Programme Mode
Full-Time
Duration
B.Sc. Physics Electronics
Overview
The B.Sc. Physics Electronics programme at FUADSI blends the principles of physics with electronic systems to prepare students for careers in technology, research, and engineering. The curriculum emphasizes theoretical knowledge and practical applications, equipping graduates to design, analyze, and innovate in electronic and physical systems.
Programme Objectives
- Provide a strong foundation in classical and modern physics.
- Develop expertise in electronic circuits, instrumentation, and control systems.
- Foster analytical and problem-solving skills for technological innovation.
- Prepare students for advanced studies, research, and professional roles in physics and electronics.
Career Opportunities
Graduates can pursue careers as:
- Electronics Engineers
- Instrumentation Specialists
- Telecommunications Experts
- Research Scientists
- Embedded Systems Developers
- Renewable Energy Technologists
Key Features
- Hands-on laboratory experience in electronics and physics experiments.
- Access to advanced simulation and circuit design tools.
- Industry internships and collaborative projects.
- Opportunities for certifications and international exchange programs.
Admission Requirements
For detailed information on the general admission requirements, application guidelines, deadlines, and required documents, please visit the Admissions page.
How to Apply
To apply, visit the Undergraduate Admissions Portal.
| Year | Semester | Core Subjects | Description |
|---|---|---|---|
| Year 1 – Foundations | Semester 1 | General Physics I (Mechanics & Thermodynamics) Calculus I Introductory Electronics Chemistry for Physical Sciences Computer Programming Basics |
Fundamental physics concepts, basic electronics, and essential mathematical tools. |
| Semester 2 | General Physics II (Electricity & Magnetism) Calculus II Basic Circuit Theory Introductory Statistics Workshop Practice |
Electricity and magnetism principles, circuit fundamentals, and practical skills. | |
| Year 2 – Intermediate | Semester 3 | Modern Physics Analog Electronics I Differential Equations Digital Logic Design Laboratory Techniques |
Introduction to modern physics, analog circuits, and digital systems. |
| Semester 4 | Electricity & Magnetism II Analog Electronics II Signals & Systems Numerical Methods Electronics Laboratory |
Advanced electromagnetism, analog design, and signal processing fundamentals. | |
| Year 3 – Advanced Core | Semester 5 | Quantum Mechanics I Solid State Physics Microprocessor Systems Instrumentation & Measurement Elective (Renewable Energy / Embedded Systems) |
Quantum principles, semiconductor physics, and microprocessor applications. |
| Semester 6 | Quantum Mechanics II Electromagnetic Waves Control Systems Advanced Electronics Laboratory Elective (Telecommunications / Robotics) |
Advanced quantum theory, wave propagation, and control system design. | |
| Year 4 – Specialization & Research | Semester 7 | Advanced Electronics & Circuit Design Power Electronics Project Proposal & Seminar Elective (IoT / VLSI Design) |
Specialized electronics topics and project planning. |
| Semester 8 | Final Year Project / Dissertation Advanced Instrumentation Professional Ethics & Entrepreneurship Elective (Nanotechnology / Advanced Control Systems) |
Capstone research project and professional development. |
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