
SIRE / EPICS Elective | ||||
Multidisciplinary Elective - III | ||||
Additional Course - V |
Subject Code | Subject Name | L-T-P | Credit | |
---|---|---|---|---|
CR4908 | Comprehensive Viva Voce | 0-0-0 | 2 | Syllabus |
Stream / Cluster Elective - VII | ||||
Multidisciplinary Elective - IV | ||||
Multidisciplinary Elective - V | ||||
Capstone Project Elective - II |
Subject Code | Subject Name | L-T-P | Credit | |
---|---|---|---|---|
CR2101 | Materials Thermodynamics | 3-0-0 | 3 | Syllabus |
CR2102 | Structure and Phase equilibrium in ceramics | 3-0-0 | 3 | Syllabus |
CR2103 | Composite Materials | 3-0-0 | 3 | Syllabus |
CR2104 | Process Ceramics | 3-0-0 | 3 | Syllabus |
CR2106 | High temperature processes in ceramics | 3-0-0 | 3 | Syllabus |
CR2110 | Ceramic Fabrication Processes | 3-0-0 | 3 | Syllabus |
CR2202 | Structure and Phase Equilibrium in Ceramics | 3-0-0 | 3 | Syllabus |
CR2204 | High Temperature Processes in Ceramics | 3-0-0 | 3 | Syllabus |
CR2401 | Unit Operations in Ceramic Processing | 3-0-0 | 3 | Syllabus |
CR2402 | Ceramics for Societal Applications | 2-0-0 | 2 | Syllabus |
CR2403 | Ceramic Raw Materials | 3-0-0 | 3 | Syllabus |
CR2408 | Fuels and Furnace Technology | 3-0-0 | 3 | Syllabus |
CR3101 | Physical Ceramics: Properties | 3-0-0 | 3 | Syllabus |
CR3103 | Application of Phase Diagram | 3-0-0 | 3 | Syllabus |
CR3105 | Heat Transfer and Fluid Flow | 3-0-0 | 3 | Syllabus |
CR3106 | Application of Phase Diagram | 3-0-0 | 3 | Syllabus |
CR3107 | Ceramic Manufacturing | 3-0-0 | 3 | Syllabus |
CR3108 | Mechanical Behavior of Ceramics | 3-0-0 | 3 | Syllabus |
CR3116 | Metallurgical Processes | 3-0-0 | 3 | Syllabus |
CR3201 | Instrumental Characterization | 3-0-0 | 3 | Syllabus |
CR3202 | Interface Science and Sol-gel Processing | 3-0-0 | 3 | Syllabus |
CR3207 | Bioceramics | 3-0-0 | 2 | Syllabus |
CR3211 | Ceramics in Energy Sector | 3-0-0 | 3 | Syllabus |
CR3301 | Functional Materials and Devices | 3-0-0 | 3 | Syllabus |
CR3302 | Electroceramics | 3-0-0 | 3 | Syllabus |
CR3401 | Refractory Technology | 3-0-0 | 3 | Syllabus |
CR3402 | Glass Technology | 3-0-0 | 3 | Syllabus |
CR3404 | Whiteware Technology | 3-0-0 | 3 | Syllabus |
CR3406 | Cement Technology | 3-0-0 | 3 | Syllabus |
CR3411 | Fuel Furnace Technology | 3-0-0 | 3 | Syllabus |
CR3414 | Unshaped Refractories | 3-0-0 | 3 | Syllabus |
CR3416 | Metallurgical Processes | 3-0-0 | 3 | Syllabus |
CR4101 | Structural Ceramics | 3-0-0 | 3 | Syllabus |
CR4102 | Tribology of Materials | 3-0-0 | 3 | Syllabus |
CR4107 | Mechanical Behaviour of Ceramics | 3-0-0 | 3 | Syllabus |
CR4109 | Phase Transformation and Reaction Kinetics | 3-0-0 | 3 | Syllabus |
CR4201 | Nanoceramics | 3-0-0 | 3 | Syllabus |
CR4203 | Bioceramics | 3-0-0 | 3 | Syllabus |
CR4204 | Ceramic Coating | 3-0-0 | 3 | Syllabus |
CR4205 | Composite Materials | 3-0-0 | 3 | Syllabus |
CR4206 | Nanoscience and Nanotechnology | 3-0-0 | 3 | Syllabus |
CR4207 | Porous Ceramics | 3-0-0 | 3 | Syllabus |
CR4208 | Interface science and sol-gel processing | 3-0-0 | 3 | Syllabus |
