Full Syllabus APAB

8/9/2019 Full Syllabus APAB

1/23

PAPER-APAB-411 Marks: 80

SUB: CLASSICAL MECHANICS Internal Marks: 20

Total Marks: 100

UNIT-I

Survey of the elementary particles: Mechanics of a particle- Mechanics of a system of particles

Constraints- D'Alembert's principle and Lagrange's equations-velocity dependent potentials and the dissipationfunction, simple applications of the Lagrange formulation.

Variational Principle and Lagrange's Equations: Some techniques of the calculus of variations-

Derivations of Lagrange's equations-from Hamilton's principle-Extension of Hamilton's principle to

nonholonomic systems-Advantages of variational principle formulation- conservation theorems and symmetry

properties.

UNIT-II

Two body Central force Problems ; Reduction to the equivalent one-body problem-The equations of motion

and first integrals-The equivalent one-dimensional problems and classification of orbits-The virial theorem-The

differential equation of orbit and integrable power-law potentials-conditions for closed orbits (bertrand's

theorem)-The Kepler Problem Inverse square law of force-The motion in time in the Kepler problem-TheLaplace-Runge-Lenz vector-Scattering in a central force field, Transformation of the scattering problem to the

laboratory co-ordinates.

UNIT-III

The Kinematics of Rigid Body Motion: The independent co-ordinates of a rigid body-Orthogonal

transformation-Formal properties of the transformation matrix, The Euler Angles, Euler's theorem on the motion

of a rigid body-Finite rotations-Infinitesimal rotations-Rate of change of vector-The Coriolis force.

UNIT-IV

The Rigid Body Equations of Motion: Angular momentum and kinetic energy of motion about a point-Tensor and dyadics-The inertia tensor and the momentum of inertia-The eigen values of the inertia tensor and the

principal axis transformation-Methods of solving rigid body problems and the Euler equations of motion Torque-

Free motion of a rigid body-The heavy symmetrical top with one point fixed-Precession of the equinoxes and of

satellite orbits-Precession of system of changes in a magnetic field.

UNIT-V

Elasticity: Introduction, Displacement vector and the strain tensor, Stress tensor, Strain energy, Possible

forms of free energy and stress tensor for isotropic solids, Elastic moduli for Isotropic solids, Elastic properties

of general solids: Hooke's law and stiffness constants, Elastic properties of isotropic solids, propagation of

elastic waves in isotropic elastic media.

TEXT BOOKS:1. Classical Mechanics-Herbert Goldstein, Addison-Wesley/Narosa (Indian Student Edition)

2. Classical Mechanics-Rana and Joag, Tata-McGraw-Hill

REFERENCE BOOKS:1. Classical Mechanics of particles and Rigid body-Kiran C. Gupta, New age Publishers

2. Classical Mechanics-J.D. Uppadaya

3. Classical mechanics S.L.Gupta, Meenakshi prakashan, 1970, New Delhi.

4. Introduction to classical mechanics R.G.Takwall and P.S.Puranik, Tata McGraw

Hill, 1980, New Delhi.

5. An Introduction to Continuum Mechanics-M. E. Gurtin, Academic Press


2/23


SUB: Mathematical Methods in Physics Internal Marks: 20

Total Marks: 100

UNIT-I

Vector Algebra and Vector Calculus: Differential Operators: Gradient, Divergence and curl, Vector

Integration, Gauss Theorem, Stoke's Theorem, Green's Theorem, Curvilinear Co-ordinates, Spherical Polar co-

ordinates, cylindrical co-ordinates.Linear Algebra: Various types of matrices, rank of matrix, Types of linear equation, Linear dependence

and independence of vectors, eigen values and eigen vectors, Cayley Hamilton Theorem, Digonalisation of

matrices, Elementary ideas about Tensors, Types of tensors, Transformation properties, Introductory group

theory, Generators of continuous groups.

UNIT-II

Complex Analysis: Complex Algebra, Cauchy-Riemann condition, Cauchy's Integral Theorem, Cauchy's

Integral Formula, Taylor's Theorem, Laurent's Theorem, Singularities, Residues, Residue Theorem and

Evaluation of Integrals.

Fourier Series, Fourier and Laplace Transforms.

UNIT-III

Ordinary Differential Equation: Differential equation of the First order and First Degree, variable separation,

Homogeneous differential equation, Linear Differential Equation, Exact differential equation, Equation of first

order and Higher degree, Method of finding the complementary function and particular integrals, Series solution-

Frobenous method.

UNIT-IV

Bessel's differential equation and its solution, Bessel's functions, Recurrence formula, Generating function,

Legendre equation and its solution, Legendre's Polynomial, Rodrigue's formula, laguerre's differential equation,

Laguerre's functions, Hermite polynomials.

UNIT-V

Wave equation, Heat equation, Possion equation.

Theory of Probability: Mean, Median, Mode Dispersion Standard Deviation Binomial,

Poissons and Gaussian Distribution Gauss error curve -Chi-square Test.

