BRABU BSc Physics Part-3 Syllabus/ Theory/ Practical

BRABU BSc Physics Part-3 Syllabus/ Theory/ Practical: Here we are writing all the UG (BA/ BSc / BCom) Syllabus of Babasaheb Bhimrao Ambedkar Bihar University. So All those students who are studding under this BRABU Bihar University can get their All Subjects Syllabus from this Website- www.studyorigin.in

Here we are providing you BSc Physics Honors Paper-5, Honors Paper-6, Honors-7 and Honors Paper-8 Syllabus for Theory Paper and Practical Paper. These Papers are used to study in 3rd Year of BSc Zoology Honors Subject. Each of which Paper there are 100 Marks Examination will be held. It has both Theory and Practical Papers.

BRABU BSc Physics (Honors) Part-3 Syllabus Details-

BRABU BSc Physics Part-3 (Honors Paper-5) Syllabus

Group- A: Method of Mathematical Physics

Curvilinear co-ordinates, Cartesian, spherical-Polar and cylindrical co-ordinates. Orthogonal transformations of co-ordinates, scalar and vector fields, divergence and curl, line, surface and volume integrals. Theorem of Gauss, Stoke and Green, Tensor and its elementary properties.

Partial differential equations and its solution by separation of variables, Laplace equation and its solution, Wave equation and its solution, Poisson’s equation and its solution.

Function of a complex variable, Cauchy-Rieman equations, Zeroes and poles, Taylor and Lorentz theorems, Cauchy’s integral theorem, residue theorem, Integration of complex functions .

Group- B : Classical Mechanics

Hamilton’s principle and Euler-Lagrange’s equation, Principle of least action conservation theorems and symmetry properties, Application of Hamiltonian dynamics to simple problems-Charged particle in an electromagnetic field (non-relativistic cases), Laws of motion, Moment of Inertia and products of Inertia, Eulerian angles, Euler’s equation of motion of a rigid body, Gyroscopic motion, Motion of symmetrical top, Canonical transformation, Examples of Canonical transformations, Contact transformations, Hamilton Jacobi equation, Action angle variations.

Group- C : Quantum Mechanism

Inadequacy of classical mechanics, Dual nature of matter and radiation, De Broglie’srelation, Concept of state, Correspondence Principle, Postulates of quantum mechanics, Eigen functions and Eigen values of Hamilton Operators, uncertainly relations.

Schrodinger wave equation and its physical meaning, its application to problems of free particle, Transmission of particle through potential step, one dimensional Square· and well, particle in a box, Linear harmonic oscillator, Rigid rotator, Hydrogen atom.

Commutation rules of orbital angular momentum, their Eigen function and Eigen values, Spin hall angular momentum, Pauli’s spin matrices, Pauli’s Spinors, Symmetric and anti-symmetric wave function, Pauli’s exclusive principle.

BRABU BSc Physics Part-3 (Honors Paper-6) Syllabus

Group: A Static Physics

Fundamental assumption of statistical mechanics, Probability distribution and entropy, Partition function and its conversion to thermodynamic functions, Sackur-Tetrode equation and Gibb’s paradox, Elements of ensemble theory and Liouvilles theorem, Canonical ensemble and thermodynamics, Energy fluctuations in the canonical ensemble, Density and energy fluctuation in the grand canonical ensemble. Simple application of ensemble theories to perfect gas

Boltzman distribution, Fermi-Dirac distribution. Bose-Einstein distribution and their simple applications, Radial distribution function and its relation to thermodynamic functions, Abriefintroduction to first and second order phase transformation, Critical exponent. Isingmodelin zero thapproximation, Introduction to Fluctuations. The probability of thermodynamic fluctuation.

Group-B

Electronics

Thermionics-Richardson’s equation and its experimental verification, ChildLangmuirequation, Schottky Effect. Semiconductor Devices, p-n junction and Zener diodes, BJT and FET transistor, Opto-electrical devices, photo-devices, LOR Photovoltaic cell, photo transistor.

Circuit Theory

Coupled LCR circuits, Superposition theorem, Thevenin and Reciprocity theorems : Maximum power transfer theorem, One port and two port networks (Only h-parameter),T and pi equivalence of two port network. Ladder network and constant K filters (low, high and band pass), Attenuators.

Solid State Electronic Circuit

Equivalent circuit of BJT and FET, Half-wave and Full-wave rectifiers. Power supply with specific reference to smoothning circuits and voltages stabilization by cold cathode valve and Zener diode. A. F. amplifiers (R.C. coupled amplifier) Feedback amplifiers, Push-pull power amplifier, Simple circuits for LC oscillation, Hartley and Colpitt’s Oscillator, R.C. Coupled Oscillator , Astable Multivibrator, Principle of amplitude modulation, amplitude modulator, average and envelope detection, Radio receivers, Super heterodyne receivers, Simple idea of transmitter (with block diagram), CRO and its applications, Logic circuits, AND, OR, NAND, NOR operation with the help of simple logic gates.

Types of computers and three basic components, Input and Out-put devices, Conceptof hardware and software, BITS and BYTES, Computer programming of some simple mathematical problems, Mathematical problems in BASIC and FORTRAN Languages.

BRABU BSc Physics Part-3 (Honors Paper-7) Syllabus

Group: A (Plasma and Electrodynamics)

Microscopic and macroscopic properties of Plasma, Plasma oscillations, Debye’s potential, Wave propagation in isotropic plasma, Ionospheric reflection, Pinch effect. Alfven wave, Saha’s theory of ionization.

Rotarded and advanced potential, Field due to an oscillating current element, Oscillating dipole, Lineard-Wichart potentials, Potential and field due to uniformly moving charge.

Covariance of Maxwell equations under Lorentz transformation, Transformation of equations electromagnetic fields.

Group: B (Solid State Physics)

Elements of crystallography, Bravais lattice, Miller indices, Seven crystal system, Simple crystalstructure of NaCl, CaCl2 and diamond.

Interaction of X-rays, Neutrons and electrons with matter, Diffraction of X-rays from a perfect crystal, Bragg’s law, Reciprocal lattice, Ewald construction and Brillouin zones.

Crystal binding-ionic, metallic, covalent and Vander-wall’s, Vander-wall’s -London interaction and cohesive energy of inert gas crystals. Madelung energy and Madelung constant.

Free electron theory of metals, Heat capacity of electron gas, Electrical conductivity of metals, Boltzman-Transport equation, Sommerfeld theory of electrical conductivity, Band theory of solid, Bloch’s Theorem, Kronig-Penny model, Distinction between metal, semiconductor and Insulator, Intrinsic and Extrinsic semiconductors, p-n junction rectifier, Transistors, Half-Effect.

Group: C (Physics of Atom, Molecules and Nuclei)

Origin of atomic spectra, Bohr’s theory and Bohr-Sommerfeld theory of hydrogen atom, spectra of alkali, alkaline and earth metals, Selection-rules, Excitation potential, Fine Structure, Stern Gerlach Experiment, Vector model of atom, Zeeman Effect and Paschen Back effect of single valence atom, Mosely’s Law, Origin of X-ray spectra.

Rotational vibrational spectra of diatomic molecules, Rotation, vibration and electronic bands, Introduction of NMR, ESR Laser spectroscopy .

General properties of nuclear mass, charge, spin, static magnetic moment, size and stability, Nuclear models, Liquid drop model and mass formulae. The Shell model, Classical theory of Rutherford scattering.

BRABU BSc Physics Part-3 (Honors Paper-8) Practical Syllabus

Practical Paper

Group: A

The course shall include the following experiments:

1. Junctiondiodeandzenerdiodecharacteristic
2. BJTcharacteristic.
3. FETcharacteristic
4. StaticCharacteristicsoftetrode.
5. VerificationofChild-Langmuirlaw.
6. FrequencyresponseofR-Camplifier.
7. EffectofnegativefeedbackinR-Camplifier.
8. PropertiesofHartleyoscillator.
9. Studyofaplanemodulatedamplifier.
10. FrequencystudyofatunedR-Famplifier.
11. Studyofloadcharacteristicofarectifier.
12. Multi-vibrator and study of its wave forms.
13. Study of logic gates {AND, OR, NAND,NOR).

Group: A

The course shall include the following experiments:

1. VerificationofBrewster’slaw.
2. Verificationof Fresnel’slawsofreflectionand refractionofpolarizedlight.
3. Analysisofellipticalpolarizedlight.
4. InductancebyAndersonbridge.
5. MutualinductancebyCarey-Fosterbridge.
6. Frequencycharacteristicoflowpassfilter.
7. e/mbyBraun’stube.
8. e/mbyHelicalmethod.
9. MeasurementofHallco-efficient.
10. Bandgapofsemiconductor.
11. Planck’sconstantbyphoto-cellmethod.
12. Copperlossandironlossofatransformer.
13. InsertionlossvariationloadoftheT-sectionofanattenuator

BRABU BSc Physics Honors Part-3 Syllabus Marks Distribution:

NOTE: Marks Distribution may be different for different University. Please keep confirm by checking previous year Question Paper about Exam Pattern.

BRABU BSc Physics Part-3 (Honors Paper-5) Syllabus Image-

BRABU BSc Physics Part-3 (Honors Paper-6) Syllabus Image-

BRABU BSc Physics Part-3 (Honors Paper-7) Syllabus Image-

BRABU BSc Physics Part-3 (Honors Paper-8) Practical Syllabus Image-

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