CR4209 | Nanoceramics | 3-0-0 | 3 | Syllabus |
CR4210 | Cellular Ceramics | 3-0-0 | 3 | Syllabus |
CR4302 | Electroceramics | 3-0-0 | 3 | Syllabus |
CR4306 | Ceramics in Energy Sectors | 3-0-0 | 3 | Syllabus |
CR4308 | Optical Ceramics | 3-0-0 | 3 | Syllabus |
CR4401 | Industrial Applications of Refractories | 3-0-0 | 3 | Syllabus |
CR4402 | Waste Management of Ceramic Industries | 3-0-0 | 3 | Syllabus |
CR4403 | Ceramic Equipment Design | 3-0-0 | 3 | Syllabus |
CR4404 | Industrial Furnace Design | 3-0-0 | 3 | Syllabus |
CR4409 | Lecture series by Ceramic Industry expert | 0-0-0 | 1 | Syllabus |
CR4414 | Unshaped Refractories | 3-0-0 | 3 | Syllabus |
CR6135 | Optical Ceramics | 3-0-0 | 3 | Syllabus |
CR6301 | Functional Materials and Devices | 3-0-0 | 3 | Syllabus |
CR6403 | Waste Management in Ceramic Industries | 3-0-0 | 3 | Syllabus |
CR6409 | Advanced Ceramic Manufacturing | 3-0-0 | 3 | Syllabus |
CR2108 | High Temperature Processing Laboratory | 0-0-2 | 1 | Syllabus |
CR2172 | High Temperature Processing Laboratory | 0-0-2 | 1 | Syllabus |
CR2271 | Ceramic Modelling Laboratory | 0-0-3 | 2 | Syllabus |
CR2405 | Unit Operations Laboratory | 0-0-2 | 1 | Syllabus |
CR2410 | Chemical Analysis Laboratory | 0-0-3 | 2 | Syllabus |
CR2471 | Chemical Analysis Laboratory | 0-0-3 | 2 | Syllabus |
CR2472 | Ceramic Fabrication Laboratory | 0-0-3 | 2 | Syllabus |
CR2474 | Cement Laboratory | 0-1-2 | 2 | Syllabus |
CR3203 | Instrumental Characterization Laboratory | 0-0-3 | 2 | Syllabus |
CR3205 | MATLAB and Simulink Laboratory | 0-0-2 | 1 | Syllabus |
CR3272 | Instrumental Characterization Laboratory | 0-0-3 | 2 | Syllabus |
CR3371 | Ceramography and Microscopy Laboratory | 0-0-2 | 1 | Syllabus |
CR3373 | Equipment Design Laboratory | 0-0-3 | 2 | Syllabus |
CR3403 | Refractory Laboratory | 0-0-3 | 2 | Syllabus |
CR3408 | Glass Laboratory | 0-0-3 | 2 | Syllabus |
CR3410 | Whiteware Technology Laboratory | 0-0-3 | 2 | Syllabus |
CR3412 | Cement Technology Laboratory | 0-0-2 | 1 | Syllabus |
CR3471 | Ceramics and Glass Studio | 0-1-2 | 2 | Syllabus |
CR3472 | Ceramic Product Development Laboratory | 0-0-2 | 1 | Syllabus |
CR3473 | Refractory Laboratory | 0-0-3 | 2 | Syllabus |
CR3474 | Glass Laboratory | 0-0-3 | 2 | Syllabus |
CR3476 | Whiteware Laboratory | 0-0-3 | 2 | Syllabus |
CR4103 | Mechanical Testing Laboratory | 0-0-3 | 2 | Syllabus |
CR4105 | Ceramography and microscopy Laboratory | 0-0-3 | 2 | Syllabus |
CR4171 | Mechanical Testing Laboratory | 0-0-3 | 2 | Syllabus |
CR4202 | Finite Element Laboratory | 0-0-2 | 1 | Syllabus |
CR4271 | Finite Element Laboratory | 0-0-3 | 2 | Syllabus |
CR4273 | Powder Synthesis Laboratory | 0-0-3 | 2 | Syllabus |
CR4304 | Electroceramics Laboratory | 0-0-3 | 2 | Syllabus |
CR4371 | Electroceramics Laboratory | 0-0-3 | 2 | Syllabus |
Subject Code | Subject Name | L-T-P | Credit | |
---|---|---|---|---|
CR0001 | Introduction to ceramics | 3-0-0 | 3 | Syllabus |
CR0002 | Properties of Ceramics | 3-0-0 | 3 | Syllabus |