TEXT BOOKS:

1. Mathematical Methods for Physicist: G. B. Arfken, Hans. J. Weber,-Academic Press

2. Mathematical Physics: H. K. Dass, Rama Verma-S. Chand and Company Ltd.

REFERENCE BOOKS:

1. Matrices and tensors: A. W. Joshi

2. Numerical Methods using FORTRAN: C. Xavier-New Age International Publishers

3. Mathematical Physics: B. S. Rajput

4. Mathematical Physics: Satyaprakash

5. Introduction Mathematical Physics: Charlie Harper


3/23


SUB: Electronics and Computer Programming Internal Marks: 20

Total Marks: 100

UNIT-I

Semiconductor Device Physics: Diodes, Transistors, Field effect Devices, Homo and Hetero Junction devices

and their characteristics and applications. Opto Electronics Devices: Solar Cells, Photo detectors and LEDs.

Network Analysis: Kirchoffs laws network reduction techniques series, parallel, series parallel, star-to-deltaor delta-to-star transformation, Superposition, Thevinins, Nortons, Max Power Transfer theorem

UNIT-II

Digital Electronics :Number Systems, Binary Arithmetic, Boolean Algebra , Logic Gates, Simplification using

Karnaugh map, Combinational Circuits: Adder,Subtractor, Multiplexer, decoder. Sequential Circuits: Flip Flops,

Shift Registers, Counters and D/A and A/D Converters.

UNIT-III

Amplifiers and Oscillators:R-C, L-C and transformer coupled amplifiers, Feed back in Amplifiers. Negative

feedback circuits, Field Effect Transistors, Bootstraping in FET, Stability in amplifiers, Oscillatory circuits,

Phase-shift oscillator, Wein bridge oscillator, Crystal oscillator, Astable and Bi-stable multivibrator.

Operational Amplifiers : The Ideal Op Amp, Inverting and Non Inverting configurations, Equivalent Circuit

model, Op amp application in Integration, differentiation and Summing Circuits, Differential Amplifier,

Logarithmic Amplifiers, CMRR.

UNIT-IV

Common elementary computer science:Programming instructions, simple algorithms and computational

methods.Overview of C: Introduction, Sample C programs,Basic structure of C program,Executing a "C"

Program,Constants, Variable and Data types, Operators and Expressions,

Control statements while, do-while, for statements, nested loops, if-else, switch, break, continue statements.

UNIT-V

C Functions: Defining and accessing a function passing arguments to a function, function prototypes. Arrays

defining an array, Two dimensional arrays

Numerical Techniques: Differentiation, Integration (Simpson's rule, Trapezoidal rule), Solution of first order

differential equation using Range-Kutta Methods, Newton-Raphson Method.

TEXT BOOKS:

1. Physics of Semiconductor Devices- S. M. SZE2. Semiconductor Optoelectronic devices:- P. Bhattacharya (PHI)

3. Digital Electronics and Computer Design: M. M. Mano (PHI)

4. Electronics Fundamentals and Applications: J.D. Ryder

5. Computer Oriented Numerical Methods V.Rajaraman, Prentice Hall, 1987.

6. Let us C:-Yashavant Kanetkar (BPB Publications)

REFERENCE BOOKS:1. Numerical Methods in Science and Engineering M.K.Ventaraman, National

Publishing Co, 1989.

2. Numerical Methods using FORTRAN: C. Xavier-New Age International Publishers


4/23

3. Physics of Semiconductor Devices- D.K.Roy


SUB: Weapon Systems and Ballistics Measurements Internal Marks: 20

Total Marks: 100

UNIT-I

Ordnance: Classification, small arms, Mortars-Howitzers-Guns, Rocket launchers, Basic components and

functional requirements.

UNIT-II

Gun Barrel and Tube Launcher: Theory of thin cylinders, use of plastic region of the material and its

application to the pre-stressing tube, theory of failure, approximate Mises Hencky criteria, principle ofmonoblock non auto-fr ettaged and auto-frettaged barrels.

Gun Design: Gun design rules, Design of combustion chambers, Rifling profile and stress due to rifling, Gun

tube acoustics, Gun erosion

UNIT-III

Ordnance: Obturation, Muzzle brake, fume extractor, Firing mechanism, functions and characteristics of

saddle, cradle, traversing and elevating gears, balancing gears.

Recoil System: Elements of recoil mechanism, small arms, method of obtaining automatic fire, factors

affecting recoil gas system, feed mechanism, trigger mechanism, sights.

UNIT-IV

Measurement of velocity and trajectory elements: Foil and counter, Optoelectronic means, Doppler

RADAR, Telemetry, High speed Photography, Videography, Photogrammetry.

UNIT-V

Measurement of Space: Distometer, LASER range finder, Theodolite, Recoil and Run out, Height of

burst, Barrel Vibration

TEXT BOOKS:

1. Text Book of Ballistics and Gunnery, 1987, War Office, UK

2. Elements of Ordnance, 1982, T. J. Hayes, John Wiley, New York

REFERENCE BOOKS:

1. Guns, Motars and Rockets,1982, JW Ryan, Brassy series, Oxford, UK

2. The Hand books of Artillery Weapons, 1971, Royal College of Military Science


5/23

PAPER-APAB-415 (PRACTICAL)

SUB: Electronics and Modern Physics Total Marks: 100

EXPERIMENT LIST:

