Electrical Engineering Curriculum at Mahayogi Gorakhnath University
The Electrical Engineering curriculum at Mahayogi Gorakhnath University is meticulously designed to provide students with a robust foundation in core electrical concepts while encouraging innovation and research. The program spans eight semesters and includes a balanced mix of theoretical subjects, laboratory work, departmental electives, and practical projects.
Semester-wise Course Structure
| Year | Semester | Course Code | Course Title | Credit Structure (L-T-P-C) | Prerequisites |
|---|---|---|---|---|---|
| Year 1 | Semester 1 | MA101 | Calculus and Differential Equations | 3-1-0-4 | - |
| PH101 | Physics for Engineers | 3-1-0-4 | - | ||
| CH101 | Chemistry for Engineers | 3-1-0-4 | - | ||
| ME101 | Basic Mechanical Engineering | 3-1-0-4 | - | ||
| CS101 | Introduction to Programming | 2-0-2-3 | - | ||
| EC101 | Basic Electrical Engineering | 3-1-0-4 | - | ||
| HS101 | English for Engineers | 2-0-0-2 | - | ||
| EG101 | Engineering Graphics | 2-1-0-3 | - | ||
| EP101 | Engineering Practices | 0-0-4-2 | - | ||
| IT101 | Introduction to Information Technology | 2-0-0-2 | - | ||
| Year 1 | Semester 2 | MA102 | Probability and Statistics | 3-1-0-4 | MA101 |
| PH102 | Modern Physics and Applications | 3-1-0-4 | PH101 | ||
| CH102 | Organic Chemistry and Biochemistry | 3-1-0-4 | CH101 | ||
| ME102 | Mechanics of Materials | 3-1-0-4 | ME101 | ||
| CS102 | Data Structures and Algorithms | 2-0-2-3 | CS101 | ||
| EC102 | Electrical Circuits and Networks | 3-1-0-4 | EC101 | ||
| HS102 | Critical Thinking and Communication | 2-0-0-2 | - | ||
| EG102 | Computer Aided Drafting | 2-1-0-3 | EG101 | ||
| EP102 | Engineering Workshop | 0-0-4-2 | - | ||
| IT102 | Computer Fundamentals and Applications | 2-0-0-2 | IT101 | ||
| Year 2 | Semester 3 | MA201 | Linear Algebra and Numerical Methods | 3-1-0-4 | MA102 |
| PH201 | Electromagnetic Field Theory | 3-1-0-4 | PH102 | ||
| CH201 | Inorganic Chemistry and Material Science | 3-1-0-4 | CH102 | ||
| ME201 | Thermodynamics and Heat Transfer | 3-1-0-4 | ME102 | ||
| CS201 | Object-Oriented Programming with C++ | 2-0-2-3 | CS102 | ||
| EC201 | Electronics Devices and Circuits | 3-1-0-4 | EC102 | ||
| HS201 | Leadership and Team Management | 2-0-0-2 | - | ||
| EG201 | Engineering Design and Modeling | 2-1-0-3 | EG102 | ||
| EP201 | Lab Practical I | 0-0-6-3 | - | ||
| IT201 | Database Management Systems | 2-0-2-3 | IT102 | ||
| Year 2 | Semester 4 | MA202 | Differential Equations and Partial Derivatives | 3-1-0-4 | MA201 |
| PH202 | Optics, Lasers and Fiber Optics | 3-1-0-4 | PH201 | ||
| CH202 | Physical Chemistry and Applications | 3-1-0-4 | CH201 | ||
| ME202 | Mechanical Vibrations and Dynamics | 3-1-0-4 | ME201 | ||
| CS202 | Operating Systems | 2-0-2-3 | CS201 | ||
| EC202 | Digital Electronics and Logic Design | 3-1-0-4 | EC201 | ||
| HS202 | Cultural Awareness and Ethics | 2-0-0-2 | - | ||
| EG202 | Engineering Visualization Tools | 2-1-0-3 | EG201 | ||
| EP202 | Lab Practical II | 0-0-6-3 | - | ||
| IT202 | Web Technologies and Applications | 2-0-2-3 | IT201 | ||
| Year 3 | Semester 5 | MA301 | Complex Variables and Transform Methods | 3-1-0-4 | MA202 |
| PH301 | Quantum Mechanics and Applications | 3-1-0-4 | PH202 | ||
| CH301 | Chemical Engineering Principles | 3-1-0-4 | CH202 | ||
| ME301 | Machine Design and Manufacturing Processes | 3-1-0-4 | ME202 | ||
| CS301 | Software Engineering | 2-0-2-3 | CS202 | ||
| EC301 | Signals and Systems | 3-1-0-4 | EC202 | ||
| HS301 | Global Issues and Sustainable Development | 2-0-0-2 | - | ||
| EG301 | Computer-Aided Engineering Design | 2-1-0-3 | EG202 | ||
| EP301 | Advanced Lab Practical I | 0-0-6-3 | - | ||
| IT301 | Mobile Application Development | 2-0-2-3 | IT202 | ||
| Year 3 | Semester 6 | MA302 | Linear Programming and Optimization | 3-1-0-4 | MA301 |
| PH302 | Nuclear Physics and Applications | 3-1-0-4 | PH301 | ||
| CH302 | Environmental Chemistry and Pollution Control | 3-1-0-4 | CH301 | ||
| ME302 | Strength of Materials and Structural Analysis | 3-1-0-4 | ME301 | ||
| CS302 | Advanced Data Structures and Algorithms | 2-0-2-3 | CS301 | ||
| EC302 | Control Systems | 3-1-0-4 | EC301 | ||
| HS302 | Philosophy and Critical Analysis | 2-0-0-2 | - | ||
| EG302 | Engineering Project Management | 2-1-0-3 | EG301 | ||
| EP302 | Advanced Lab Practical II | 0-0-6-3 | - | ||
| IT302 | Cloud Computing and DevOps | 2-0-2-3 | IT301 | ||
| Year 4 | Semester 7 | MA401 | Stochastic Processes and Applications | 3-1-0-4 | MA302 |
| PH401 | Optical Instruments and Metrology | 3-1-0-4 | PH302 | ||
| CH401 | Industrial Chemistry and Process Control | 3-1-0-4 | CH302 | ||
| ME401 | Manufacturing Systems and Automation | 3-1-0-4 | ME302 | ||
| CS401 | Artificial Intelligence and Machine Learning | 2-0-2-3 | CS302 | ||
| EC401 | Power Electronics and Drives | 3-1-0-4 | EC302 | ||
| HS401 | Global Leadership and Change Management | 2-0-0-2 | - | ||
| EG401 | Design and Innovation Workshop | 2-1-0-3 | EG302 | ||