CR0003 | Ceramic Fabrication | 3-0-0 | 3 | Syllabus |
CR0004 | Industrial Ceramics | 3-0-0 | 3 | Syllabus |
CR0005 | Ceramic testing and characterization | 3-0-0 | 3 | Syllabus |
CR0006 | Advanced Ceramics | 3-0-0 | 3 | Syllabus |
CR0007 | Industrial Ceramics Processing Laboratory | 0-0-2 | 1 | Syllabus |
CR0008 | Ceramic characterization Laboratory | 0-0-2 | 1 | Syllabus |
Subject Code | Subject Name | L-T-P | Credit | |
---|---|---|---|---|
CE2502 | Environmental Engineering | 3-0-0 | 3 | Syllabus |
CE3001 | Estimation and Construction Management | 3-0-0 | 3 | Syllabus |
CE3301 | Transportation Engineering | 3-0-0 | 3 | Syllabus |
CE3302 | Advanced Transportation Engineering | 3-0-0 | 3 | Syllabus |
CH1400 | Environment and Safety Engineering | 3-0-0 | 3 | Syllabus |
CS1002 | Programming Fundamentals | 2-0-0 | 2 | Syllabus |
CS2011 | Introduction to AI and ML | 2-0-0 | 2 | Syllabus |
CS3063 | Object Oriented System Design | 3-0-0 | 3 | Syllabus |
CS3064 | Foundations of Data Science | 3-0-0 | 3 | Syllabus |
CS4064 | AI in Healthcare | 3-0-0 | 3 | Syllabus |
CS4065 | Machine Learning for Non-Programmers | 3-0-0 | 3 | Syllabus |
CS4066 | Programming for Machine Learning | 3-0-0 | 3 | Syllabus |
CS4067 | Principles of Soft Computing | 3-0-0 | 3 | Syllabus |
CS4213 | Cybersecurity for Cyber Physical Systems | 3-0-0 | 3 | Syllabus |
CS4214 | Data Acquisition and Signal Processing | 3-0-0 | 3 | Syllabus |
CS6659 | Number Theory and Cryptography | 3-0-0 | 3 | Syllabus |
CY3404 | Fundamental of Materials and Nanochemistry | 3-0-0 | 3 | Syllabus |
CY5303 | Biochemistry | 3-0-0 | 3 | Syllabus |
CY5308 | Principles of Molecular Modeling and Applications | 3-0-0 | 3 | Syllabus |
CY5403 | Environmental Chemistry | 3-0-0 | 3 | Syllabus |
EE2003 | Electrical Measurement and Instrumentation | 3-0-0 | 3 | Syllabus |
EE2060 | ELECTRICAL INSTALLATION DESIGN | 2-0-0 | 2 | Syllabus |
EE2202 | Power Electronics | 3-0-0 | 3 | Syllabus |
EE2401 | Network Theory | 3-0-0 | 3 | Syllabus |
EE3004 | Electromagnetic Field Theory | 3-0-0 | 3 | Syllabus |
EE3011 | Electrical Machines | 3-0-0 | 3 | Syllabus |
EE3100 | Power Systems Operation and Control | 3-0-0 | 3 | Syllabus |
EE3112 | Power Systems | 3-0-0 | 3 | Syllabus |
EE3201 | Electric Drives | 3-0-0 | 3 | Syllabus |
EE3213 | Semiconductor Fabrication Technology | 2-0-0 | 2 | Syllabus |
EE3301 | Principles of Control Systems Engineering | 3-0-0 | 3 | Syllabus |
EE3412 | Digital Electronics and Microprocessors | 3-0-0 | 3 | Syllabus |
EE6243 | Soft Computing Techniques | 3-0-0 | 3 | Syllabus |
EE6245 | Silicon Solar Cell Technology | 3-0-0 | 3 | Syllabus |
EE6262 | Energy Storage Systems | 3-0-0 | 3 | Syllabus |
EE6268 | Energy Storage Systems | 3-0-0 | 3 | Syllabus |
HS1313 | Creative Writing | 3-0-0 | 3 | Syllabus |
HS1314 | Gender, Diversity, and Inclusion | 3-0-0 | 3 | Syllabus |
HS1333 | Post-Liberalization Social Transformation in India | 3-0-0 | 3 | Syllabus |
HS1345 | Optimization Theory in Economics | 3-0-0 | 3 | Syllabus |