1. Measurement of velocity of liquid by Ultrasonic Interferometer.

2. Measurement of band gap energy of different semiconductors including LED.

3. Study of Hall Effect using Hall Apparatus Kit.

4. To determine the wavelength, spot size and divergence of LASER light.

5. Analysis of Fourier Theorem by Using Fourier Analysis KIT.

6. Implementation of Adder using Universal Logic gates.

7. To study Multivibrator circuits.

8. Study of different types of Flip Flops.

9. Realization of Boolean expression by using K- Maps.

10. Design of Multiplexer/Demultiplexer.

11. Study of D/A converter.

12. Study of BCD to 7 segment Display.

13. Study of Left register, Right register and Ring counter

14. Study of R-C coupled Amplifier

15. Study of Solar cell KIT


6/23


SUB: Statistical Mechanics and Thermodynamics Internal Marks: 20

Total Marks: 100

UNIT-I

Classical Statistical Mechanics: Postulates of classical statistical mechanics, Liouvilles Theorem,

Micro-canonical ensemble, Deviation of Thermodynamics, Equipartition Theorem, Classical ideal gas, Gibbs

paradox.

UNIT-II

Canonical ensemble and energy fluctuation, Grand canonical ensemble and density fluctuation, Equivalence of

canonical and grand canonical ensemble.

UNIT-III

Quantum Statistical Mechanics: The density matrix, Ensembles in quantum statistical mechanics, Ideal

gas in micro canonical and grand-canonical ensemble, Equation of state for Ideal Fermi gas, Theory of white

dwarf stars.

UNIT-IV

Ising Model: Ising model,: definition of Ising Model, ID-Ising model.

UNIT-V

Phase Transitions: Ideal Bose gas, Photons and Plancks Law, Phonons, Bose-Einstein condensation,

Thermodynamic description of phase transition, Phase transitions of second kind, Discontinuity of specific heat,

Change in symmetry in a phase transition of second kind

TEXT BOOKS:

1. Statistical Mechanics-K: Huang

REFERENCE BOOKS:

1. Elementary Statistical Physics- C Kittel

2. Statistical Mechanics-F: Mohling

3. Statistical Mechanics-Landau and Lifshitz.

4. Physics Transitions and Critical Phenomena-H.E. Stanley

5. Thermal Physics-C.Kittel

6. Fundamentals of Statistical and Thermal Physics-F.Reief


7/23


SUB: Quantum Mechanics Internal Marks: 20

Total Marks: 100

UNIT-I

General Principles of Quantum Mechanics: Linear vector space, Ket and Bra vectors, scalar product

of vectors and their properties, Linear operator, Adjoint Operators, Unitary Operators and transformations,

Expectation values of dynamical variables and physical interpretation, Hermitian operators, Probability

interpretation, degeneracy, Schimdt method of orthogonalization.

Mathematical Basics: Expansion Theorem, Completeness and Closure property of the basis set, Co-ordinate and Momentum representation, Compatible and incompatible observables, Commutator algebra,

Uncertainty relation as a consequence of noncommutability, Minimum uncertainty wave packet

UNIT-II

Quantum Dynamics: Time evolution of quantum states, time evolution operator and its properties,

Schroedinger picture, Heisenberg picture, Interaction picture, Equation of motion, Operator method of solutionof Harmonic Oscillator, Matrix representation and time evolution of creation and annihilation operator.

UNIT-III

Rotation and Orbital Angular Momentum: Rotation Matrix, Angular momentum operators as the generators

of rotation. Lx, Ly, Lz and L2 in spherical polar co-ordinates, Eigen values and Eigen functions of L z and L

2 (OP

method), Spherical Harmonics, Matrix representation of L+, L- and L2.

Spin particles, Pauli spin matrices and their properties, Eigen values and Eigen functions, Spinortransformation under rotation.

Total Angular momentum J, Eigen value problem of Jz and J2, Angular momentum matrices, Addition of

angular momenta and C. G. Co-efficient, angular momentum states for composite systems in the angular

momenta (1/2, ) and (1,1/2).

UNIT-IV

Motion in Spherical Symmetric Field: Hydrogen atom, Reduction of two body problem to equivalent

one body problem, Radial equation, Energy eigenvalues and eigenfunctions, Degeneracy, radial probability

distribution.

Free particle problem incoming and outgoing spherical waves, Expansion of plane waves in terms of spherical

waves, bound states of a 3-D square well, particle in a sphere.

UNIT-V

Approximation Methods: Time independent perturbation theory and application, variational method, WKBapproximation, Time dependent perturbation theory and Fermis Golden rule, selection rules.

Scatterings: Elementary theory of scattering, Phase shifts, Partial waves, Born approximations.

TEXT BOOKS:

1. Quantum Mechanics-Joichan

REFERENCE BOOKS:

1. Quantum Mechanics- Gasorowicz


8/23

2. Quantum Mechanics-Ghatak and Loknathan


SUB: Fluid Dynamics Internal Marks: 20

Total Marks: 100

UNIT-I

Fluid Flow Concepts and Basic equations: Velocity field, acceleration of a fluid element, continuity

equation, conservation of momentum , stream line functions, rotation of fluid element, Eulers equation.

Bernoullis equation along a stream line and in rotational flow, Bernoullis equation from thermodynamics ,static

and dynamics pressure, Losses due to geometric changes:-Sudden expansion and contraction Venturimetre.

UNIT-II

Dimensional Analysis and Dynamic Similitude: Buckinghams Theorem, Dimensionless parameters,

Eulers number, Reynolds number, Froudes number, Weber number, Model studies and wind tunnel tests.

