This course includes in-class theory discussion of Solid State Physics with experimental demonstrations in the Physics Laboratory.  The course will provide valuable insight through a theoretical introduction and an overview of the essential applications of the “physics” of solids. This course includes a theoretical description of crystal and electronic structure, lattice dynamics, and optical properties of different materials (metals, semiconductors, dielectrics, and magnetic materials), based on both the classical and quantum physics principles. Several experiments of Hall Effect, Hysteresis loss using B-H curve, Effect on the dielectric property with frequency change, Energy Bandgap …etc., will be performed out in the Physics Laboratory followed by their in-class theoretical discussions. 


This course is thought at TYBSC Physics as 4 Credit Course. It comprises of two sections In section I   students are given knowledge about the motion of the system of particles under central force and moving coordinate systems, equation of motion Rigid body is also discussed. In section II engines are discussed, refrigeration compression is also discussed. It also covers probability and statistical concept.

This course is divided into two parts. .The first part deals with Atomic Physics wherein the Schrodinger's equation is solved for hydrogen and three quantum numbers are obtained namely Principal, Orbital and Magnetic. Importance of spin and its interaction with orbital momentum in presence/absence of magnetic field will be discussed. The second part deals with Molecular Physics wherein spectra of diatomic molecule Raman spectra will be discussed.

A network, in the context of electronics, is a collection of interconnected electronic components. SKILL ENHANCED COURSE presents a few structured techniques used to mathematically analyze some complex circuits.

This choice based course is offered to our S.Y.BSc students along with practicals, which will enhance their understanding of Networks and it's components.

Quantum mechanics/Wave Mechanics deals with the wave aspect of material particles characterised by  de-Broglie's hypothesis .

This course will help the non physics student to brush up their basic knowledge of the subject and study a little more in dept about the various kinds of units used, the different Properties of Matter, Acoustics Electrostatics and Electricity, Magnetism and Basic Electronics where they study about rectifiers and transistors.

This course includes Vector Calculus and Electrostatics. 

Students are expected to learn basics of vector calculus so that they can use these concepts to understand Electrostatics. 

Electrostatics is a study of electric field produced by stationary electric charges. 

The Course offers the student a thorough knowledge of Analog and Digital electronics in terms of working of various analog circuits such as Mutivibrators, Field Effect Transistors, Applications of Operational Amplifiers, Integrated circuits such as 555 Timers, and Digital circuits in terms of Logic families, Flip flops and Counters.

This course deals with basic properties of nucleus and the nuclear force. ,Radioactivity,and radioactive decay.Liquid drop model , nuclear reaction in  reactor ,detectors is also scope of the syllabus.