HS1349 | Industry and Development | 3-0-0 | 3 | Syllabus |
LS4004 | Bioinformatics | 3-0-0 | 3 | Syllabus |
MA1003 | Mathematics - I | 3-0-0 | 3 | Syllabus |
MA1004 | Mathematics - II | 3-0-0 | 3 | Syllabus |
MA2001 | Probability and Statistics | 3-0-0 | 3 | Syllabus |
MA2005 | Numerical Methods | 3-0-0 | 3 | Syllabus |
MA2104 | Complex Analysis | 3-1-0 | 4 | Syllabus |
MA2305 | Numerical Analysis | 3-1-0 | 4 | Syllabus |
ME4254 | Semiconductor Manufacturing | 3-0-0 | 3 | Syllabus |
MM4507 | High Temperature Materials | 3-0-0 | 3 | Syllabus |
MM4510 | Advanced Processing of Materials | 3-0-0 | 3 | Syllabus |
MM5532 | High Temperature Materials | 3-0-0 | 3 | Syllabus |
PH3051 | Science of Nano-materials | 3-0-0 | 3 | Syllabus |
SM6102 | Financial Management | 3-0-0 | 3 | Syllabus |
SM6611 | Business Research Methodology | 3-0-0 | 3 | Syllabus |
CE4703 | Steel Structures Design Practice | 0-0-2 | 1 | Syllabus |
CS1010 | Programming for Problem Solving | 1-0-2 | 2 | Syllabus |
CS2083 | Hands-On with Operating Systems | 0-0-3 | 2 | Syllabus |
CS2084 | Object-Oriented Design & Development Laboratory | 0-0-3 | 2 | Syllabus |
CS2091 | Python Programming for ML Laboratory | 0-0-2 | 1 | Syllabus |
CS2093 | Data Preprocessing Laboratory | 0-0-2 | 1 | Syllabus |
CS2094 | Text Analysis and NLP Laboratory | 0-0-2 | 1 | Syllabus |
CS2095 | IoT Prototyping Laboratory | 0-0-2 | 1 | Syllabus |
CS2096 | Cybersecurity for Cyber Physical Systems Laboratory | 0-0-2 | 1 | Syllabus |
CS2097 | Basic Quantum Computing Programming | 0-0-2 | 1 | Syllabus |
CS2098 | Industrial IoT | 0-0-2 | 1 | Syllabus |
CS2099 | IoT Data analytics | 0-0-2 | 1 | Syllabus |
CS2672 | AI and ML Laboratory | 0-0-2 | 1 | Syllabus |
CS6658 | Data Analytics Capstone Project | 0-0-2 | 1 | Syllabus |
EA2110 | Professional Culture and Lifestyle in Healthcare | 0-0-1 | 1 | Syllabus |
EA2120 | Personality Development | 0-0-1 | 1 | Syllabus |
EA2170 | Self-Defense | 0-0-1 | 1 | Syllabus |
EA2260 | Dance and Theatre | 0-0-1 | 1 | Syllabus |
EA2270 | Music | 0-0-1 | 1 | Syllabus |
EA2310 | Deutsch Sprache (German Language) | 0-0-1 | 1 | Syllabus |
EA2410 | Sustainable Living | 0-0-1 | 1 | Syllabus |
EA2420 | Indian Knowledge System | 0-0-1 | 1 | Syllabus |
EA2430 | Indian Language (Sanskrit) | 0-0-1 | 1 | Syllabus |
EA2440 | Entrepreneurship | 0-0-1 | 1 | Syllabus |
EC2700 | Basic Electronics Laboratory | 0-0-2 | 1 | Syllabus |
EE2703 | Electrical Measurement and Instrumentation Laboratory | 0-0-2 | 1 | Syllabus |
EE2708 | Electrical Engineering Laboratory | 0-0-3 | 2 | Syllabus |
EE3703 | Power Electronics Laboratory | 0-0-3 | 2 | Syllabus |
EE3712 | Control Systems Laboratory | 0-0-2 | 1 | Syllabus |
EE3713 | Power Electronics Laboratory | 0-0-2 | 1 | Syllabus |
EE4701 | Power Systems Laboratory | 0-0-3 | 2 | Syllabus |
EE4711 | Power Systems Laboratory | 0-0-2 | 1 | Syllabus |
HS1270 | Language Laboratory | 0-0-2 | 1 | Syllabus |
MM2161 | Fundamentals of Metallurgical Engineering Laboratory | 0-0-2 | 1 | Syllabus |