UNIT-III

Viscous Effect: Normal stress shear stress, Navier-Stokes theorem, Flow through a parallel channel,

Flow past a sphere, Terminal velocity order of magnitude analysis, Approximation of the Navier-Stokes

equations.

Boundary layer concepts:- Momentum integral equation, velocity profile, Boundary layer thickness, Skin

Friction effecter, Transverse component of velocity, Displacement thickness, momentum thickness.

Drag:- Bluff badles, Aerofoil, Boundary layer control, entrance region.

UNIT-IV

Compressible flow: Perfection gas Relations:- Speed of propagation in gas, in isothermal and adiabatic

condition, Mach number, Limits of incompressibility.

Isentropic flow:- Laws of conservation, Static and stagnation values, flow through a duct of varying cross-

section, mass flow rate, choking a converging passage, constant area adiabatic flow and Fanno like, constant area

frictionless flow and Raleigh line.

UNIT-V

Fluid Metrology: Pressure measurement, Velocity measurement, Turbulence measurement, Viscosity

measurement, Introduction to Computational Fluid Dynamics.

TEXT BOOKS:

1. Fluid Mechanics, A.K. Mohanty, PHI

2. Fluid Dynamics, R.V. Mises, Springer

REFERENCE BOOKS:

1. Foundation of Fluid Mechanics , S. W .Yuan, PHI

2. Text Book of Fluid Mechanics, R. S. Khurmi, S. Chand

3. Perspective in Fluid Dynamics, Batchelor, Cambridge


9/23


SUB: Internal Ballistics Internal Marks: 20

Total Marks: 100

UNIT-I

Explosives: Explosive compounds and explosive mixtures-classification of explosives: Initiatory, high

explosives, propellants and pyrotechnics-characteristics of explosives initiation, burning and detonation-

Explosive burning and deflagration- Deflagration to detonation transition- burning mechanism of propellants-

Explosive parameters- Measurement of various explosive parameters.

UNIT-II

Chemical Thermodynamics of Gun Propellant: Introduction to gun, ammunition, projectiles and

missiles- Energetic of gun propellants-Composition of gaseous products- Corrections to the basic calculations-

prediction of propellant performance-The ratio of heat capacities.

UNIT-III

Internal Ballistics: General introduction Propellants-Driving Band engraving process, and the resistance to

the inbore motion of a projectile- Heating of gun barrel- Heat conduction in thick walled barrels- Numerical

solution for heat conduction- Wear in gun barrels- Prediction of pressure history and muzzle velocity- The

internal ballistics of leaking gun.

UNIT-IV

In-Bore Dynamics:Introduction Some historical back ground- Firing from a moving gun- The vibration ofa gun barrel while the projectile is in the bore- Practical consequences of barrel vibration Effect on the

projectile of in-born motion.

UNIT-V

Intermediate Ballistics: Gas dynamics of the muzzle flow fluid- Muzzle brakes, sabots, and blast

suppressors- Store separation and sub- munitions discharge.

Recoil of Guns: Introduction-The rigid body motion of the rifling parts- Longitudinal vibration of a barrel

TEXT BOOKS:

1. Text Book of Ballistics and Gunnery, 1987, War Office, UK,

REFERENCE BOOKS:

1. Interior Ballistics, 1951, HMSO publication


10/23


SUB: Computational Physics Total Marks: 100

EXPERIMENT LIST: (FORTRAN / C)

1. To find largest or smallest of a given set of numbers

2. To generate and print first hundred prime numbers

3. To find sum of AP and GP

4. To find transpose of Matrix

5. Matrix Algebra

6. Evaluation of Log and exponential

7. Solution of Quadratic Equation

8. Numerical Differentiations

9. Numerical Integration by Trapezoidal Method

10. Numerical Integration by Simpson Method

11. Evaluation of Gamma Function

12. Solution of Second order differential equation by Range-Kutta Method

13. Finding roots of an equation by Newton-Raphson Iteration method

14. Least Square fitting of linear equations

15. Solution of system of linear equation

MATLAB

MATLAB Fundamentals, MATLABs opening window features, Getting started with MATLAB, M file,

control statements of M file programming, Matrix manipulation, creating a function file.


11/23


SUB: Material Science and Solid state Physics Internal Marks: 20

Total Marks: 100

UNIT-I

Structure and Defects: Introduction, Crystal structures-Atomic arrangements, Crystals and lattices,

Some simple crystals, crystallographic direction and planes, Packing of atoms in crystals, Symmetries and itsrelationship to properties, Imperfections in crystals, glasses, Diffractions by crystals.

Types of Bonding in solids.

Imperfections in solids- lattice defects- point defects and extended defects, vacancies, Interstitials, edge and

screw dislocation, twin planes and grain boundaries, Colour centers.

UNIT-II

Mechanical Properties of Metals: Plastic deformation of solids- Special deformation behaviour of solids

Flow of fluids, Internal friction in solids- Ideal plastic behavior, vibration of mono and diatomic lattice.

Electric Properties of Metals: Introduction, Free electron theory of metals, Ohms law and Hall coefficient,Metals, Band theory of Metals, Insulator and semiconductors, Special dielectrics.

Magnetic properties- Theory of dia, para and ferromagnets, Soft ferromagnetic, hard magnetic materials, specialmagnetic materials.

UNIT-III

Thermal and Chemical Properties: Space rockets and thermal expansion coefficient, Thermal conductivity,

Heat capacity, Energy changes during phase transformation, Temperature effects on properties, Electrical-

thermal coupling, Heat treatment, Chemical properties.

Phase diagram and phase Transformation: Introduction, Binary systems, Non-equilibrium transformations,

Age precipitating hardening, The Fe-C system, Segregation in binary alloys during solidification.

UNIT-IV

Polymers: Introduction, An idealized random chain, Degree of polymerization, Topology of vinyl polymers,Co-polymer, Condensation polymer, Network polymers, Thermoplastics and thermosetting resins, Crystalinity

in polymers, Macromolecules in living matter.

Magnetic properties of Metals:- Theory of dia, para and ferromagnets, Soft ferromagnetic, hard magnetic

materials, special magnetic materials.

UNIT-V

Superconductivity: Superconductivity state, Fundamental concept, The penetration depth, Magnetic flux

quantization, type-I and type-II superconductor, Fluxoid pinning, Josephson Tunneling, Historical overview of

High Tc superconductor.

Corrosion and Degradation of Materials Optical properties, Nano chemicals.

TEXT BOOKS:

1. Introduction to Materials Science- A. L.Ruoff, PHI

REFERENCE BOOKS:

1. Introduction to Solid State Physics-C. Kittle

2. Material Science: Vijay and Rangrajan


12/23


SUB: Electrodynamics Internal Marks: 20

Total Marks: 100

UNIT-I

Structure and Defects: Introduction, Crystal structures-Atomic arrangements, Crystals and lattices,

Some simple crystals, crystallographic direction and planes, Packing of atoms in crystals, Symmetries and itsrelationship to properties, Imperfections in crystals, glasses, Diffractions by crystals.

Types of Bonding in solids.

Imperfections in solids- lattice defects- point defects and extended defects, vacancies, Interstitials, edge and

screw dislocation, twin planes and grain boundaries, Colour centers.

UNIT-II

Mechanical Properties of Metals: Plastic deformation of solids- Special deformation behaviour of solids

Flow of fluids, Internal friction in solids- Ideal plastic behavior, vibration of mono and diatomic lattice.

Electric Properties of Metals: Introduction, Free electron theory of metals, Ohms law and Hall coefficient,Metals, Band theory of Metals, Insulator and semiconductors, Special dielectrics.

Magnetic properties- Theory of dia, para and ferromagnets, Soft ferromagnetic, hard magnetic materials, specialmagnetic materials.

UNIT-III

Thermal and Chemical Properties: Space rockets and thermal expansion coefficient, Thermal conductivity,

Heat capacity, Energy changes during phase transformation, Temperature effects on properties, Electrical-

thermal coupling, Heat treatment, Chemical properties.

Phase diagram and phase Transformation: Introduction, Binary systems, Non-equilibrium transformations,

Age precipitating hardening, The Fe-C system, Segregation in binary alloys during solidification.

UNIT-IV

Polymers: Introduction, An idealized random chain, Degree of polymerization, Topology of vinyl polymers,Co-polymer, Condensation polymer, Network polymers, Thermoplastics and thermosetting resins, Crystalinity

in polymers, Macromolecules in living matter.

Magnetic properties of Metals:- Theory of dia, para and ferromagnets, Soft ferromagnetic, hard magnetic

materials, special magnetic materials.

UNIT-V

Superconductivity: Superconductivity state, Fundamental concept, The penetration depth, Magnetic flux

quantization, type-I and type-II superconductor, Fluxoid pinning, Josephson Tunneling, Historical overview of

High Tc superconductor.

Corrosion and Degradation of Materials Optical properties, Nano chemicals.

TEXT BOOKS:

1. Introduction to Materials Science- A. L.Ruoff, PHI

REFERENCE BOOKS:

1. Introduction to Solid State Physics-C. Kittle

2. Material Science: Vijay and Rangrajan


13/23


SUB: Nuclear and Particle Physics Internal Marks: 20

Total Marks: 100

UNIT-I

Nuclear size and shape: Nuclear radii and charge distributions, nuclear binding energy, electric and

magnetic moments.Nuclear Models: Liquid drop model, semi-empirical mass formula, Nuclear Fission, Magic number, Shell

model.

UNIT-II

The Two-Nucleon Problem: The Ground state of deuteron, excited state of deuteron, n-p scattering at lowenergies, tensor forces and deuteron problem, p-p scattering at low energies.

Nuclear Force: Central and non-central forces, Force dependent on Isospin, Exchange force, charge

dependence and charge symmetry of Nuclear force, Mirror Nuclei.

UNIT-III

Nuclear Reaction: Energetic of Nuclear reaction, Compound nuclear theory, Resonance scattering, Brit-Wigner formula, Nuclear Fusion, Alpha decay, Fermis theory of Beta decay, Selection Rules for allowed

transition, Parity violation.

UNIT-IV

Particle Accelerators and Detectors: G-M Counter, Scintillation Detectors, Semiconductor detectors.

Radiation Hazards and Protection: Radiation Hazards, Radiation dose, Monitoring of radiations, Hazards ofLaboratory contamination and precautions, Shielding Materials.

