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Home > Articles > Electrical Engineering Subjects & Syllabus: 1st, 2nd, 3rd Year, All Semester, Diploma
Updated on 09th February, 2024 , 18 min read
Electrical Engineering Subjects include Physics, Electric Drives, etc.
The Electrical Engineering Syllabus is built based on the 3-year course. One interested in pursuing Electrical Engineering should know the complete syllabus.
Electrical Engineering subjects in 1st year include Physics, Chemistry - II, etc.
To learn more about the Electrical Engineering Subjects, read the complete article below.
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The below mentioned is the explanation of the Electrical Engineering syllabus list all semester:-
The table below explains about the Electrical Engineering 1st Year syllabus:-
Electrical Engineering Subjects 1st Semester | Electrical Engineering Subjects 2nd Semester |
Engineering Chemistry | Basic Electrical and Electronics |
Environmental Science | Chemistry - II |
Professional Communication Skills | Chemistry Laboratory |
Physics | Physics - II |
Engineering drawing Laboratory | Professional communication skills-II |
Introduction to Computing | Physics Laboratory |
Engineering Mathematics-I | Engineering Maths - II |
Engineering Graphics | Basic Electrical and Electronics Laboratory |
The candidates can get the syllabus of Electrical Engineering of 2nd year below:-
Electrical Engineering Subjects 3rd Semester | Electrical Engineering Subjects 4th Semester |
Engineering Chemistry | Basic Electrical and Electronics |
Environmental Science | Chemistry - II |
Professional Communication Skills | Chemistry Laboratory |
Physics | Physics - II |
Engineering drawing Laboratory | Professional communication skills-II |
Introduction to Computing | Physics Laboratory |
Engineering Mathematics-I | Engineering Maths - II |
Engineering Graphics | Basic Electrical and Electronics Laboratory |
Applied Electrical Engineering | Control Systems |
Electrical Measurement & Measuring Instruments | Signals and System |
Electrical Machines | Electrical Machines -II |
Engineering Mathematics-III | Microcontrollers and Microprocessors |
Network and Analysis | Instrumentation and process control |
Engineering Thermodynamics and Hydraulics | Engineering Mathematics-IV |
Electrical Machines Laboratory | Microcontrollers Laboratory |
Electrical Measurement & Measuring Instruments Laboratory | Instrumentation laboratory |
The below mentioned is the list of the Electrical Engineering Syllabus 3rd Year:-
Electrical Engineering Subjects 5th Semester | Electrical Engineering Subjects 6th Semester |
Power Systems-I | Power Systems-II |
Digital Signal Processing | Electromagnetic Field Theory |
Electric Drives | Computer-Aided Design |
Communication Systems | Design of Electrical Machines |
Electronics Circuit Design | Basic Robotics |
Power Electronics Laboratory | Advanced Simulation Laboratory |
Electric Drives laboratory | Power Systems Laboratory |
The aspirants can look at the Electrical Engineering 4th Year Syllabus in the table below:-
Electrical Engineering Subjects 7th Semester | Electrical Engineering Subjects 8th Semester |
Advanced Control Systems | Management Principles and Concepts |
Switchgear & Protection | Elective - IV |
Engineering Economy and Financial Management | Elective - V |
Elective - II | Industrial Engineering and Operation Research |
Elective - III | Project - II |
Summer Internship | Industrial Management and Economics |
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The candidates who are willing to study the course of Diploma in Electrical Engineering should make sure that they are aware of the whole syllabus. The undermentioned is the Diploma Electrical Engineering Subjects List All Semester:-
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The under mentioned is the list of the colleges offering the course of Diploma in Electrical Engineering:-
Name of the College | Diploma in Electrical Engineering Course Fee |
