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BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 1
Course Contents for Subjects with Code: PHY
This document only contains details of courses having code PHY.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 2
Code Subject Title Cr. Hrs Semester
PHY‐101 Elementary Mechanics 3 I
Year Discipline
1 Physics Vector derivatives and operations, divergence theorem, Stokes’ theorem, particle dynamics with emphasis on effect of frictional and drag forces on motion, non-inertial frames and pseudo forces, work-energy theorem, conservative and non-conservative forces, two particle and many-particle systems, centre of mass of solid objects, momentum changes in a system of variable mass. Collisions in the center-of-mass reference frame, rotational dynamics with emphasis on Parallel-axis theorem, moment of inertia of bodies of various shapes, combined rotational and translational motion. Angular momentum, angular velocity and stability of spinning objects, gravitational effect of a spherical mass distribution, Kepler’s laws of planetary motion. Books Recommended:
Physics Vol. I by Resnick, Halliday and Krane, 4th Edition, John Wiley and Sons Inc, New York, 1992. Physics Vol. I by Resnick, Halliday and Krane, 5th Edition, John Wiley and Sons Inc,
New York, 2002. Fundamental of Physics by Halliday Resnick and Krane, 5th Edition, John Wiley and Sons Inc, New York, 1999. University Physics 8th Edition by Sears, Zemansky and Young, Addison-Wesley, Reading (MA), USA, 2000. Physics by Alonso and Finn: Addison-Wesley, Reading (MA), USA, 1999.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 3
Code Subject Title Cr. Hrs Semester
PHY‐102 Waves, Oscillations and Optics 3 I
Year Discipline
1 Physics Simple and damped harmonic oscillations, forced oscillations and resonance, mechanical waves, traveling waves, wave equation and power and intensity in wave motion, principle of superposition, Doppler effect of sound waves. Interference from thin films, Michelson interferometer, Fresenel’s biprism and its use, diffraction from multiple slits, diffraction grating, X-ray diffraction and structure of matter, polarization, description of polarization states, rotation of plane of polarization, holography. Books Recommended:
1. Physics Vol. I & II (extended) by Resnick, Halliday and Krane, 4th Edition, John Wiley and Sons Inc, New York, 1992.
2. Physics Vol. I & II by Resnick, Halliday and Krane, 5th Edition, John Wiley and Sons Inc, New York, 2002.
3. Fundamental of Physics by Halliday Resnick and Krane, 5th Edition, John Wiley and Sons Inc, New York, 1999.
4. University Physics 8th Edition by Sears, Zemansky and Young, Addison-Wesley, Reading (MA), USA, 2000.
5. Physics by Alonso and Finn: Addison-Wesley, Reading (MA), USA, 1999.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 4
Code Subject Title Cr. Hrs Semester
PHY‐103 Electricity and Magnetism 3 II
Year Discipline
1 Physics Electric field of continuous charge distributions, dipole in an electric field, Applications of Gauss’ law, calculating the field from the potential, capacitor with dielectric, electric current density and Ohm’s law, semiconductors and superconductors, magnetic force on a charged particle, magnetic force on a current, torque on a current loop, magnetic dipole, Biot-Savart Law, Ampere’s law, Faraday’s Law, Lenz’s Law, motional E.M.F, induced electric fields, Gauss’ law for magnetism, origin of atomic and nuclear magnetism, magnetization, magnetic materials, induced magnetic fields and displacement current, Maxwell’s equations, generating an electro-magnetic wave, traveling waves and Maxwell’s equations, energy transport and the Poynting vector. Books Recommended:
Physics Vol. II (extended) by Resnick, Halliday and Krane, 4th Edition, John Wiley and Sons Inc, New York, 1992.
Physics Vol.II (extended) by Resnick, Halliday and Krane, 5th Edition, John Wiley and Sons Inc, New York, 2002.
Fundamental of Physics by Halliday Resnick and Krane, 5th Edition, John Wiley and Sons Inc, New York, 1999.
University Physics 8th Edition by Sears, Zemansky and Young, Addison-Wesley, Reading (MA), USA, 2000.