UNIT-V

Particle Physics: Basic forces, Classification of Elementary particles, Spin and Parity, Determination of

Isospin, Strangeness, Lepton and Baryon Number, Conservation Laws, Gellmann-Nishijima Scheme, Meson and

Baryon Octet, Elementary Ideas of SU(3), Symmetry Quark Model.

TEXT BOOKS:

1. Nuclear Physics: R.R.Roy and B.P Nigam

2. Introductory Nuclear Theory: L. R. B. Elton

3. Elementary Particle Physics: M.J.Longo

4. Nuclear Physics Experiments: J. Verma

REFERENCE BOOKS:

1. Theoretical Nuclear Physics: Blatt and Weisskopf

2. Nuclear Physics: D. C. Tayal

3. Particle Physics: R. Omens

4. Nuclear Physics: Pandey and Yadav

5. Nuclear Physics: I. Kaplan

6. Concepts of Nuclear Physics: L. Cohen

7. Introduction to Nuclear and Particle Physics: R. C. Verma


14/23


SUB: External Ballistics Internal Marks: 20

Total Marks: 100

UNIT-I

Projectile Aerodynamics: General introduction-yaw-The aerodynamic forces and moments acting on aprojectile-linearised aerodynamics-centre of pressure and stability-Aerodynamic coefficients-Drag laws-Angular

motion of projectiles-Gyroscopic stability-Yawing behaviour-The lienarised theory of yawing motion-projectiles

with slight configurational asymmetries-projectiles not obeying classical linear theory.

UNIT-II

Projectile Transitional Motion: The ICAO standard atmosphere-Motion in vacuum-Motion of a point

mass-Trajectory modeling-constant corrections to the plane-particle trajectory, biases-variable corrections to the

plane-particle trajectory, dispersion-the effect of wind-The effect of initially yaw and yawing rate-the effect of

projectile asymmetries.

UNIT-III

Aeroballistic Design: Introduction-Artillery shell-Design criteria-Low drag design for artillery shell-stability

of artillery shell.

Direct Fire Projectiles: Direct fire projectiles-spin-stabilized K.E. penetrators-statically stable K.E.

penetrators and long rods-Aircraft fired projectiles-Bombs and sub munitions.

UNIT-IV

Aerodynamic prediction for Design purposes : Numerical solution of the full Navier-stokes equations-Analytical estimation methods- Numerical estimation methods-semi-empirical estimation methods.

Measurement of Pressure: Copper Crusher Gauge- Piezo electric gauge- Buffer pressure- pressure,

space and time curve- Strain measurement- Blast measurement.

UNIT-V

Photo- instrumentation:Movie camera-High-speed film camera-High sped video- Motion analyzerBallistic Measurements:Heat- Jump- Yam- Motion analysis- Height of burst- Frequency- illumination- Laserinterferometry.

.

TEXT BOOKS:

1. The Books of Ballistics and Gunnery, 1987, War Office, UK.

REFERENCE BOOKS:

1. Modern Exterior Ballistics, 1999, Robert McCoy-Schiffer publishing Ltd.


15/23


SUB: Material Science and Ballistic Measurements Total Marks: 100

EXPERIMENT LIST:

1. Study of thermal properties of solid using HEAT CAPACITY KIT.

2. Study of B-H loop of a ferromagnetic specimen by using B-H Curve UNIT.

3. Determine the Curie temperature of a ferroelectric/ferromagnetic material by using CURIE

TEMPERATURE KIT.

4. Measurement of ultrasonic velocity in solids and Youngs Modulus of those solids in YOUNGS

MODULUS KIT.

5. Study of Lattice Dynamic KIT.

6. Study of particle size by using LASER Apparatus

7. Measurement of the following parameters of a given Gun (i) Angle of Yaw, (ii) Jump

8. Measurement of the following parameters of the firing of the given ammunition (i) Height of Brust

(ii) Range of an Illuminating Round (iii) The deviation from the line of fire

9. Measurement of Acoustic signal using data acquisition system .

10. Measurement of the angular velocity of a fin stabilized projectile by using SVR-II


16/23

PAPER-APAB-541-SP-Ballistics Marks: 80

SUB: Terminal Ballistics Internal Marks: 20

Total Marks: 100

UNIT-I

Munitions: Introduction-penetration of spherical projectiles into earth-Fracture mechanics under impact-

Fragmentation warheads-shaped charge warheads-High explosive squash head.

UNIT-II

Kinetic Energy projectiles: Penetration into resisting medium-Empirical formulae for the prediction

of penetration-Analytical models of failure modes-Numerical methods-plate charges.

UNIT-III

Design and Defeat of Armour : Introduction Mechanical property requirements-Armour materialcharacteristics Armour structure-stress-strain relationship-Waves in rods-Defeat of armour-Failure mechanism-

Ballistics limit.

UNIT-IV

Forensic Ballistics: Internal and External Ballistics-Introduction-Direction, Time and range of fire-projectile

velocity-Recoil- Trajectory- Effect of projectile on hitting a target- Function of bullet shape-Striking velocity and

angle- Tumbling bullets- Cavitations- Ricochet.

Wound Ballistics: Threshold velocity for penetration of skin, flesh, bones- Nature of wounds on entry,

exit-Explosive wounds- Evaluation of injuries caused due to shot gun, rifle, hand guns and country madefirearms- Method of measurement of wound ballistic parameters- post mortem and ante- mortem firearm

injuries.