MSU Baroda - Maharaja Sayajirao University of Baroda | INR 20,880 |
JMI New Delhi - Jamia Millia Islamia | INR 26,910 |
LPU Jalandhar - Lovely Professional University | INR 324,000 |
VJTI Mumbai - Veermata Jijabai Technological Institute | INR 34,679 |
IIT Kanpur - Indian Institute of Technology | INR 119,000 |
OPJS University, Rajgarh | INR 45,000 |
Sandip University, Nashik | INR 240,000 |
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The candidates who are interested in studying the course of Diploma in Electrical Engineering should refer to the below mentioned books:
Name of the books | Name of the author |
Foundations of Electrical Engineering | Leonard S. Bobrow |
Basic Electrical and Electronics Engineering | B.R. Patil |
Electric Machinery and Transformers | Bhag S. Guru |
Basic Electrical and Electronics Engineering | M. S. Sukhija |
Protection and Switchgear | Bhavesh Bhalja |
Basic Electrical Engineering | Prasanta Kumar Satpathy |
Basic Electrical Engineering | T.K. Nagsarkar |
Electrical Properties of Materials | Laszlo Solymar |
Materials Science for Electrical & Electronic Engineers | Ian Jones |
Power System Analysis | T.K. Nagsarkar |
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The candidates can refer to the below-mentioned M Tech Electrical Engineering Syllabus:-
The tabular format mentioned below is the complete detail about the Electrical Engineering Syllabus IIT Bombay:-
Course Code | Course Name | ||
CS 101 | Computer Programming and Utilisation | ||
EE111 | Introduction to Electrical Systems (DIC-1) | ||
MA105 | Calculus | ||
PH103 | Electricity and Magnetism | ||
ME113 | Workshop Practice | ||
PH117 | Physics Lab | ||
NC101# | National Cadet Corps (NCC) | ||
NO101# | National Sports Organisation (NSS) | ||
NS101# | National Service Scheme (NSS) |
Course Code | Course Name | ||
CH103 | Chemistry | ||
MA106 and MA108 | Linear Algebra and Ordinary Differential Equations 1 | ||
EE112 | Introduction to Electronics (DIC - 2) | ||
XX102 | Data Analysis and Interpretation | ||
CH117 | Chemistry Lab | ||
ME119 | Engineering Graphics and Drawing | ||
NC102# | National Cadet Corps (NCC) | ||
NO102# | National Sports Organisation (NSS) | ||
NS102# | National Service Scheme (NSS) |
Course Code | Course Name | ||
MA205 MA207 | Mathematics II (Complex Analysis + DE II) | ||
HS101 | Economics | ||
EE225 | Network Theory | ||
EE207 | Electronic Devices | ||
EE236 | Electronic Devices Lab | ||
IC211 | Measurements Lab | ||
Courses for Honor Requirement | |||
Honours Elective 1 | |||
Courses for Minor Requirement | |||
EE221 | Digital Electronics |
Course Code | Course Name | ||
EE210 | Signals and Systems | ||
EE204 | Analog Circuits | ||
EE222 | Electrical machines and Power Electronics | ||
EE224 | Digital Systems | ||
EE230 | Analog Lab | ||
EE214 | Digital Circuits Lab | ||
EE234 | Machines Lab | ||
Courses for Honor Requirement | |||
Honours Elective E2 | |||
Courses for Minor Requirement | |||
EE232 | Analog Electronics |
Course Code | Course Name | ||
EE309 | Microprocessors | ||
HSS Elective | |||
EE308 | Communication Systems | ||
EE301 | EM Waves | ||
EE325 | Probability and Random Processes | ||
EE340 | Communications Lab | ||
Total credits | |||
Courses for Honor Requirement | |||
Honours Elective E3 | |||
Courses for Minor Requirement | |||
EE327 EE210 | Signal Processing |
Course Code | Course Name | ||
EE302 | Control Systems | ||
EE338 | Digital Signal Processing | ||
EE328 | Digital Communications | ||
EE334 | Power Systems | ||
EE324 | Control Systems Lab | ||
Courses for Honor Requirement | |||
Honours Elective E4 | |||
Courses for Minor Requirement | |||
EE342 | Control and Communications |
Course Code | Course Name | ||
ES200 HS200 | Environment Studies | ||
Institute Elective I | |||
Dept. Elective I | |||
Dept. Elective II | |||
BTP-I | |||
Courses for Honor Requirement | |||
Honours Elective E5 | |||
Courses for Minor Requirement | |||
EE321 | Power Electronics |
Course Code | Course Name | ||
Institute Elective II | |||