Physics by Alonso and Finn: Addison-Wesley, Reading (MA), USA, 1999.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 5
Code Subject Title Cr. Hrs Semester
PHY‐104 Thermodynamics and Kinetic Theory 3 II
Year Discipline
1 Physics Kinetic theory of the ideal gas, work done on an ideal gas, internal energy of an ideal gas, intermolecular forces. Statistical mechanics, statistical distribution and mean values, distribution of molecular speeds, distribution of energies, Brownian motion. Heat and Thermodynamics; heat, different theories of heat, specific heat, gram molecular specific heat, laws of thermodynamics, Zeroth law, first law, second law, third law of thermodynamics, reversible and irreversible processes, indicator diagram, entropy, law of increase of entropy, temperature-entropy diagram, Maxwell’s thermodynamics relations, TDS equations, Clapeyron’s equation, entropy and second law of thermodynamics, reversible and irreversible processes, second law of thermodynamics, Carnot Cycle, Carnot engine, thermodynamic temperature scale, entropy, low temperature physics. Thermoelectricity, Seebeck effect, Peltier effect, thermocouple. Books Recommended:
1. Physics Vol I.&II (extended) by Resnick, Halliday and Krane, 4th Edition, John Wiley and Sons Inc, New York, 1992.
2. Physics Vol I &II (extended) by Resnick, Halliday and Krane, 5th Edition, John Wiley and Sons Inc, New York, 2002.
3. Fundamental of Physics by Halliday Resnick and Krane, 5th Edition, John Wiley and Sons Inc, New York, 1999.
4. University Physics 8th Edition by Sears, Zemansky and Young, Addison-Wesley, Reading (MA), USA,
5. 2000. 6. Physics by Alonso and Finn: Addison-Wesley, Reading (MA), USA, 1999.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 6
Code Subject Title Cr. Hrs Semester
PHY‐111 Physics‐I (Mechanics & Optics) 3 I
Year Discipline
1 Chemistry‐II, Mathematics‐I, Statistics‐I Mechanics Vector Operations Vector in 3 dimensions; Vector derivatives and operation; Gradient, Divergence and Curl of a vector; Divergence Theorem; Stokes Theorem. Particle Dynamic Advanced application of Newton’s laws Dynamics of Uniform motion; Equations of motion; Time dependent forces; Effect of drag forces on motion; Non inertial frames and pseudo forces; Non inertial frames and Pseudo forces; Limitations of Newton’s Laws. Work, Energy and Power Work done by a constant force, work done by a variable force (1-dimensions); Work done by a variable (2-dimension) Work energy theorem, General proof of work energy theorem. Power: Reference Frames. Conservation of Energy Conservative, and non conservative forces; One dimensional conservative system; 2,3 dimensional conservative system; Conservation of energy in a system of particles system two practical system. Center of mass of solid object; Momentum changes in system of variable mass. Collisions Inelastic collision conservation of momentum during collision in center of Mass reference frame. Rotational Dynamics Angular momentum; angular velocity; Overview of rotational Dynamics; Parallel axis theorem; Determination of momentum of interstice of various shapes; Rotational dynamics of rigid bodies; combined rotational and transitional motion. Stability of spinning objects, the spinning Top. Gravitation Review of basic concepts of gravitation. Gravitational effect of a spherical mass distribution; Gravitational Potential Energy; Gravitational field & potential; Universal Gravitational Law. Bulk Properties of Matters Elastic Properties of Matter; Fluid Statistics; Fluid Dynamics; Bernoulli Equation; Viscosity. Optic Topic Nature of light; Light as an Electro magnetic wave; Interference; Adding of Electromagnetic wave using phasors; Interference from thin films; Michelson Interferometer; Fresnel Biprism and its use; Diffraction; Diffraction from multiple slits; Diffraction grating; Holography; Polarization; Description of polarization states; Rotation of plane of polarization. Recommended Books: 1. Physics Vol. I & II (extended) by Resnick, Halliday and Karne, 4th and Sons Inc, New
York. 2. Fundamentals of Physics by Halliday Resnick and Krane, John Wiley and Sons Inc,
New York.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 7
3. University Physics 8th Edition by Sears, Zemansky and Young, Addison – Wesley, Reading (MA), USA
4. Physics by Alonso and Finn; Addison-Wesley, Reading (MA) USA.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 8
Code Subject Title Cr. Hrs Semester
PHY‐112 Physics Lab‐I (Mechanics & Optics) 1 I
Year Discipline
1 Chemistry‐II, Mathematics‐I, Statistics‐I 1. Surface tension by capillary rise. 2. Study of compound pendulum and estimate of value of ‘g’ 3. Elastic constants by spiral spring 4. Modulus of rigidity by dynamic method and static method of Maxwell’s Needle. 5. Spring Constant by static and dynamic method. 6. Modulus of rigidity by dynamic method. Recommended Books: 1. Physics Vol. I & II (extended) by Resnick, Halliday and Karne, 4th and Sons Inc, New
York. 2. Fundamentals of Physics by Halliday Resnick and Krane, John Wiley and Sons Inc,
New York. 3. University Physics 8th Edition by Sears, Zemansky and Young, Addison – Wesley,
Reading (MA), USA. 4. Physics by Alonso and Finn; Addison-Wesley, Reading (MA) USA.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 9
Code Subject Title Cr. Hrs Semester
PHY‐113 Physics‐II (Waves & Oscillation) 3 II
Year Discipline
