BACHELOR-OF-SCIENCE in Physics 8 11 32 at Mariani College

Mariani College is a premier co-educational institution located in Jorhat, Assam. Established in 1966 and affiliated with Dibrugarh University, it is a NAAC B+ accredited college. Offering undergraduate programs in Arts, Science, and Commerce, the college focuses on holistic development and academic excellence within a sprawling 14.86-acre campus.

Jorhat, Assam

About the Specialization

What is Physics [8, 11, 32] at Mariani College Jorhat?

This Physics Honors program at Mariani College focuses on fundamental principles of the universe, from quantum mechanics to astrophysics. It cultivates analytical thinking and problem-solving, crucial for scientific advancement. The curriculum balances theoretical knowledge with hands-on laboratory experience, preparing students for diverse scientific and technical roles in India''''s growing research and industrial sectors.

Who Should Apply?

This program is ideal for high school graduates with a strong aptitude for science and mathematics, aspiring to careers in scientific research, education, or technology. It also suits individuals keen on pursuing postgraduate studies in Physics or related engineering fields, seeking a robust foundation for advanced learning and innovation.

Why Choose This Course?

Graduates of this program can expect career paths in research institutions, academia, defense, space organizations, or data science roles within Indian tech firms. Entry-level salaries typically range from INR 3-6 lakhs per annum, with significant growth potential. The strong theoretical and practical base aligns well with competitive examinations for government scientific positions.

Student Success Practices

Foundation Stage

Master Mathematical Physics- (Semester 1-2)

Develop a strong grasp of mathematical tools like calculus, vectors, and differential equations, which are foundational to all physics courses. Regularly solve problems from textbooks and online platforms to build analytical strength.

Tools & Resources

NCERT Physics/Math books, Khan Academy, MIT OpenCourseWare (basic math), GeeksforGeeks for concepts

Career Connection

A robust mathematical foundation is crucial for excelling in advanced physics topics and quantitative roles in research or data science.

Excel in Core Labs- (Semester 1-2)

Actively participate in mechanics and electricity labs. Understand the theoretical basis of each experiment, meticulously record observations, and interpret results with critical thinking. Focus on precision and error analysis.

Tools & Resources

Lab manuals, Online physics simulation tools, Peer group discussions

Career Connection

Strong practical skills are essential for R&D roles, experimental physics, and engineering positions, providing a competitive edge in job applications.

Join Study Groups and Tutorials- (Semester 1-2)

Form small study groups with peers to discuss challenging concepts and solve problems collaboratively. Attend all available college tutorials to clarify doubts and gain deeper insights from faculty.

Tools & Resources

College library, Dedicated study rooms, Faculty office hours

Career Connection

Develops collaborative problem-solving skills and builds a supportive academic network, beneficial for complex projects and team-based work environments.

Intermediate Stage

Engage with Advanced Theory- (Semester 3-4)

Delve deep into thermal physics, waves, optics, and quantum mechanics. Supplement classroom learning with advanced textbooks and reputable online courses. Focus on understanding derivations and conceptual applications.

Tools & Resources

Standard university-level textbooks (e.g., Resnick, Halliday, Griffiths), NPTEL courses, Coursera/edX for advanced topics

Career Connection

A strong theoretical understanding is vital for higher studies (M.Sc., Ph.D.) and research positions in specialized physics domains.

Develop Computational Physics Skills- (Semester 3-4)

Actively pursue courses like ''''Computational Physics Skills'''' and apply programming languages (e.g., Python) to solve physics problems, simulate phenomena, and analyze data. Build a portfolio of computational projects.

Tools & Resources

Python (NumPy, Matplotlib), Open-source physics simulation libraries, HackerRank/LeetCode for coding practice

Career Connection

Computational skills are highly sought after in scientific computing, data analytics, and tech roles across various industries in India.

Explore Interdisciplinary Electives- (Semester 3-4)

Carefully choose Skill Enhancement Courses (SECs) and consider Generic Electives (GEs) from other departments that complement physics (e.g., Computer Science, Chemistry, Mathematics). This broadens perspective and applicability.

Tools & Resources

College academic advisors, Departmental course catalogs, Career counseling sessions

Career Connection

Interdisciplinary knowledge enhances versatility, opening doors to careers in emerging fields like biophysics, quantum computing, or material science.