| EP401 | Capstone Project I | 0-0-8-4 | - | ||
| IT401 | Distributed Systems and Network Security | 2-0-2-3 | IT302 | ||
| Year 4 | Semester 8 | MA402 | Mathematical Modeling and Simulation | 3-1-0-4 | MA401 |
| PH402 | Electronics Materials and Devices | 3-1-0-4 | PH401 | ||
| CH402 | Chemical Process Engineering | 3-1-0-4 | CH401 | ||
| ME402 | Advanced Manufacturing Techniques | 3-1-0-4 | ME401 | ||
| CS402 | Computer Vision and Image Processing | 2-0-2-3 | CS401 | ||
| EC402 | Communication Systems | 3-1-0-4 | EC401 | ||
| HS402 | Human Rights and Social Justice | 2-0-0-2 | - | ||
| EG402 | Entrepreneurship and Innovation | 2-1-0-3 | EG401 | ||
| EP402 | Capstone Project II | 0-0-8-4 | - | ||
| IT402 | Blockchain and Cryptocurrency Technologies | 2-0-2-3 | IT401 |
Advanced Departmental Electives
Departmental electives in the Electrical Engineering program at Mahayogi Gorakhnath University are designed to deepen students' understanding of specialized areas and provide them with practical skills needed in their chosen fields.
- Power Electronics and Drives: This course covers advanced topics in power conversion, motor drives, and renewable energy integration. Students learn about DC-DC converters, inverters, and variable frequency drives (VFDs). The course includes hands-on laboratory sessions using real-world equipment.
- Control Systems: Focuses on classical and modern control theory, including PID controllers, state-space methods, and system stability analysis. Students implement control strategies in MATLAB/Simulink and hardware-in-the-loop simulations.
- Signal Processing: Introduces students to digital signal processing techniques, including filtering, spectral analysis, and transform methods. The course emphasizes practical applications in audio, biomedical, and communication systems.
- Electromagnetic Fields and Waves: Explores electromagnetic wave propagation, transmission lines, and antenna design. Students gain insights into radar systems, wireless communication, and microwave engineering through theoretical and computational approaches.
- Renewable Energy Systems: This course examines various renewable energy technologies such as solar photovoltaics, wind turbines, and hydroelectric power plants. Students study energy storage solutions, grid integration challenges, and policy frameworks for sustainable development.
- Microprocessor Architecture and Embedded Systems: Provides an in-depth understanding of microcontroller architectures, programming languages (C/C++), and real-time operating systems. Students develop embedded applications using ARM-based platforms and IoT devices.
- Communication Systems: Covers analog and digital communication principles, modulation techniques, error correction codes, and network protocols. The course includes laboratory experiments on signal transmission and reception.
- Power System Analysis and Stability: Focuses on analyzing power system components, load flow studies, short circuit analysis, and transient stability. Students model and simulate complex power networks using industry-standard software tools.
- Artificial Intelligence in Engineering Applications: Integrates AI concepts with engineering practices, focusing on machine learning algorithms, neural networks, and deep learning frameworks. Students apply these techniques to solve real-world problems in control systems, signal processing, and robotics.
- VLSI Design: Teaches the fundamentals of Very Large Scale Integration (VLSI) design, including logic synthesis, layout design, and verification methods. Students use CAD tools like Cadence and Synopsys to design integrated circuits from gate level to system level.
Project-Based Learning Philosophy
The Electrical Engineering program at Mahayogi Gorakhnath University strongly emphasizes project-based learning as a cornerstone of education. This approach enables students to apply theoretical knowledge in practical scenarios while developing problem-solving and critical thinking skills.
Mini-Projects
Mini-projects are mandatory assignments completed during the third and fourth years of the program. These projects typically last 6-8 weeks and involve small teams of 3-5 students working under faculty supervision. Students are encouraged to choose topics aligned with their interests or industry needs.
Final-Year Thesis/Capstone Project
The final-year capstone project represents the culmination of a student's academic journey. It spans 12 weeks and requires extensive research, design, implementation, and documentation. Students select projects in consultation with faculty mentors based on their career aspirations or emerging technological trends.
Selection Process
Students begin the selection process during their third year by submitting project proposals to faculty members whose research interests align with theirs. The faculty evaluates proposals based on feasibility, novelty, and alignment with departmental goals. Selected students are then assigned mentors who guide them through the project lifecycle.