.png&w=1920&q=75)
B-SC in Physics at Akash Global College of Management and Science
Bengaluru, Karnataka
.png&w=1920&q=75)
About the Specialization
What is Physics at Akash Global College of Management and Science Bengaluru?
This B.Sc Physics program at Akash Global College of Management and Science, affiliated with Bangalore University, offers a rigorous foundation in fundamental physical laws and phenomena. Designed under the National Education Policy (NEP) 2020, it emphasizes analytical thinking, problem-solving, and practical skills. The curriculum is tailored to meet the growing demands for skilled physicists in India''''s burgeoning research, technology, and educational sectors, fostering a deep understanding of the universe from the subatomic to the cosmic scale.
Who Should Apply?
This program is ideal for curious 10+2 science graduates with a strong aptitude for mathematics and an inquisitive mind for understanding the natural world. It attracts aspiring researchers, educators, and individuals seeking careers in scientific and technological fields. The program also suits those aiming to pursue higher studies like M.Sc and Ph.D in Physics or related interdisciplinary areas, as well as those preparing for competitive exams.
Why Choose This Course?
Graduates of this program can expect diverse career paths in India, including roles as research assistants, lab scientists, data analysts, technical writers, or educators. Entry-level salaries typically range from 3 to 6 Lakhs per annum, with significant growth potential in specialized research and development roles. The strong foundation also prepares students for advanced degrees, government scientific services, and positions in technology companies that value analytical and quantitative skills.
Student Success Practices
Foundation Stage
Master Core Concepts through Problem Solving- (Semester 1-2)
Focus intensely on understanding fundamental principles of Mechanics, Electricity, and Magnetism. Regularly solve numerical problems from textbooks and previous year question papers. This builds a strong base for advanced topics and strengthens analytical abilities required for all future subjects.
Tools & Resources
NCERT textbooks (for conceptual clarity), H.C. Verma''''s Concepts of Physics, Physics Galaxy by Ashish Arora, Online platforms like BYJU''''s or Vedantu for explanations
Career Connection
Develops critical thinking and problem-solving skills, which are highly valued in any scientific or technical role, and essential for entrance exams to higher education.
Develop Strong Lab Skills and Data Analysis- (Semester 1-2)
Actively engage in all practical sessions for Mechanics and E&M. Pay close attention to experimental procedures, data collection, error analysis, and report writing. Familiarize yourself with basic electronic components and circuits, ensuring a hands-on approach.
Tools & Resources
Physics Lab Manuals (University prescribed), Microsoft Excel or Python''''s NumPy/Matplotlib for data analysis, Online tutorials on experimental physics techniques
Career Connection
Essential for any research or industry role involving experimental work, quality control, or data-driven decision making. Enhances practical aptitude for technical jobs.
Engage in Peer Learning and Study Groups- (Semester 1-2)
Form study groups with classmates to discuss challenging topics, clarify doubts, and prepare for exams together. Teach concepts to each other to solidify understanding and identify knowledge gaps. Participate actively in classroom discussions.
Tools & Resources
College Library resources, Online collaboration tools (Google Meet, WhatsApp groups), Physics forums and discussion platforms
Career Connection
Fosters teamwork, communication, and leadership skills, vital for collaborative work environments in both academia and industry. Builds a supportive academic network.
Intermediate Stage
Explore Interdisciplinary Applications and Skill-Based Learning- (Semester 3-5)
Beyond core subjects, delve into Skill Enhancement Courses like Python Programming for Physics and Nano-Science. Actively participate in projects that apply physics principles to real-world scenarios, bridging theory with practical utility and building programming skills.
Tools & Resources
Python IDEs (Jupyter Notebook, VS Code), NumPy, SciPy, Matplotlib libraries, Online courses on Nanoscience (NPTEL, Coursera), Simulation software like COMSOL or MATLAB (if available)
Career Connection
Develops highly marketable skills in scientific computing and emerging technologies, opening doors to roles in data science, material science, and computational physics within Indian tech companies or research labs.
Seek Industry Exposure through Internships/Projects- (Semester 3-5)
Actively look for short-term internships during semester breaks or engage in minor research projects with faculty. Focus on opportunities in areas like electronics manufacturing, renewable energy, or even data analysis departments in IT firms that value physics backgrounds.
Tools & Resources
College career services/placement cell, Online internship platforms (Internshala, LinkedIn), Faculty mentorship for research projects
Career Connection
Gains practical industry experience, builds professional networks, and helps identify specific career interests. Enhances resume for future placements and higher studies admissions in India.
Participate in Physics Competitions and Workshops- (Semester 3-5)
Engage in physics quizzes, poster presentations, and model-making competitions organized by the college or other institutions. Attend workshops on advanced topics or specialized techniques, such as laser optics, material characterization, or astronomical observations, to broaden your knowledge.
Tools & Resources
College Physics Department notices, Notices from nearby universities/research institutes, Science popularization platforms
Career Connection
Showcases initiative, problem-solving abilities, and passion for physics, which can be advantageous in interviews and for building a strong academic profile for M.Sc admissions.
Advanced Stage
Focus on Research Projects and Higher Studies Preparation- (Semester 6)
Undertake a significant final-year project, ideally aligned with faculty research interests in areas like Quantum Mechanics, Solid State Physics, or Nuclear Physics. Simultaneously, begin rigorous preparation for M.Sc Physics entrance exams (e.g., JAM, university-specific tests) or GRE for international studies.
Tools & Resources
University/College research labs, NPTEL courses for advanced topics, Previous year''''s JAM/GRE question papers, Standard reference books for Quantum, Nuclear, Solid State Physics
Career Connection
Crucial for securing admission to top M.Sc/Ph.D programs in India and abroad. Research experience is highly valued in academic and R&D careers.
Network with Alumni and Industry Professionals- (Semester 6)
Actively connect with college alumni working in diverse fields of physics or related industries. Attend career fairs, seminars, and guest lectures to interact with professionals. These connections can provide insights into career paths, job openings, and mentorship opportunities.
Tools & Resources
LinkedIn for professional networking, College alumni association events, Industry-specific conferences and webinars in India
Career Connection
Expands professional contacts, which are invaluable for job referrals, career guidance, and understanding industry trends, particularly in the competitive Indian job market.
Prepare for Entrance Exams and Career Pathways- (Semester 6)
Beyond academic projects, dedicate time to preparing for specific career paths. If aiming for government jobs, prepare for UPSC or state PSC exams. For private sector roles, hone interview skills and tailor your resume to highlight analytical and technical competencies relevant to the role.
Tools & Resources
Coaching institutes for competitive exams (if opted), Online job portals (Naukri.com, Monster India), Interview preparation guides and mock interviews
Career Connection
Directly enhances employability in both the public and private sectors in India, ensuring a smooth transition from academics to a professional career.
Program Structure and Curriculum
Eligibility:
- Pass in 10+2 with Physics, Chemistry, and Mathematics/Biology as compulsory subjects (as per Akash Global College website)
Duration: 3 years / 6 semesters
Credits: 128 (for Physics-related components based on NEP 2020 structure) Credits
Assessment: Internal: 40% (for theory components), 30% (for practical components), External: 60% (for theory components), 70% (for practical components)
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-DSC 1.1T | Mechanics and Properties of Matter (Theory) | Core (Discipline Specific) | 4 | Vectors and Scalars, Dynamics of Particles, Rotational Motion and Rigid Bodies, Gravitation and Planetary Motion, Elasticity and Deformations, Surface Tension and Viscosity, Fluid Dynamics and Bernoulli''''s Theorem |
| PHY-DSC 1.1P | Mechanics and Properties of Matter (Practical) | Core (Practical) | 2 | Measurement and Error Analysis, Moment of Inertia Determination, Young''''s Modulus Measurement, Surface Tension Experiments, Viscosity Measurements |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-DSC 2.1T | Electricity and Magnetism (Theory) | Core (Discipline Specific) | 4 | Electrostatics and Electric Fields, Capacitance and Dielectrics, Magnetostatics and Magnetic Fields, Electromagnetic Induction, Alternating Current Circuits, Maxwell''''s Equations and EM Waves |
| PHY-DSC 2.1P | Electricity and Magnetism (Practical) | Core (Practical) | 2 | Potentiometer and Carey Foster''''s Bridge, Galvanometer and RC Circuits, Self Inductance and Mutual Inductance, AC Circuit Analysis, RL and LCR Circuit Experiments |
| PHY-SEC 2.1 | Basic Electronics | Skill Enhancement Course | 2 | Semiconductor Devices, Rectifiers and Filters, Bipolar Junction Transistors, Amplifier Configurations, Oscillators and Multivibrators |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-DSC 3.1T | Thermal Physics and Statistical Mechanics (Theory) | Core (Discipline Specific) | 4 | Laws of Thermodynamics, Entropy and Free Energy, Phase Transitions and Critical Phenomena, Kinetic Theory of Gases, Transport Phenomena, Statistical Distributions (MB, BE, FD) |
| PHY-DSC 3.1P | Thermal Physics and Statistical Mechanics (Practical) | Core (Practical) | 2 | Thermal Conductivity Measurements, Specific Heat Capacity, Thermoelectricity Experiments, Radiation Laws Verification, Temperature Measurement Techniques |
| PHY-SEC 3.1 | Python Programming for Physics | Skill Enhancement Course | 2 | Python Fundamentals and Syntax, Data Types and Control Structures, Functions and Modules, NumPy and SciPy for Numerical Operations, Matplotlib for Data Visualization, Solving Physics Problems with Python |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-DSC 4.1T | Optics and Acoustics (Theory) | Core (Discipline Specific) | 4 | Geometrical Optics and Lenses, Interference of Light, Diffraction Phenomena, Polarization of Light, Lasers and Fiber Optics, Acoustics and Sound Waves, Ultrasonics and Architectural Acoustics |
| PHY-DSC 4.1P | Optics and Acoustics (Practical) | Core (Practical) | 2 | Refractive Index Measurements, Newton''''s Rings Experiment, Diffraction Grating Experiments, Polarimeter and Brewster''''s Law, Laser Characteristics, Velocity of Sound in Air/Water |
| PHY-SEC 4.1 | Introduction to Nano-Science | Skill Enhancement Course | 2 | Fundamentals of Nanoscience, Properties of Nanomaterials, Synthesis Methods (Top-down, Bottom-up), Characterization Techniques (SEM, TEM, XRD), Applications of Nanomaterials |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-DSC 5.1T | Mathematical Physics and Quantum Mechanics I (Theory) | Core (Discipline Specific) | 3 | Vector Calculus and Tensor Analysis, Special Functions (Legendre, Bessel), Fourier Series and Transforms, Wave-Particle Duality and Uncertainty Principle, Schrödinger Wave Equation, Quantum Operators and Eigenvalues |
| PHY-DSC 5.2T | Solid State Physics (Theory) | Core (Discipline Specific) | 3 | Crystal Structure and Lattices, Lattice Vibrations and Phonons, Band Theory of Solids, Superconductivity Phenomena, Dielectric Properties, Magnetic Properties of Materials |
| PHY-DSC 5.1P | Mathematical Physics and Quantum Mechanics Lab (Practical) | Core (Practical) | 2 | Numerical Methods (Roots, Integration), Matrix Operations and Eigenvalue Problems, Solving Differential Equations Numerically, Quantum Mechanics Simulations (Particle in a Box), Wave Packet Dynamics |
| PHY-DSC 5.2P | Solid State Physics Lab (Practical) | Core (Practical) | 2 | Hall Effect Experiment, Band Gap Determination, Resistivity Measurements, Dielectric Constant Determination, Magnetic Susceptibility Measurements |
| PHY-OEC 5.1 | Renewable Energy Sources | Open Elective Course | 3 | Solar Energy Systems, Wind Energy Technology, Hydroelectric Power, Biomass and Biofuels, Geothermal Energy, Ocean Energy Conversion |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-DSC 6.1T | Quantum Mechanics II and Atomic, Molecular Physics (Theory) | Core (Discipline Specific) | 3 | Time-Dependent Perturbation Theory, Spin and Angular Momentum, Identical Particles and Pauli Exclusion, Atomic Models (Bohr, Sommerfeld), Molecular Bonding and Spectra, Spectroscopic Techniques (IR, UV-Vis) |
| PHY-DSC 6.2T | Nuclear Physics and Particle Physics (Theory) | Core (Discipline Specific) | 3 | Nuclear Structure and Properties, Radioactivity and Decay Modes, Nuclear Reactions and Fission/Fusion, Elementary Particles and Classifications, Fundamental Interactions, Standard Model of Particle Physics |
| PHY-DSC 6.1P | Quantum Mechanics and Atomic, Molecular Physics Lab (Practical) | Core (Practical) | 2 | Atomic Emission Spectra Analysis, Franck-Hertz Experiment Simulation, Zeeman Effect Simulation, X-ray Diffraction Principles, Spectrometer Usage and Calibration |
| PHY-DSC 6.2P | Nuclear Physics and Particle Physics Lab (Practical) | Core (Practical) | 2 | Geiger-Muller Counter Operations, Nuclear Decay Studies, Range of Alpha Particles, Half-life Determination, Gamma Ray Spectroscopy Basics |
| PHY-OEC 6.1 | Astronomy and Astrophysics | Open Elective Course | 3 | Celestial Mechanics and Solar System, Stellar Evolution and Life Cycles, Galaxies and Milky Way Structure, Cosmology and Big Bang Theory, Astronomical Instruments (Telescopes), Observational Astronomy |
