LNMU Darbhanga BSC Part 1 Physics Syllabus Download for free ~ LNMUONLINE

L.N. Mithila University (LNMU) Darbhanga BSC Part 1 Physics Syllabus Honours and Subsidiary or General Free Pdf

BSC PHYSICS PART 1 SYLLABUS LNMU DARBHANGA 

In this post we will be providing Mithila University Degree-1 Physics Syllabus of both Honors and Subsidiary or general Subject. You an read the full post and Note down the syllabus in your notebook or you can download the pdf file whose link has been given at the end of this post. Book Recommendations are also given so that you can easily find the topic without wasting time in searching the books. 

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Table Of Content

1. B.Sc Physics Part 1 Honors Syllabus Paper -I
2. B.Sc Physics Part 1 Honors Syllabus Paper -II
3. B.Sc Physics Part 1 Subsidiary/General Syllabus 
4. B.Sc Physics Part 1  Practical Syllabus 

BSC Physics Honors Syllabus Paper-I

Group - A Mathematical Physics and Properties of matter

Infinite Sequence and series – Convergence and Divergence, Functions of Several Variables – partial differentiation, Taylor’s Series, multiple integrals, random variables and probabilities, - Statistical expectation value, variance, analysis of random errors, probability distribution functions( Binomial, Gaussian and Poisson).

Transformation of properties of vector, Differentiation and integration of vectors : line integrals, Volume integrals and surface integrals involving vector field; Gradient, Divergence and curl of a vector field, Gauss-Divergence theorem, Green’s theorem, Stokes theorem and Applications to simple problem, Orthogonal curvilinear coordinate systems, unit vector in each system, Illustration by plane, Spherical and Cylindrical coordinate system only.

Relation between elastic constants, twisting torque on a cylinder of wire, bending of beam, cantilever, flat spiral spring, kinematics of moving fluids, Poisseuilli’s equations for flow of a liquid through a capillary tube, viscosity, co-efficient of viscosity, Rankine’s method of viscosity of a gas, Surface tension and Surface energy, excess pressure inside an air bubble, Ripple’s Method.

Group - B Special Theory of Relativity, wave, Oscillations and Accoustics

Michelson-Morley Experiment(ether theory, result/outcomes..), Postulates of special theory of relativity, Lorentz Transformation, Length contraction, Time Dilation, Simultaneity and order of events, Relativistic transformation of velocity, Relativistic addition of velocity, variation of mass with velocity, Mass-Energy equivalence, Relativistic Doppler Effect.

Damped and forced oscillation, critical damping, resonance, waves in one-dimensional chain of particles, classical wave equation, waves in continuous media, energy transmission in wave, group velocity and phase velocity.

Fourier analysis and its applications, intensity of sound wave, Acoustic of building, reverberation, Sabine’s formula.

Books Recommendation:

• MATHEMATICAL PHYSICS -  CHARLES HARPER (PHI publication), Dr. B.S Grewal
• PROPERTIES OF MATTER – D.S MATHUR (S.CHAND PUBLICATION)
• Relativity – by Robert  Resnick or by Albert Einstein
• wave AND Oscillation - A.P French

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BSC Physics Honors Syllabus Paper-II

Group - A Thermal Physics

Kinetic theory of gases: Basic assumptions of kinetic theory, ideal gas approximation, deduction of perfect gas laws, Maxwell’s distribution law (of velocity and energy), root mean square and most probable speed, finite size of molecules, collision probability, distribution of free particles and mean free path from Maxwell’s distribution, Degree of freedom, Equipartition of energy.

Transport phenomena: viscosity, thermal conduction and diffusion of gases, Brownian motion, Einstein’s theory, Perrin’s work, determination of Avogadro number.

Real Gas: Nature of intermolecular interaction: isotherms of real gases, Vander-waal Equation of state, critical constants of a gas, law of corresponding state, Virial coefficients, Boyle’s temperature

Conduction of heat: thermal conductivity, diffusivity, Fourier’s equation for heat conduction- its solution for rectilinear and radial(spherical and cylindrical) flow of heat

Radiation: spectral emissive and absorptive power, Kirchoff’s law, black body radiation, energy density, radiation pressure, Stefan-Boltzmann law, Wein’s displacement law, Rayleigh-Jeans Law, Planck’s law

Basic: Micro and macroscopic point of view, thermodynamic variables of a system, state function, act and inexact differential

First law of thermodynamic: Thermal equilibrium, Zeroth law and concept of temperature, internal energy, external work, quastistatic process, first law of thermodynamic and application including magnetic system, specific heat and their ratio, isothermal and adiabatic changes in perfect and real gas

Second law of thermodynamic: reversible and irreversible process, indicator diagram, Carnot’s cycle- efficiency, carnot theorem, Kelvin’s scale of temperature, relation of perfect gas scale, second law of thermodynamic- different formulation and their equivalence, Clausius inequality, entropy – change of entropy and disorder, equilibrium and entropy principle, principle of degradation of energy

Thermodynamic function: Enthalpy, Helmholtz and Gibb’s free energy, Legendre transformation, Maxwell’s relations and simple deduction using these relations, thermodynamic equilibrium and their energies

Change of state: Equilibrium between phases, triple point, Gibb’s phase rule(definition) and simple applications, first and higher order phase transitions, Ehrenfest criterion, Clausius-Clayperon’s equation, Joule- Thomson effect, temperature of inversion

Book recommendation:     

• Brijlal  - Heat Thermodynamics and Stastical physics (S.CHAND Publication)

Group - B Electrostatic and Magnetism

Gauss law: Coulomb’s law of electrostatics, intensity and potential, Gauss’ theorem and applications, Poission and Laplace Equation, Superposition theorem(definition), Application of Laplace equation to simple cases of symmetric  spherical charge distribution

Multipole expansion: multipole expansion of scalar potential- monopole, dipole, and quadrupole terms, potential and field due to dipole, work done in deflecting a diploe, dipole-dipole interaction(both electric and magnetic), force on dipole in a non-homogeneous field

Dielectric: Polarization, electric displacement vector, Gauss theorem in electric media, boundary condition, electrostatic field energy, computation of capacitance, in simple case(parallel plates), Spherical and cylindrical capacitor containing dielectric- uniform and non- uniform, relation between three electric vector

Electrical image: Solution of field problem in case of point charge near a grounded conduction infinite plane, Boundary value problem in uniform electric field for (i) conducting spherical shell and (ii) dielectric sphere

Magnetic effect of steady current: Magnetic field B, Magnetic force between currents elements and definition of B, magnetic flux, Biot-Savart’s Law, magnetic field due to (i) Straight current carrying conductor and (ii) current loop, current loop as magnetic dipole, and its dipole moment, Ampere’s Circuital law, magnetic field due to (i) as solenoid and (ii) toroid, Properties of B, curl and divergence of B, vector potential

Force on an isolated moving charge, magnetic force on current carrying wire, Torque on a current loop in a uniform magnetic field

Magnetic properties of matter: Magnetism of matter, Gauss’law of magnetism, Magnetization current, relative permeability of materials, magnetic susceptibility, magnetization vector(M), magnetic intensity(H), relation between B, M, and H, stored magnetic energy in matter, magnetic circuit, B-H curve, and energy loss in hysteresis,

Electromagnetic induction: Faraday’s law(differential and integral form), Lenz’s law, Self and mutual induction, energy stored in a magnetic field

Books recommendation:

• Electrodynamics – David J. Griffith
• Fundamental of electricity and magnetism – Arthur F. Kip
• Electricity and magnetism -  Edward M. Purcell

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BSC Physics Subsidiary or general Syllabus

Group-A will have mixed questioned from both Group-B and Group-C Topics in which you will have to answer any three

Group - B Mathematical Physics, Special theory of relativity, Mechanics, General properties of matter, Wave, oscillation and Acoustic

Mathematical physics: vector algebra, addition, subtraction and multiplication of vector, Gradient, divergence, curl and Laplacian operators

special theory of relativity: Galliean transformation, inertial frame of reference, Michelson-Morley Experiment, Lorentz-Fitzerld contration, Einstein postulates, Lorentz transformation and its consequences, length contraction and time dilation, addition of velocity, variation of mass with velocity, Mass-Energy equivalence

Mechanics and general properties of matter: Kepler’s law of planetary motion, elasticity and elastic constant, bending of beam, determination of Young’s modulus, cantilever, torsion and rigidity modulus, flat spiral spring, effect of temperature and pressure on elasticity, Bernoulli’s theorem, Viscosity, critical velocity, poisseule’s formula with correction, capillary tube flow, effect of temperature and pressure on viscosity, surface tension and surface energy, ripple and gravity wave, determination of surface tension by ripple method

Group - C Thermal physics, Computer Fundamental and Electronics

Thermal Physics: perfect gas equation, Vander waal equation of state, Maxwell’s law of distribution of velocity, Joule Thomson effect, Liquification of gases with special reference to Helium, transport phenomena of gases, mean free path, the lawas of thermodynamics, carnot engine and carnot cycle, thermodynamic relations and their application to simple physical problems, entropy the principle of increase of entropy, the thermodynamic scale of temperature, Kirchoff’s law and black body radiation: Stefan’s Law, Wein’s law, Rayleigh-Jeans law, Planck’s law

Computer Fundamental: Basic Component of a computer and their functions, types of computer System, Number system, Decimal, Binary, Octal and hexadecimal system, and their arithmatics

Basic Electronic: P-N Junction diode, forward bias and reverse bias, half wave and full wave rectifier, Zener diode, photo diode, LED 

Book recommendations:

• Mechanics(Berkley physics course Vol- I) – Charles kittel (M-C Graw Hill)
• Brijlal  - Heat Thermodynamics and Stastical physics (S.CHAND Publication)
• Heat and Thermodynamics - Zeemansky
• WAVE AND OSCILLATION: A.P French
• The Physics of Vibration and waves – H.J Jain

Book recommendation are same with respect to topic for both honours  and subsidiary/ general subjects.

BSC Physics Practical Syllabus

Physics Honors practical syllabus

•        Kater’s Pendulum
•          Bending of beam
•          Elastic constant by Searle’s Method
•          Modulus of rigidity by (i) Statistical method and (ii) Dynamical method
•          Surface tension of soap bubble
•          Surface tension of mercury by Quincke’s method
•          Viscosity of water by capillary flow
•         Viscosity of air by Rankine’s method
•          Sonometer
•          Malde’s experiment
•          specific heat of solid by radiation correction method
•          thermal conductivity by lee’s disc method

Physics Subsidiary or general practical syllabus

• o   Determination of ‘g’ by bar pendulum
• o   Determination of Young Modulus by flexure of beam
• o   Rigidity modulus by (i) Statistical method and (ii) Dynamical method
• o   Surface tension by capillary rise method
• o   Viscosity of liquid by capillary flow
• o   Viscosity of liquid by stoke’s method
• o   Surface tension by Jaegar’s method
• o   Frequency of tunning fork by Melde’s experiment
• o   Specific heat by method of cooling
• o   Latent heat of ice using radiation correction

Practical Book: Geeta Sanon B.sc practical physics or any other book available in your locality

Thank You !!

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