1 Chemistry‐II, Mathematics‐I, Statistics‐I Harmonic Oscillations: Simple harmonic oscillation (SHM); Application of S H M; S H M and uniform circular motion, combinations of Harmonic motion Damped Harmonic Motion. Wave Topic: Mechanical waves; Traveling waves; Waves speed; Waves equation; Power and intensity in wave motion; Principle of superposition. (Basic ideas); Sound Topic: Beats Phenomenon; Doppler Effect. Thermodynamics and Kinetic Theory of Gases: Kinetic theory of the ideal gas, wok done on an ideal gas internal energy of an ideal gas Intermolecular forces. Statistical Mechanics: Statistical, Distribution and Mean values; Distribution of molecular speeds; Brownian motion. Heat: Review of previous concepts; First law of Thermodynamics; Transfer of heat; Entropy and Second law of Thermodynamics: Reversible and irreversible Process, Second Law; Cycle; Carnot engines Thermodynamic temperature scale; Entropy; Joule – Thomson effect Recommended Books: 1. Physics Vol. I & II (extended) by Resnick, Halliday and Karne, 4th and Sons Inc, New
York. 2. Fundamentals of Physics by Halliday Resnick and Krane, John Wiley and Sons Inc,
New York. 3. University Physics 8th Edition by Sears, Zemansky and Young, Addison – Wesley,
Reading (MA), USA. 4. Physics by Alonso and Finn; Addison-Wesley, Reading (MA) USA.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 10
Code Subject Title Cr. Hrs Semester
PHY‐114 Physics Lab‐II (Waves & Oscillation) 1 II
Year Discipline
1 Chemistry‐II, Mathematics‐I, Statistics‐I 1. Thermo-Couple, Thermal e.m.f. and temperature diagram. 2. Determination of ‘J’ Electrical Method (Calendar and Barnes Method) with compensation
for heat loss. 3. Velocity of Sound by Kundt’s tube. 4. Frequency & A.C. mains by Sonometer. 5. Frequency & A.C. mains by Melde’s Approvals 6. Use of sextant and measurement of altitude with it 7. Wavelengths of sodium D lines by Newton’s Rings. 8. Wavelengths of light by Fresnel’s biprism 9. Wavelength of light by diffraction grating 10. Measurement of the Rotation of the Plane of Polarization 11. Resolving Power of diffraction grating 12. Determination of the radius of Lycopodium Particles Recommended Books: 1. Physics Vol. I & II (extended) by Resnick, Halliday and Karne, 4th and Sons Inc, New
York. 2. Fundamentals of Physics by Halliday Resnick and Krane, John Wiley and Sons Inc,
New York. 3. University Physics 8th Edition by Sears, Zemansky and Young, Addison – Wesley,
Reading (MA), USA. 4. Physics by Alonso and Finn; Addison-Wesley, Reading (MA) USA.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 11
Code Subject Title Cr. Hrs Semester
PHY‐121 Mechanics and Wave Motion (IT) 3 I
Year Discipline
1 Information Technology To teach students calculus based general physics by way of learning about the following topics in depth: Measurement and vectors, Motion in one, two and three dimensions, Newton’s laws of motions, Work and energy principles, Laws of conservation of momentum and energy, One- and two-dimensional collisions, Rotational kinematics and dynamics, Conservation of angular momentum, Gravitation, Oscillations and waves. Textbook
1. Resnick, Halliday and Krane, Physics, vol. 1. ISBN: 978-0-471-32057-9 Recommended Book
1. University Physics, vol. 1, by Sears and Zemansky, ISBN-10: 0201603365
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 12
Code Subject Title Cr. Hrs Semester
PHY‐122 Electricity & Magnetism (IT) 3 II
Year Discipline
1 Information Technology The primary objective of the course is to teach student calculus based general physics, particularly basic concepts of thermodynamics, electricity, and magnetism. The following topics will be covered in the course: Temperature, Thermal expansion, Kinetic theory and the ideal gas, Heat and First law of thermodynamics, Entropy and Second law of thermodynamics, Review of Vectors, Electric Charge and Coulomb’s law, Electric field, Gauss’s law, Electric potential, Capacitors and dielectrics, Current and resistance, Ohm’s Law, Simple resistive circuits (series and parallel), Magnetic field, Ampere’s law, Faraday’s law of induction, Lien’s Laws, Ampere’s Law and its applications. Prerequisites Mechanics and Wave Motion (IT) Text Book
1. Halliday, Resnick, and Walker, Fundamentals of Physics Extended, Sixth Edition, ISBN: 978-0-471-32000-5
Recommended Books
1. Sears and Zemansky, University Physics, vol. 1 and 2. ISBN-10: 0201603365
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 13
Code Subject Title Cr. Hrs Semester
PHY‐201 Concepts of Modern Physics 3 III
Year Discipline
2 Physics Quantum physics: Thermal radiation (black body radiation), quantization of energy, The photoelectric effect, Einstein’s photon theory, the Compton effect, line spectra, wave behavior of particles, Testing de Broglie’s hypothesis, waves, waves packets and particles, Heisenberg’s uncertainty principle, Wave function, Schrödinger equation, trapped particles and probability densities, the correspondence principle, dual nature of matter (waves and particles). Atomic physics: The atomic structure of hydrogen, Bohr’s theory, angular momentum of electrons, electron spin, X-ray spectrum, development of periodic table, laser. Nuclear physics: Discovering the nucleus, some nuclear properties, radioactive decay, measuring ionizing radiation, natural radioactivity, nuclear reaction. Energy from the nucleus, nuclear fission, nuclear reactor, thermonuclear fusion, controlled thermonuclear fusion. Solid state physics: Electrons in solids, free electron gas, semiconductors and insulators, semiconductor devices, superconductivity. Books Recommended:
1. Physics Vol. II (extended) by Resnick, Halliday and Krane, 4th Edition, John Wiley and Sons Inc, New York, 1992.
2. Physics Vol.II (extended) by Resnick, Halliday and Krane, 5th Edition, John Wiley and Sons Inc, New York, 2002.
3. Fundamental of Physics by Halliday Resnick and Krane, 5th Edition, John Wiley and Sons Inc, New York, 1999.
4. University Physics 8th Edition by Sears, Zemansky and Young, Addison-Wesley, Reading (MA), USA, 2000.
5. Physics by Alonso and Finn: Addison-Wesley, Reading (MA), USA, 1999. 6. Concepts of Modern Physics by A. Beiser: McGraw-Hill, New York, USA, 1988.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 14
Code Subject Title Cr. Hrs Semester
PHY‐202 General Physics Lab‐I 2 III
Year Discipline
2 Physics 1. The Harmonic Oscillation of Helical springs-parallel and series connection of spring 2. Measuring moments of inertia of different bodies disc-Hollow of Solid cylinder 3. Measurement of the speed of sound in air 4. Coherence & width of spectral lines 5. Diffraction intensity at slit of double slit system 6. Stephen-Boltzmann’s law of Radiation 7. Characteristics curve of a solar cell 8. Magnetic field of paired coils in Helmoltz coils
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 15
Code Subject Title Cr. Hrs Semester
PHY‐203 Basic Electronics 3 IV
Year Discipline
2 Physics Circuit Analysis: Network theorems, AC circuit analysis using the j operator. Semiconductor Devices and Applications: The pn junction diode, Rectifier circuits, Clippers, Clampers, Voltage multipliers. Bipolar Junction Transistor and Its Biasing: Basic transistor configurations, The dc biasing circuits and bias stabilization. Field Effect Transistor and FET DC Biasing: The depletion-mode JFET, The depletion-mode MOSFET, The enhancement-mode FET, The dc biasing circuits and bias stabilization. Bipolar Junction Transistor Models: The rC model, The hybrid equivalent model, Graphical determination of h-parameters, Variation of transistor parameters. BJT Small-Signal Analysis: The CE fixed-bias, self-bias and voltage-divider amplifiers, The emitter follower, The CB amplifier, Complete hybrid equivalent model. FET Small-Signal Analysis: The JFET fixed bias, self-bias, voltage-divider and source-follower amplifiers. Books Recommended:
1. Basic Electronics by B. Grob, 8th Edition, Glencoe-McGraw-Hill, New York, NY (USA), 2002.
2. Introductory Circuit Analysis by Robert L. Boylestad, 6th Edi., Merril Publ. Co. Columbus, Ohio (USA) 1990.
3. Electronic Devices by Thomas L. Floyd: 5th Edition Prentice-Hall Inter. Inc., Englewood Cliffs, (USA), 1999.
4. Electronic Principles by Albert P. Malvino, 5th Edition Glencoe-McGraw-Hill Book Co., New York (USA) 1993.
5. Introductory Electronic Devices and Circuits by Robert T. Paynter, Prentice-Hall Intern. Inc. Upper Saddle River N.Y. USA, 1997
6. Electronic Devices and Circuit Theory by Robert Boylestad and Louis Nashelsky 6th Edition, Prentice-Hall International, Inc., (USA), 1996
7. Electronic Devices and Circuits, by Theodre F. Bogart, Jr. 4th Edition, Prentice-Hall, Upper Saddle River, NJ (USA) 1997.
8. Electronic Circuits and Systems, by J. D. Ryder, Charles M. Thomson, