BSc Electronics, Mathematics, Physics Colleges in Bangalore


NAAC re-accredited with 'A' Grade | Autonomous College under University Grants Commission & Bengaluru North University

BSc Electronics, Mathematics, Physics - Overview

It is a three-year degree programme, conducted in affiliation to Bengaluru North University, spread over six semesters. The course offers three subjects computer science, mathematics and physics, with equal emphasis given to each of these three majors. English language and optional languages are also part of this curriculum, which can be pursued during semesters 1 to 4. Practical-based laboratory sessions are an integral part of the curriculum, as shown in the course structure.

The main objectives of this course are: to provide a comprehensive understanding of electronics and communication system as part of electronics; to provide an understanding of advanced mathematics; to impart working knowledge of fundamental concepts in the basic areas of physics such as classical mechanics, quantum mechanics, electricity and magnetism, and thermodynamics.

Electronics is a branch of physics and technology concerned with the design of circuits using transistors and microchips, and the behaviour and movement of electrons in semiconductors, conductors, vacuum, or gas. The course covers various aspects of basic electronics, electronic circuits, special purpose devices, linear integrated circuits, digital electronics and verilog, communication, microprocessors, instrumentation and microcontrollers.

Mathematics is a science of numbers, quantity, and space, either as abstract concepts or as applied to other disciplines such as physics and engineering. The course covers various aspects of algebra, calculus, geometry, differential equations, real analysis and numerical methods.

Physics is a branch of science concerned with the nature and properties of matter and energy. The subject matter of this discipline includes mechanics, heat, light and other types of radiation, sound, electricity, magnetism, and the structure of atoms. The course covers various areas of mechanics, oscillations, properties of matter, thermal physics, statistical mechanics, electricity, magnetism, physical optics, laser, fiber optics, quantum statistical physics, quantum mechanics, astrophysics, solid state physics, semiconductor physics, atomic physics, molecular physics, nuclear physics, material science, atmospheric physics, electronics and computational physics.