Dept./Open Elective III | |||
Dept./Open Elective IV | |||
Dept. Elective V & Dept. Elective VI OR BTP-II | |||
Total credits | |||
Courses for Honor Requirement | |||
Honours Elective E6 | |||
Courses for Minor Requirement | |||
EE203 | Electronic Devices |
Course Code | Name of the course |
CS 207 | Discrete Structures |
CS 213 | Data Structures and Algorithms |
CS 317 | Database and Information Systems |
CS 347 | Operating Systems |
CS 348 | Computer Networks |
CS 416 | Computer and Network Security |
CS 419 | Introduction to Machine Learning |
CS 212 | Electronics Design I |
CS 218 | Design and analysis of algorithms |
CS 302 | Implementation of Programming Languages |
CS 303 | Digital Signal Processing |
CS 305 | Computer Architecture |
CS 317 | Database and Information Systems |
CS 336 | Computer Aided Geometric Design |
CS 344 | Artificial Intelligence |
CS 406 | Cryptography and Network Security -1 |
CS 408 | Graph Theory |
CS 414 | Introduction to Wireless Networks |
CS 435 | Linear Optimization |
CS 470 | Modelling and Simulation |
CS 472 | Introduction to VLSI Design Automation |
CS 478 | Advanced Microprocessor |
CS 601 | Algorithms and Complexity |
CS 604 | Combinatorics |
CS 621 | Artificial Intelligence |
CS 623 | Introduction to Computing with Neural Nets |
CS 627 | Graphical Models and Structured Learning |
CS 641 | Computer Networks |
CS 642 | Communication Networking |
CS 649 | Network Security |
CS 653 | Mobile Computing |
CS 660 | Multimedia Systems |
CS 663 | Digital Image Processing |
CS 664 | Pattern Recognition |
CS 683 | Advanced Computer Architecture |
CS 684 | Embedded Systems |
CS 709 | Convex Optimisation |
CS 716 | Introduction to Communication Networks |
CS 724 | Network Security & Cryptography 2 |
CS 725 | Machine Learning |
CS 726 | Advanced machine learning |
CS 729 | Topics in Machine Learning |
CS 763 | Computer Vision |
EN 640 | Solar Photovoltaic Devices |
EN 642 | Power Generation & Systems Planning |
EN 703 | Advanced Concepts in Solar Cells |
EP 205 | Photonics |
EP 208 | Statistical Mechanics |
EP 222 | Classical Mechanics 1 |
EP 226 | Waves and Oscillations and Thermodynamics |
EP 252 | Intro to Quantum Mechanics |
EP 307 | Quantum Mechanics 1 |
EP 308 | Introduction to Solid State Physics |
EP 331 | E.M. Theory and Relativity |
EP 332 | Thermal and Statistical Physics |
EP 401 | Photonics I |
EP 409 | Applied solid state Physics |
EP 410 | Advanced photonics |
EP 425 | Introduction to nanoscience and nanotechnology |
EP 426 | Physics of Quantum devices |
EP 431 | Semiconductor Physics |
EP 432 | Physics of Nanostructures and Nanoscale devices |
EP 454 | Light Mata Introduction |
IE 502 | Probabilistic Models |
IE 601 | Optimization Techniques |
IE 610 | Networks, Games and Algorithms |
IE 611 | Introduction to Stochastic Models |
IE 616 | Decision Analysis and Game Theory |
IE 702 | Neural Nets, Fuzzy Systems and Applications |
IE 708 | Markov Decision Processes |
IE 712 | Selected Applications of Stochastic Models |
IE 718 | Networks, Games and Algorithms |
MA 403 | Real Analysis 1 |
MA 404 | Real Analysis 2 |
MA 408 | Measure Theory |
SI 402 | Statistical Inference |
SI 417 | Introduction to Probability Theory |
SI 422 | Regression Analysis |
SI 514 | Statistical Modelling |
SI 527 | Introduction to Derivative Pricing |
PH 409 | Introduction to Condensed Matter Physics |
PH 429 | Introduction to Condensed Matter Physics I |
PH 430 | Introduction to Condensed Matter Physics II |
PH 504 | Quantum Electronics |
PH 534 | Quantum Information & Computing |
PH544 | General Theory of Relativity |
Name of the Books | Name of the authors |
Circuit Theory | SC Dutta Roy |
Control Systems | M Gopal |
Power Systems | DP Kothari |
Fundamentals of Electrical Engineering | S. B. Lal Seksena and Kaustuv Dasgupta |
The under mentioned is the detailed Electrical Engineering Syllabus of IIT Delhi:-
Course Code | Name of the subjects |
APL100 [3 - 1 - 0] | Engineering Mechanics Kinematics, Statics, Equations of Motion, Rigid body dynamics, Introduction to variational mechanics. |