Advanced Stage

Specialize through DSEs and Projects- (Semester 5-6)

Select Discipline Specific Electives (DSEs) that align with your career interests (e.g., Condensed Matter, Nuclear Physics). Undertake research projects or internships to gain hands-on experience in your chosen specialization.

Tools & Resources

Faculty research labs, Industry internships (e.g., ISRO, DRDO), Summer research programs

Career Connection

Specialized knowledge and practical project experience are critical for entry into specific research fields, advanced degrees, and specialized industry roles.

Prepare for Higher Education and Competitive Exams- (Semester 5-6)

Start preparing early for postgraduate entrance exams like GATE, CSIR NET, or JEST for M.Sc. and Ph.D. admissions. Focus on conceptual clarity and problem-solving speed through mock tests and previous year papers.

Tools & Resources

Exam-specific coaching centers, Online test series, Study materials for competitive exams

Career Connection

Crucial for securing admissions in top Indian universities for M.Sc./Ph.D. programs and for positions in public sector research organizations.

Network and Build Professional Profile- (Semester 5-6)

Attend seminars, workshops, and conferences. Connect with faculty, alumni, and industry professionals. Develop a strong LinkedIn profile highlighting skills, projects, and academic achievements to showcase readiness for the professional world.

Tools & Resources

Professional networking platforms, College career services, Industry webinars

Career Connection

Effective networking can lead to mentorship, internship opportunities, and direct placement opportunities in India''''s scientific and tech ecosystem.

Program Structure and Curriculum

Eligibility:

Passed Higher Secondary Examination (10+2) in Science stream (as per Dibrugarh University and Mariani College admission norms)

Duration: 6 semesters / 3 years

Credits: 148 Credits

Assessment: Assessment pattern not specified

Semester-wise Curriculum Table

Semester 1

Subject Code	Subject Name	Subject Type	Credits	Key Topics
	Environmental Science	Ability Enhancement Compulsory Course (AECC)	4	Concept of an ecosystem, Natural resources and associated problems, Biodiversity and its conservation, Environmental pollution, Environmental ethics, global warming
PHY-HC-1016	Mathematical Physics I (Theory)	Core Theory	4	Calculus of single and multiple variables, Vector Algebra and Vector Calculus, Ordinary Differential Equations, Partial Differential Equations, Fourier Series and Transforms
PHY-HC-101P	Mathematical Physics I (Tutorial)	Core Tutorial	2	Error analysis, Curve fitting, Numerical differentiation, Numerical integration, Solving differential equations
PHY-HC-1026	Mechanics (Theory)	Core Theory	4	Newton''''s Laws and their applications, Rotational Dynamics, Gravitation and Planetary Motion, Simple and Damped Harmonic Motion, Special Theory of Relativity
PHY-HC-102P	Mechanics Lab	Core Practical	2	Moment of Inertia of flywheel, Young''''s Modulus by bending, Surface Tension of water, Acceleration due to gravity by Kater''''s pendulum, Rigidity Modulus by torsional oscillations
	Generic Elective - I (from other disciplines)	Elective	6	Topics chosen from another academic discipline

Semester 2

Subject Code	Subject Name	Subject Type	Credits	Key Topics
	English / MIL Communication	Ability Enhancement Compulsory Course (AECC)	4	Theory of Communication, Language of Communication, Listening and Speaking Skills, Reading Skills, Writing Skills
PHY-HC-2036	Mathematical Physics II (Theory)	Core Theory	4	Complex Analysis, Laplace and Fourier Transforms, Probability and Statistics, Delta and Gamma Functions, Elements of Tensor Analysis
PHY-HC-203P	Mathematical Physics II (Tutorial)	Core Tutorial	2	Solution of polynomial equations, Matrix operations, Finding Eigenvalues and Eigenvectors, Numerical methods for integration, Statistical data analysis
PHY-HC-2046	Electricity and Magnetism (Theory)	Core Theory	4	Electrostatics and Electric Fields, Magnetostatics and Magnetic Fields, Electromagnetic Induction, AC Circuits and Resonance, Maxwell''''s Equations and Electromagnetic Waves
PHY-HC-204P	Electricity and Magnetism Lab	Core Practical	2	Verification of Ohms law, Determine self-inductance of a coil, Magnetic field of current carrying coil, RC and LR circuits, Dielectric constant measurement
	Generic Elective - II (from other disciplines)	Elective	6	Topics chosen from another academic discipline

