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To fully understand the most complex principles and ideas, a career in physics requires considerable debate, you should be familiar with its syllabus. But in order to fully understand a course before enrolling in it, you should be familiar with its syllabus. This post describes all the details of the * bsc physics syllabus* and BSc Physics Honors curricula, as well as the key topics and ideas.

## BSc Physics Syllabus – Semester Wise

To help you see and understand the **bsc physics syllabus**, we’ve listed all the subjects according to each semester:

### Semester 1

#### Introduction to Mathematical Physics

Multiple integrals, the Dirac function, special integrals, and vector calculus are some examples.

#### Mechanics

Students will gain a complete understanding of engineering in addition to mechanical engineering by taking this course, which covers the principles of ideas including force, motion, gravity, and elasticity.

Topics covered include Gravitation, Work and Energy, Collision, Elasticity, and Fundamentals of Dynamics and Rotational Dynamics, among others.

#### Chemistry

Students can learn about chemical functions, thermodynamic structures, and kinetics through this subject, which includes organic chemistry and bonding solid forces.

### Semester 2

#### Magnetism and eElectricity

Electromagnetic induction, electric circuits, magnetic fields, and material properties are a few examples.

#### Waves & Oscillations

A few examples include interference, diffraction, and collinear harmonic oscillations.

#### Technical Writing and Communication in English

Technical writing is crucial to teach students how to obtain, analyze, and report technical information in order to create ethical and logical structures.

### Semester 3

#### Digital Electronics

Boolean algebra, integrated circuits, CRO, shift registers, timers, and analog and digital circuits are a few examples.

#### Microprocessors and computer programming

Students can better understand the various components and purposes of modern microprocessing by using programming languages like C++, control statements, and array structures.

#### Thermal Physics

Thermodynamics includes fundamental ideas from thermal physics, such as thermodynamic systems, atmosphere, and characteristics. It also includes the Kinetic Theory of Gases and the Distribution of Velocities.

### Semester 4

#### Statistics and Mathematical Analysis

The analysis of sequences and series uniform convergence and intelligence integration are the main topics of this course. Students can learn about fundamental functions and approaches for understanding the intricacy of the beta and gamma functions thanks to all these ideas.

#### Modern Physics

Radioactivity, quantum mechanics, fission and fusion, Planck’s quantum, two-slit interference, etc.

#### Analog Systems & Applications

Conversion, Amplifiers & Operational Amplifiers, Sinusoidal Oscillators, Bipolar Junction Transistors, etc.

### Semester 5

#### Molecular and Atomic Physics

Lattice dynamics, superconductivity, band theory, crystal structure, and dielectric properties are a few examples.

#### Quantum Mechanics

Bound states, hydrogen-like atoms, the Schrodinger equation with time dependence and independence, etc.

#### Elective

Depending on the choice

### Semester 6

#### Electromagnetic Theory

Optical fibers, polarization, and the Maxwell equations are a few examples of subjects.

#### Statistical Physics

The Bose-Einstein statistics, the Fermi-Dirac statistics, and the classical and quantum theories of radiation.

#### Elective

Depending on the topic chosen

## BSc Physics: Major Subjects

If you’re wondering how many subjects there are in the **bsc physics syllabus**, you should know that each semester of the program consists of three core subjects. The third and fourth years of study provide advanced knowledge through electives including Physics of Devices and Communication, Astrophysics, Nuclear Physics, Nano Materials and Applications, etc.

### Mathematical Physics

The focus of mathematical physics is on a variety of multidisciplinary applications of physics. Students are given the opportunity to learn about the many mathematical concepts in the context of how they might be used in the study of physics.

### Magnetism and electricity

This subject in the **bsc physics syllabus** entails the investigation of electric field and electric force and focuses on learning about the composition and characteristics of electric and magnetic fields. The bullet points below provide clarification on the major subjects covered in “Electricity and Magnetism”:

- Electric Field and Electric Potential
- Dielectric Properties of Matter
- Magnetic Field
- Magnetic Properties of Matter
- Electromagnetic Induction
- Electrical Circuits
- Network theorems

### Thermal Physics

To give students a thorough understanding of its applications in the many thermodynamic systems, such as refrigerators, motors, and the atmosphere, thermal physics is taught in the **bsc physics syllabus**. The following are the main subfields of thermal physics:

- Zeroth and First Law of Thermodynamics
- Second Law of Thermodynamics
- Entropy
- Maxwell’s Thermodynamic Relations
- Kinetic Theory of Gases
- Thermodynamic Potentials
- Molecular Collisions
- Real Gases

### Digital Systems and Applications

The main goal of this subject area in the BSc Physics curriculum is to give students a thorough understanding of how various digital systems operate, including their operational circuits and applications.

- Integrated Circuits
- Digital Circuits
- Boolean algebra
- Timers
- Arithmetic Circuits
- Data processing circuits
- Sequential Circuits

### Quantum Mechanics

Quantum mechanics is a subject that you will frequently encounter when looking over the **bsc physics syllabus**. Students gain knowledge of the fundamentals of quantum mechanics, its uses, and how it connects to linear algebra. Take a look at the following subjects you will learn about in quantum mechanics:

- Time-independent Schrodinger equation
- General discussion of bound states in an arbitrary potential
- Quantum theory of hydrogen-like atoms
- Atoms in Electric and Magnetic Fields
- Electron atoms

### Statistical Physics

The vast collections of associated objects are the subject of detailed study in the branch of physical science known as statistical physics. In this field, particles, atoms, magnetic spins, liquid volumes, etc. are typically the objects of investigation.

### Nuclear Physics

Protons and neutrons, the minuscule particles found in the core of an atom’s nucleus, are the focus of nuclear physics. You will become familiar with the complex structure of atoms in this subject through a variety of noteworthy models and experiments.

If you want to learn more about how these tiny particles fit into a large system of space, this is the **bsc physics syllabus** subject that you will appreciate the most.

### Theory of Relativity and Classical Mechanics

Fundamental mechanics ideas like inertia, speed, Newton’s latent capacity, Kepler movement, and state of matter are connected to relativity. You will become familiar with general and special relativity, from Newton through Einstein’s explanations and infinite working models, as part of the list of **bsc physics syllabus** Subjects.

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### Molecular and Atomic Spectroscopy

The course covers the exploration of electromagnetic radiation and its interaction with solids, fluids, gases, and plasma. One of the course’s key topics is spectroscopy. Examining the structure of particles and atoms with this technique is one of the frequently used investigation techniques.

### Laser and Quantum Physics

Based on the photon quantum mechanics theory, quantum physics is a crucial factor of BSc physics courses. The goal of the study is to help students understand the fundamental physics behind the development of the laser and photon systems.

In order to demonstrate the connection between laser mechanics and photon physics, numerous mathematical equations have been developed for the topic. Studying this subject from the **bsc physics syllabus** is intriguing. Numerous scientists have authored books on the subject of quantum mechanics.