CML101 [3 - 1 - 0] | Introduction to Chemistry, Entropy and free energy changes in chemical processes, chemical equilibria, phase transformations, structure and dynamics of microscopic systems, physical basis of atomic and molecular structure, three-dimensional arrangement of atoms in molecules, structure and reactivity of organic, inorganic and organometallic compounds, basic strategies for synthesis of carbon and silicon containing compounds, coordination chemistry, role of inorganic chemistry in living systems |
COL100 [3 - 0 - 2] | Introduction to Computer Science, Organization of Computing Systems. Concept of an algorithm; termination and correctness. Algorithms to programs: specification, top-down development and stepwise refinement. Problem solving using a functional style; Correctness issues in programming; Efficiency issues in programming; Time and space measures. Procedures, functions. Data types, representational invariants. Encapsulation, abstractions, interaction and modularity. Identifying and exploiting inherent concurrency. Structured style of imperative programming. Introduction to numerical methods. At least one example of large program development. |
COL106 [3 - 0 - 4] | Data Structures & Algorithms Introduction to object-oriented programming through stacks queues and linked lists. Dictionaries; skip-lists, hashing, analysis of collision resolution techniques. Trees, traversals, binary search trees, optimal and average BSTs. Balanced BST: AVL Trees, 2-4 trees, red-black trees, B-trees. Tries and suffix trees. Priority queues and binary heaps. Sorting: merge, quick, radix, selection and heap sort, Graphs: Breadth first search and connected components. Depth first search in directed and undirected graphs. |Disjkras algorithm, directed acyclic graphs and topological sort. Some geometric data-structures. |
CVL100 [2 - 0 - 0] | Environmental Science, Pollutant sources and control in air and water, solid waste management, noise pollution and control, cleaner production and life cycle analysis, reuse, recovery, source reduction and raw material substitution, basics of environmental impact assessment, environmental risk assessment and environmental audit, emerging technologies for sustainable environmental management, identification and evaluation of emerging environmental issues with air, water, wastewater and solid wastes. |
ELD411 [0 - 0 - 6] | B.TECH. PROJECT - I |
ELL101 [3 - 1 - 2] | Elements in an Electrical circuit: R, L, C, Diode, Voltage and current sources (independent and dependent/controlled sources with examples). DC circuits, KCL, KVL, Network theorems, Mesh and nodal analysis. Step response in RL, RC, RLC circuits. Phasor analysis of AC circuits. Single phase and 3-phase circuits. Two port network, BJT: CE and small signal model, Operational amplifiers: Model and applications Introduction to Digital circuits. Magnetic circuits, Transformers: Modeling and analysis; parameter determination. Energy in magnetic field. Electromechanical energy conversion principles with examples. Principles of measurement of voltage, current and power.|Laboratory component and the List of experiments.|CRO (mechanism and usage). KCL, KVL, Network theorem verification. Step/ transient response of RL, RC, RLC, circuits. Steady state response of Circuits of sinusoidal excitation. Diode experiment (clipping, clamping and rectification). Basic circuits using opamp. Transformers OC and SC tests. BH loop in an iron core, DC and AC motor for observation only. A small mini-project. |
ELL201 [3 - 0 - 3] | Digital Electronics, Gates, binary number systems, arithmetic operations. Minimization using K-maps, reduced K-maps, tabular methods; design using multiplexers, decoders, and ROMs. Latches, flip-flops, registers and counters. Asynchronous, synchronous counters. Finite state machines, implementations thereof. Mealy, Moore machines. Clock period computation. Memories. Partitioning and pipelining. VHDL/Verilog, the register-transfer-level description style. Switch level introduction to logic families, CMOS logic, static, pre-charge and clocked logic. Asynchronous circuits and design styles. |
