The Department of Physics with Electronics at Federal University Birnin Kebbi was established in 2013 and is dedicated to fostering innovation and excellence in both the theoretical and practical undarstanding of Natural Science principles. Our program equips students with a deep understanding of Physics, Electronics, and the intricate workings of science and technologies. We address some of the most complex challenges in power generation, preparing students to make significant contributions to fields ranging from solar system design, electronics device fabrication, system modeling and optimization etc.
Our curriculum strikes a balance between theoretical foundations and hands-on practical skills. Students engage with core subjects such as Design, Simulations and optimization of Electronics systems in various areas eg. Power generation, madeical imaging, communication all aspects of Electronics instrumentatios. These studies are paired with practical lab work that allows students to design, implement, and test real-world solutions.
The future of Physics with Electronics is vast and dynamic, and our graduates are well-prepared to thrive in it. Whether aspiring to work in tech giants, innovative startups, or research institutions, students will leave our program with a solid foundation for a successful career in areas like altanative energy generation, Electronics devices management, device fabrication, system modeling and control Engineering . Our graduates are also poised to contribute to critical sectors such as healthcare, finance, environmental science, and business
Programmes
- BSc. Physics with Electronics
Admissions Requirements
Requirements
O Level : ENG, MATH, CHE, PHY, BIO/GEO
UTME: ENG, MATH, CHE, PHY, BIO
Requirements
A level- : ENG, MATH, CHE, PHY, BIO/GEO
ND or HND with merit in Physics, Elect-Elect, SLT. Mech. Eng, Civil Eng
What you will study
- GST111 – Communication in English
- GST112 – Nigerian Peoples and Culture
- COS101 – Introduction to Computing Science
- MTH101 – Elementary Mathematics I
- MTH102 – Elementary Mathematics II
- MTH103 – Elementary Mathematics III
- PHY101 – General Physics I
- PHY102 – General Physics II
- PHY103 – General Physics III
- PHY104 – General Physics IV
- PHY107 – General Physics Practical I
- PHY108 – General Physics Practical II
- PHY106 – Introduction to Basic Electronics
- STA111 – Descriptive Statistics
- PHY203 – Atomic Physics
- GST201 – Communication in English II
- PHY201 – Elementary Modern Physics
- PHY214 – Digital Electronics Laboratory
- PHY207 – General Physics & Analog Electronics Laboratory I
- GST204 – Peace Studies and Conflict Resolution
- PHY205 – Heat and Thermodynamics
- PHY210 – Electronics Communications I
- PHY298 – Workshop Practice
- PHY208 – General Physics & Digital Electronics Laboratory II
- STA202 – Statistics for Physical Science and Engineering
- GST203 – History and Philosophy of Science
- PHY212 – Digital Electronics
- PHY202 – Foundation electric circuit and Electronics
- PHY213 – Analog Electronics
- PHY211 – Physics of Semiconductors
- PHY209 – Electromagnetic Field and Waves
- MAT202 – Introduction to Differential Equations
- CSC201 – Computer Programming II
- PHY206 – Energy Resources and Power
- PHY204 – Optics
- MAT201 – Mathematical Methods I
- GST202 – Logic Philosophy and Human Existence
- PHY306 – Statistical & Thermal Physics
- PHY311 – Complex & Tensor Analysis
- GST301 – Entrepreneurship and Innovation
- PHY309 – Solid State Physics I
- GST302 – Venture Creation and Growth
- PHY301 – Analytical Mechanics I
- PHY313 – Mathematical Methods in Physics I
- PHY317 – Electronics Instrumentation I
- PHY305 – Introduction to Quantum Physics
- PHY302 – Analytical Mechanics II
- PHY310 – Energy and Environment
- PHY398 – Student Industrial Work Experience Scheme I (SIWES)
- PHY314 – Mathematical Methods in Physics II
- PHY304 – Electronics Instrumentation II
- PHY307 – General Physics & Electronics Laboratory III
- PHY312 – Digital electronics and signal processing
- PHY303 – Electromagnetism
- PHY308 – General Physics & Electronics Laboratory IV
- PHY315 – Circuit Theory
- PHY400 – Circuit Analysis and Synthesis
- PHY401 – Quantum Mechanics I
- PHY402 – Quantum Mechanics II
- PHY403 – Computational Physics
- PHY404 – Power Electronics
- PHY405 – Solid State Physics II
- PHY406 – Electrodynamics
- PHY409 – Applied Geophysics I
- PHY410 – Applied geophysics II
- PHY411 – Nuclear and Particle Physics I
- PHY412 – Nuclear and Particle Physics II
- PHY413 – Atmospheric Physics
- PHY414 – Sensors and actuators
- PHY415 – Microprocessor & microcontroller
- PHY416 – Communication Network
- PHY417 – Communication Principle & System
- PHY490 – Seminar
- PHY498 – Student Industrial Work Experience Scheme II (SIWES)
- PHY499 – Research Project
Research Interest
- Medical Physics,
- Electronics instrumentations
- Atmospheric Physics
- Power Electronics
- Solid State Physics
- Theoritical physics
- Electronics Communication
- Control Engineering and Nuclear Physics
- Electronics Communication
DEPARTMENT STAFF
- DR. JAMIL MUHAMMAD