UNIT-V

Hydro-Ballistics: Transformation of coordinates related to torpedo- Hydrodynamic drag lift and

coefficients- Underwater shocks- Underwater trajectories- Cavitation and impact phase

Prediction and Dispersion of Fire

Dispersion- Consistency-Accuracy- Precision- Probability of a hit- Circular probability areas Dispersion of fire

against aerial targets- Ricochet- Safety zones

TEXT BOOKS:


REFERENCE BOOKS:

1. T.B.B.G. pamphlet No.92. Terminal Ballistics- A Text Book and atlas of gunshot wounds, Malcom J Dodd, CRC press, Taylor &

Francis publications

3. Firearms in criminal investigation and trials, Dr. BR Sharma, 3rd Edition, Universal Law publishing Co.

Pvt Ltd.

4. Gunshot wounds- practical aspects of Firearms. Ballistics and Forensic Techniques, Vincent JM DiMaio,

,Elseviour Science publishing Co. Inc

5. Wound Ballistics and the Scientific Background, Karl G Sellier & Beat P Kneubuehl Elseviour Science

publishing Co. Inc.


17/23


SUB: Ballistics Modeling and Analysis Internal Marks: 20

Total Marks: 100

UNIT-I

Mathematical and Statistical Modeling: System- Model- Classification- Modeling methods-Dimensional

analysis-Finite Exploratory data analysis-Goodness of fit Introduction to Bayesian inference-Bayes estimateand risk-Linear model- Analysis of variance- Describing systems-Dynamic systems- discrete system- system

optimization Introduction to system modeling concepts- Gframework for modeling & simulation

UNIT-II

Advanced Modeling Techniques: Design of experiments- Model fitting- Missing data analysis- Fuzzymodeling &neural network- Neural network- Reliability and reliability models

UNIT-III

Internal Ballistics: Prediction of pressure history and muzzle velocity- Lumped parameter model- gas

dynamics model- The mathematical modeling of gun barrel vibration-Validation of computer models.

UNIT-IV

External Ballistics:Trajectory modeling- The in- vacuo trajectory model- The point-mass model- The modified point- mass model-

The six degree- of freedom model.

UNIT-V

Meteorology: Composition of air-Equation of state, thermodynamics of dry and moist air- Solar and

terrestrial radiation- radiation balance of earth- atmosphere system- Fundamental forces in the atmosphere- Basic

equations governing the atmospheric circulation-Effect of earths rotation- Scale analysis and simplification of

equations to hydrostatic approximation and geo- strophic approximation- Circulation and vorticity- Numericalmodel- Weighting factors and differential corrections to trajectories

TEXT BOOKS:


2. System Modelling and Simulation: An Introduction, FL Seveverans

REFERENCE BOOKS:

1. Introduction to Mathematical method in Defence Analysis, J.S.Przemieniecki, AIAA Education Series

2 Principles of Mathematical Modelling, 1980, Clive L.Dym & Elizabeth S,Ivy, Academic Press

3. Theory of Modelling and Simulation, BP Zeigler, H Praehafer &TG Kim


18/23


SUB: Rocket Ballistics Internal Marks: 20

Total Marks: 100

UNIT-I

Ballistics of Rockets: Rocket motors and nozzle design- The internal ballistics of motors-Launch

dynamics External ballistics of rockets.

UNIT-II

Fundamentals of Aerodynamics: Fundamental physical quantities- Law of conservation- Different typesof flows- Aerodynamic forces- Aerofoil and wings- compressible flow-critical Match number- Drag divergence

Mach number-shock wave- Expansion fan- Missile body.

UNIT-III

Introduction to Missile Propulsion: Definition of thrust and basic principles- Types of propulsion

systems- Combustion chambers- Nozzle types- Basic thermodynamics- Rocket performance parameters- solid

and liquid rocket system.

UNIT-IV

Types of Guidance: Principle of beam rider guidance- Homing guidance system and commandguidance system, Introduction to IR laws- IR systems- IR homing head, Introduction to INS, SDINS, MFAR,

GPS and WAAS.

UNIT-V

Introduction to Missile Control: Task of missile control system- Control methods- aerodynamic control

and thrust vector control- Cartesian and polar control- rear control- canard control and moving wing control-Roll

control and its necessity- Missile auto pilot.

TEXT BOOKS:



19/23

PAPER-APAB-544-SP-Ballistics

SUB: PROJECT

Total Marks: 100

PAPER-APAB-545-SP-Ballistics

SUB: SEMINAR

Total Marks: 100


20/23

PAPER-APAB-641-SP-Electronics Marks: 80

SUB: Electrical Circuits and Control Internal Marks: 20Total Marks: 100

UNIT-I

Circuit components, KCL, KVL, Circuit analysis methods: nodal analysis, mesh analysis, basic network

theorems, Superposition theorem, Thevenins Theorem, Nortons theorem, Reciprocity theorem, Millimanstheorem, Maximum Power Transfer Theorem.

UNIT-II

Laplace transforms of unit step, shifted unit step, ramp and impulse functions. Response of RL, RC, RLC series

circuits, series and parallel resonance, bandwidth, Q-factor. Low pass, High pass, R C filters.Low, high,band-

pass and band elimination filters.

UNIT-III

Open loop and closed loop control systems, Mathematical modeling of physical systems, Block diagramrepresentation of systems Block diagram reduction methods Closed loop transfer function, determination of

signal flow graph. Masons gain formula Examples.

UNIT-IV

Test signals time response of first order and second order systems time domain specifications types and

order of systems generalized error co-efficient steady state errors concepts of stability Routh-Hurwitz

stability.

UNIT-V

Bode plot, Root locus technique, Elementary state variable formulation, state transition matrix and response for

linear time invariant systems.

TEXT BOOKS:

1. A course in Electrical Circuit Analysis Soni and Gupta, Dhanpat Rai

2. Control System Engineering, 3rd Edition, New Age International Edition, 2002- Nagrath & Gopal,

3. Network and systems D Roy Choudhury

REFERENCE BOOKS:

1. Network analysis M.E Van Valkenberg, PHI

2. Network analysis G.K. Mittal

3. Automatic Control Systems, 7th Edition Prentice Hall of India, 2002, Benjamin.C.Kuo,4. Modern Control Engineering, PrenticeHall of India, 4th Edition, 2003, Ogata.K


21/23


SUB: Optoelectronics and Optical Communication Internal Marks: 20Total Marks: 100

UNIT-I

Optical Processes in Semiconductors: Electron- hole Pair formation and recombination- band to band

recombination- absorption in semiconductors- exciton absorption - donor-acceptor and impurity bandabsorption- absorption in quantum wells - radiation in semiconductors-Luminescence from quantum wells- time

resolved photo luminescence.

UNIT-II

Semiconductor Junctions : The hetrojunction- LED structure - heterojunction LED - Edge emitting LED- I-V

Characteristics -Spectral and frequency response

UNIT-III

Photodetectors: Junction photo diodes- PTN-APD- Photo transistor- modulated barrier photo diode - Schottkybarrier - MSM photo diode- multicavity Photo diodes - Basic Principles of Solar cells.

UNIT-IV

Switching Devices and Opto-electronic ICs : Electro optic modulators - Optical switching and logic devices -

application of OEIC S- materials and processing for OEICS - Integrated transmitters and receivers - guided

wave devices

UNIT-V

Fiber Optic Communication Optical fibre - Characteristics and fundamental parameters - Propagating modes -

low loss fibres - transmission distance with optical fibres - examples of optical transmission techniques -

instrumentation and control with optical fibres.

TEXT BOOKS:

1. Semiconductor opto electronic devices-Pallab Bhattacharya PHI, 1995.

2. Opto Electronics - Wilson and Hawker

3. Optical Fibre Communication - Snematsu and Toa ( John Wiley and sons)

REFERENCE BOOKS:

1. Opto Electronics - Texas Instruments.

2. Opto Electronics - Jasprit Singh3. Fibre Optic Communication - R.L.Keiser.


22/23


SUB: Pulse and Digital Circuits Internal Marks: 20Total Marks: 100

UNIT-I

Linear Waveshaping : High pass, low pass RC circuits, their response for sinusoidal, step, pulse, square and

ramp inputs. RC network as differentiator and integrator, RL and RLC circuits and their response for step input,Ringing circuit.Non-Linear Waveshaping: Diode clippers, Transistor clippers, clipping at two independent levels, Transfercharacteristics of clippers, Emitter coupled clipper, Comparators, applications of voltage comparators, clampingoperation, clamping circuits using diode with different inputs,

UNIT-II

Switching Characteristics of Devices: Diode as a switch, piecewise linear diode characteristics, Transistor as aswitch, Break down voltage consideration of transistor, saturation parameters of Transistor and their variation

with temperature, Design of transistor switch, transistor-switching times.

UNIT-III

Multivibrators: Analysis and Design of Bistable, Monostable, Astable Multivibrators and Schmitt triggerusing transistorsTime base Generators: General features of a time base signal, methods of generating time basewaveform, Miller and Bootstrap time base generators basic principles, Transistor miller time base generator,

Transistor Bootstrap time base generator, Current time base generators.

UNIT-IV

Combinational Digital Circuits:Number systems and codes, De-Morgan laws, Boolean Algebra, K-map andsimplification of Boolean functions using K-map, Implementation of various Boolean functions. Design of

Adders, Multiplexers, Decoders, BCD to 7 segment Decoder,

UNIT-V

Sequential Digital Circuits:Clocked S-R Flip-Flop, J-K Flip-Flop, Master Slave J-K Flip-Flops, T and D Flip-Flops, Shift registers, Synchronous and Asynchronous Counters, Ring and Johnson Couters.

TEXT BOOKS:

1. Pulse, Digital and Switching Circuits, J Millman and Taub, TMH, 2003.2. Solid State Pulse Circuits,David A Bell, 4th Ed, PHI,

3. Digital Electronics and Computer Design M.M. Mano, PHI

REFERENCE BOOKS:

1. Pulse and Digital Circuits, MS Prakash Rao,TMH, 2006.

2. Pulse & Digital Circuits, Anand Kumar, PHI

3. Pulse, Digital circuits and Computer fundamentals, R Venkataraman


23/23

PAPER-APAB-644-SP-Electronics (PRACTICAL) Total Marks: 100

SUB: Practical: Advanced Electronics Lab

PAPER-APAB-645-SP-Electronics

SUB: PROJECT& SEMINAR Total Marks: 100

Full Syllabus APAB

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Transcript of Full Syllabus APAB