ELL202 [3 - 1 - 0] | Circuit Theory, Overview of network analysis techniques, network theorems, transient and steady-state sinusoidal response. Network graphs and their applications in network analysis. Tellegens theorem, two-port networks, Z, Y, h, g, and transmission matrices. Combining two ports in various configurations. Analysis of transmission lines to motivate the scattering matrix. Scattering matrix and its applications in network analysis. Network functions, positive real functions, and network synthesis. Butterworth and Chebyshev approximations. Synthesis of lossless two-port networks. Synthesis of lattice all-pass filters. |
ELL203 [3 - 1 - 0] | Electromechanics, Review: AC Circuits, Complex representation and Power Measurement.|Magnetic Circuits: Simple magnetic circuit, analogy between magnetic circuits and electrical circuits, linear and nonlinear magnetic circuits, hysteresis and eddy current losses, permanent magnet materials.|Transformers: Single-phase and three-phase, analysis, equivalent circuit, Tests on transformers, phasor diagram regulation and efficiency, auto-transformer and instrument transformers (PT/CT).|Electro-mechanical energy conversion principles: Force and EMF production in a rotating machine.|DC machines: Types, construction, working principle, characteristics and applications.|3-phase induction machines: Types, construction, Introduction to windings and winding factor, production of revolving magnetic field, working principle on 3-phase induction machine, equivalent circuit, characteristics, phasor diagram and applications.|3-phase synchronous machines: Types, construction, working principle, equivalent circuit, characteristics, phasor diagram and applications.|Fractional-HP and Special Machines. |
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The candidates who are interested in studying the course of Electrical Engineering from IIT Kanpur can take a look at the IIT Kharagpur Electrical Engineering Syllabus below:-
Subject Number | Name of the Subject |
CE13001 | ENGINEERING DRAWING AND COMPUTER GRAPHICS |
ME10001 | MECHANICS |
PH19001 | PHYSICS LAB |
CS10001 | PROGRAMMING AND DATA STRUCTURES |
CS19101 | PROGRAMMING AND DATA STRUCTURES TUTORIAL AND LABORATORY |
MA10002 | MATHEMATICS-II |
CY11001 | CHEMISTRY |
HS13001 | ENGLISH FOR COMMUNICATION |
EA10001 | EXTRA ACADEMIC ACTIVITY-I |
PH11001 | PHYSICS |
EE19001 | ELECTRICAL TECHNOLOGY LAB |
EE11001 | ELECTRICAL TECHNOLOGY |
CY19001 | CHEMISTRY LAB |
EA10005 | INDUCTION PROGRAM |
MA10001 | MATHEMATICS-I |
EA10002 | EXTRA ACADEMIC ACTIVITY-II |
ME19001 | INTRODUCTION TO MANUFACTURING PROCESSES |
Subject Number | Name of the Subject |
EA10003 | EXTRA ACADEMIC ACTIVITY-III |
PH20003 | PHYSICS-II |
EE21101 | SIGNALS AND NETWORKS |
EE29001 | SIGNALS AND NETWORKS LAB. |
MA20101 | TRANSFORM CALCULUS |
EC21103 | INTRODUCTION TO ELECTRONICS |
EC29003 | INTRODUCTION TO ELECTRONICS LAB. |
Subject Number | Name of the Subject |
EE29004 | MEASUREMENTS AND ELECTRONIC INSTRUMENTS LAB. |
EE21004 | MEASUREMENTS AND ELECTRONIC INSTRUMENTS |
EA10004 | EXTRA ACADEMIC ACTIVITY-IV |
EE21002 | ELECTRICAL MACHINES |
EV20001 | ENVIRONMENTAL SCIENCE |
EE29002 | ELECTRICAL MACHINES LAB |
EC21008 | ANALOG ELECTRONIC CIRCUITS |
EC29008 | ANALOG CIRCUITS LAB |
BS20001 | SCIENCE OF LIVING SYSTEM |
Subject Number | Name of the Subject |
EE39009 | CONTROL AND INSTRUMENTATION LAB |
EE31011 | POWER ELECTRONICS |
EC39003 | DIGITAL ELECTRONIC CIRCUITS LAB |
EE39006 | POWER ELECTRONICS LAB |
EC31003 | DIGITAL ELECTRONIC CIRCUITS |
EE31009 | CONTROL SYSTEM ENGINEERING |
Subject Number | Name of the Subject |
EE39002 | POWER SYSTEMS LAB |
EE31002 | POWER SYSTEMS |
MA20106 | PROBABILITY AND STOCHASTIC PROCESSES |
EE30004 | EMBEDDED SYSTEMS |
CS31702 | COMPUTER ARCHITECTURE AND OPERATING SYSTEM |
EE39004 | EMBEDDED SYSTEMS LAB |
Subject Number | Name of the Subject |
EE48001 | INDUSTRIAL TRAINING |
EE49001 | CONTROL AND ELECTRONIC SYSTEM DESIGN |
EE41001 | INDUSTRIAL INSTRUMENTATION |
Subject Number | Name of the Subject |
EE48002 | COMPREHENSIVE VIVA VOCE |
EE40002 | ELECTRIC DRIVES |
EE49004 | POWER APPARATUS AND SYSTEM DESIGN |
The Electrical Engineering Syllabus for UPSC of both the papers is mentioned below:-
Name of the subject | Details |
Circuits-Theory |
|
Signals and Systems |
|
E.M. Theory |
|
Analog Electronics |
|
Digital Electronics |
|
Energy Conversion |
|
Power Electronics and Electric Drives |
|
Analog Communication |
|
Name of the subject | Details |
Control Systems |
|
Microprocessors and Microcomputers |
|
Measurement and Instrumentation |
|
Power Systems |
|
Power System Protection |
|
Digital Communication |
|
Name of the books | Name of the authors |
Electromagnetic Fields & Waves | KD Prasad |
Energy Conversion | Ashfaq Hussain |
Circuit Theory: Analysis and Synthesis | A. Chakrabarti |
Signals and Systems | Alan V. Oppenheim, Alan V. Willsky, S. Hamid Nawab |
Physics of Semiconductor Devices | Simon Sze |
Analog Electronics | J.B. Gupta |
Digital Logic and Computer Design | M. Morris Mano |
Principles of Electronics | V .K. Mehta |
The Electrical Engineering Syllabus GATE is provided in the table below:-
Name of the subject | Details |
Engineering Mathematics |
|
Electric Circuits |
|
Electromagnetic Fields |
|
Signals and Systems |
|
Electrical Machines |
|
Power Systems |
|
Control Systems |
|
Electrical and Electronic Measurements |
|
Analog and Digital Electronics |
|
Power Electronics |
|
Name of the topic | Name of the books | Name of the author |
Analog | Electronic Devices and Circuit Theory | Boylestad |
Control system | Control Systems Engineering | Nagrath and Gopal |
Circuit analysis | Transient Analysis Of Electric Power Circuits | Arieh L Shenkmann and also Chakraborty |
Digital Circuits | Digital Electronics | Digital Design by M.Morris Mano |
Electrical Machine | Electrical Machinery | P.S.Bimbhra |
The under mentioned is the complete explanation of the Electrical Engineering Syllabus NIT:-
Course Code | Course Title |
MA 101 | Mathematics – I |
HS 101 | English for Communication |
ME 102 | Engineering Graphics |
PH 101 | Physics |
CY 101 | Chemistry |
EC 101 | Basic Electronics Engineering |
EE 101 | Basic Electrical Engineering |
CE 102 | Environmental Science and Engineering |
ME101 | Basic Mechanical Engineering |
CS 101 | Problem Solving & Computer Programming (PSCP) |
CE101 | Engineering Mechanics |
PH 102 | Physics Laboratory |
CY102 | Chemistry laboratory |
CS 102 | PSCP Lab |
ME 103 | Workshop practice |
EA 101 | Extra Academic Activity |
Course Code | Course Title |
MA 151 | Mathematics – II |
ME 102 | Engineering Graphics |
HS101 | English for communication |
CY 101 | Chemistry |
PH101 | Physics |
EE 101 | Basic Electrical Engineering |
EC101 | Basic Mechanical Engineering |
CE102 | Environmental Science and Engineering |
CE 101 | Engineering Mechanics |
CS101 | Problem solving & Computer programming |
CY 102 | Chemistry Laboratory |
PH102 | Physics laboratory |
ME 103 | Workshop Practice |
CS102 | PSCP Lab |
EA 151 | Extra Academic Activity |
Course Code | Course Title |
MA 251 | Mathematics – IV |
EC 285 | Digital Electronics |
EE 251 | Circuit Theory-II |
EE 252 | Electrical Machines-I |
EE 253 | Power Systems |
EC 286 | IC Applications Lab |
EE 254 | Electrical Measurements Lab |
Course Code | Course Title |
SM 335 | Engineering Economics & Accountancy |
EE 351 | Power System Operations & Control |
EE 352 | Power Electronics |
EE 353 | Power System Protection |
EE 354 | Electrical Machines –III |
EE 355 | Control Systems Lab |
EE 356 | Electrical Machines Lab-II |
EE 390 | Open Elective – I |
Course Code | Course Title |
ME435 | Industrial Management |
EE 401 | Solid State Drives |
EE 402 | HVDC & FACTS |
EE 403 | Elective III |
EE 440 | Open Elective – II |
EE 441 | Seminar |
EE 449 | Project Work – Part A |
Course Code | Course Title |
EE 451 | Power Systems Lab |
EE 452 | Power Electronics & Drives Lab |