Semester 3

Subject Code	Subject Name	Subject Type	Credits	Key Topics
PHY-SEC-3014	Physics Workshop Skills	Skill Enhancement Course (SEC)	4	Introduction to workshop tools, Mechanical and Electrical workshop skills, Measuring instruments, Soldering techniques, Circuit building and testing
PHY-HC-3056	Thermal Physics (Theory)	Core Theory	4	Kinetic Theory of Gases, Laws of Thermodynamics, Heat Engines and Refrigerators, Phase Transitions, Blackbody Radiation
PHY-HC-305P	Thermal Physics Lab	Core Practical	2	Specific heat of a liquid, Thermal conductivity of a good conductor, Determine Stefan''''s constant, Verify Boyle''''s Law, Study of phase transitions
PHY-HC-3066	Waves and Optics (Theory)	Core Theory	4	Wave Motion and Superposition, Interference of Light, Diffraction Phenomena, Polarization of Light, Fibre Optics
PHY-HC-306P	Waves and Optics Lab	Core Practical	2	Speed of sound in air, Newton''''s Rings, Diffraction grating, Brewster''''s Law, Fresnel''''s Biprism
PHY-HC-3076	Mathematical Physics III (Theory)	Core Theory	4	Series Solutions of Differential Equations, Special Functions (Legendre, Bessel), Green''''s Functions, Integral Transforms, Elements of Group Theory
PHY-HC-307P	Mathematical Physics III (Tutorial)	Core Tutorial	2	Generating functions for special functions, Solving integral equations, Numerical methods for eigenvalues, Fourier analysis of periodic functions, Introduction to symbolic computation
	Generic Elective - III (from other disciplines)	Elective	6	Topics chosen from another academic discipline

Semester 4

Subject Code	Subject Name	Subject Type	Credits	Key Topics
PHY-SEC-3024	Computational Physics Skills	Skill Enhancement Course (SEC)	4	Introduction to Python programming, Numerical differentiation and integration, Solving differential equations numerically, Data visualization and analysis, Monte Carlo simulations
PHY-HC-4086	Analog and Digital Electronics (Theory)	Core Theory	4	Semiconductor Devices (PN diode, Transistor), Amplifiers and Oscillators, Operational Amplifiers, Digital Logic Gates and Boolean Algebra, Combinational and Sequential Circuits
PHY-HC-408P	Analog and Digital Electronics Lab	Core Practical	2	Diode characteristics, Transistor amplifier circuits, Op-Amp as inverting/non-inverting amplifier, Logic gates verification, Flip-flops and counters
PHY-HC-4096	Quantum Mechanics and Applications (Theory)	Core Theory	4	Wave-Particle Duality and Uncertainty Principle, Schrödinger Equation (time-dependent and independent), One-dimensional Potentials, Hydrogen Atom, Atomic Spectra
PHY-HC-409P	Quantum Mechanics and Applications Lab	Core Practical	2	Photoelectric effect, Franck-Hertz experiment, Zeeman effect, Study of emission spectra, Analysis of quantum phenomena simulations
PHY-HC-4106	Electromagnetic Theory (Theory)	Core Theory	4	Electrostatics in Dielectric Media, Magnetostatics in Magnetic Media, Maxwell''''s Equations, Electromagnetic Wave Propagation, Poynting Vector and Energy Conservation
PHY-HC-410P	Electromagnetic Theory Lab	Core Practical	2	Measurement of permeability, Study of LCR circuits, Characteristics of a Transformer, Impedance of AC circuits, Study of EM wave properties using simulations
	Generic Elective - IV (from other disciplines)	Elective	6	Topics chosen from another academic discipline

Semester 5

Subject Code	Subject Name	Subject Type	Credits	Key Topics
PHY-HC-5116	Advanced Quantum Mechanics (Theory)	Core Theory	4	Time-independent Perturbation Theory, Time-dependent Perturbation Theory, Scattering Theory, Angular Momentum and Spin, Identical Particles
PHY-HC-511P	Advanced Quantum Mechanics Lab	Core Practical	2	Quantum tunneling simulations, Density matrix calculations, Atomic spectroscopy simulations, Numerical solution of scattering problems, Quantum state visualization
PHY-HC-5126	Solid State Physics (Theory)	Core Theory	4	Crystal Structure and Lattices, X-ray Diffraction, Band Theory of Solids, Electrical and Thermal Properties, Magnetic Properties of Solids, Superconductivity
PHY-HC-512P	Solid State Physics Lab	Core Practical	2	Hall Effect experiment, Four-probe method for resistivity, Band gap determination, Magnetic susceptibility, XRD analysis of crystal structures
PHY-HE-5016	Classical Dynamics (Theory)	Discipline Specific Elective (DSE) Theory	4	Lagrangian and Hamiltonian Dynamics, Central Force Problem, Rigid Body Dynamics, Small Oscillations, Introduction to Chaos
PHY-HE-501P	Classical Dynamics Lab	Discipline Specific Elective (DSE) Practical	2	Coupled oscillations, Precession of a gyroscope, Numerical simulation of planetary motion, Study of phase space plots, Investigation of chaotic systems
PHY-HE-5056	Astronomy and Astrophysics (Theory)	Discipline Specific Elective (DSE) Theory	4	Basic Celestial Mechanics, Stellar Structure and Evolution, Galaxies and Cosmology, Observational Techniques, Astronomical Instruments
PHY-HE-505P	Astronomy and Astrophysics Lab	Discipline Specific Elective (DSE) Practical	2	Telescope operation and celestial navigation, Measurement of stellar distances, Analysis of stellar spectra, Image processing of astronomical data, Determination of Hubble''''s constant

Semester 6

Subject Code	Subject Name	Subject Type	Credits	Key Topics
PHY-HC-6136	Statistical Mechanics (Theory)	Core Theory	4	Microstates, Macrostates and Ensembles, Partition Function, Classical Statistics (Maxwell-Boltzmann), Quantum Statistics (Fermi-Dirac, Bose-Einstein), Applications to Ideal Gases
PHY-HC-613P	Statistical Mechanics Lab	Core Practical	2	Simulations of random walk, Ising model simulations, Monte Carlo simulations, Plotting distribution functions, Heat capacity of solids
PHY-HC-6146	Nuclear and Particle Physics (Theory)	Core Theory	4	Nuclear Properties and Structure, Radioactivity and Nuclear Decay, Nuclear Reactions, Particle Accelerators and Detectors, Elementary Particles and Standard Model
PHY-HC-614P	Nuclear and Particle Physics Lab	Core Practical	2	GM counter characteristics, Rutherford scattering experiment simulation, Half-life measurement, Alpha and Beta spectroscopy, Study of cosmic rays
PHY-HE-6016	Advanced Condensed Matter Physics (Theory)	Discipline Specific Elective (DSE) Theory	4	Phonons and Lattice Vibrations, Advanced Superconductivity Theories, Dielectric Properties, Magnetic Phenomena in Solids, Nanomaterials and Low-Dimensional Systems
PHY-HE-601P	Advanced Condensed Matter Physics Lab	Discipline Specific Elective (DSE) Practical	2	Study of ferroelectric materials, Characterization of thin films, Growth of nanomaterials, Magnetic hysteresis loops, Optical properties of semiconductors
PHY-HE-6056	Digital Signal Processing (Theory)	Discipline Specific Elective (DSE) Theory	4	Discrete-Time Signals and Systems, Z-Transform and Inverse Z-Transform, Discrete Fourier Transform, Digital Filter Design (FIR and IIR), Applications of DSP in various fields
PHY-HE-605P	Digital Signal Processing Lab	Discipline Specific Elective (DSE) Practical	2	Sampling and aliasing effects, Design of digital filters using software, Spectral analysis of signals, Audio signal processing, Image processing fundamentals

BACHELOR-OF-SCIENCE in Physics 8 11 32 at Mariani College

About the Specialization

What is Physics [8, 11, 32] at Mariani College Jorhat?

Who Should Apply?

Why Choose This Course?

OTHER SPECIALIZATIONS

Student Success Practices

Foundation Stage

Master Mathematical Physics- (Semester 1-2)

Excel in Core Labs- (Semester 1-2)

Join Study Groups and Tutorials- (Semester 1-2)

Intermediate Stage

Engage with Advanced Theory- (Semester 3-4)

Develop Computational Physics Skills- (Semester 3-4)

Explore Interdisciplinary Electives- (Semester 3-4)

Advanced Stage

Specialize through DSEs and Projects- (Semester 5-6)

Prepare for Higher Education and Competitive Exams- (Semester 5-6)

Network and Build Professional Profile- (Semester 5-6)

Program Structure and Curriculum

Semester-wise Curriculum Table

Semester 1

Semester 2

Semester 3

Semester 4

Semester 5

Semester 6