Elective – IV | |
Elective – V | |
Elective – VI | |
Elective – VII | |
Elective – VIII | |
EE 499 | Project Work – Part B |
Name of the books | Name of the authors |
Atkins Physical Chemistry | P. W. Atkins & Julio de Paula |
A Text Book of Engineering Chemistry | Shashi Chawla |
Engineering Chemistry | S. Vairam, P. Kalyani & Suba Ramesh |
Concise Inorganic Chemistry | Lee J.D |
Advanced Organic Chemistry | Jerry March |
The below mentioned are the EEE Engineering subjects:-
The aspirants of Electrical Engineering can find the list of the colleges offering the course below:-
Name of the College | Electrical Engineering Course Fee |
IIT Delhi | INR 8.41 Lakhs |
NIT Delhi | INR 6.37 Lakhs |
Delhi Technical University | INR 7.81 Lakhs |
IP University | INR 2.56 Lakhs |
Netaji Subhash University of Technology | INR 9.38 Lakhs |
Jamia Millia Islamia | INR 64.60 k |
Guru Nanak Dev Institute of Technology, Delhi | INR 20 k |
Delhi Skill and Entrepreneurship University, New Delhi | INR 51.75 k |
Pusa Institute of Technology | INR 15 k |
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By - Nikita Parmar 2024-09-06 10:59:22 , 6 min readAns. The three-year course that serves as the foundation for the Electrical Engineering Syllabus mostly contains subjects like DC Machines and Transformers, Digital Electronic Circuits, etc.
Ans. Electrical Engineering 1st Semester syllabus includes the topics like Mathematics – I, English for Communication, Engineering Graphics, Physics, Chemistry, Basic Electronics Engineering, etc.
Ans. No, Electrical Engineering is a 3-year course.
Ans. Space systems engineering, Electrical engineering, Telecommunications engineering.
Ans. In comparison, CSE is simpler than EEE. Both fields, though, are worthwhile and rely on your interests. Therefore, I advise you to choose a career path based on your interests rather than by doing what everyone else is doing. I hope this will be useful to you.
Ans. The fundamentals of calculation, data analysis, and the development and use of computer programmes are all studied in computer science. You can advance your career in a number of fields with a degree in computer science.
Ans. Systems Engineer, Electrical Engineer, Chemical Engineer, Big Data Engineer, Nuclear Engineer, Aerospace Engineer, Computer Hardware Engineer, Petroleum Engineer, etc.
Ans. It’s not the topic that causes problems. Every subject is simple, but only if you are interested in it. Electrical engineering is an easy course to take if you are interested in it and work hard to pursue it.
Ans. The GATE syllabus of Electrical Engineering comprises the subjects like Simple diode circuits, Clipping, Clamping, Rectifiers, Amplifiers, Biassing, etc.
Ans. There are several subjects in the Electrical Engineering IIT Bombay syllabus such as Electricity and Magnetism, Workshop Practice, Physics Lab, National Cadet Corps (NCC), etc.
Ans. At work, electricians do standard measurements and calculations using basic Maths operations including addition, subtraction, multiplication, and division. To determine things like room measurements, wiring lengths, convert watts to kilowatts, and compute loads, you would be using fractions, percentages, and decimals.
Ans. In order to download the Electrical Engineering subjects list all semester pdf, go to the official website of the authority, go to the pdf option and then download the same.
Ans. The Electrical Engineering Subjects include Communication and Computer networks, Electrical & Electronics Measurements, Electronics II, etc.
Ans. Yes, IIT Kharagpur does offer the course of Electrical Engineering. Further, the IIT Kharagpur Electrical Engineering Syllabus includes the topics like Engineering Drawing And Computer Graphics, Mechanics, Physics Lab, etc.
Ans. The colleges offering Electrical Engineering are MSU Baroda - Maharaja Sayajirao University of Baroda, JMI New Delhi - Jamia Millia Islamia, LPU Jalandhar - Lovely Professional University, VJTI Mumbai - Veermata Jijabai Technological Institute, etc.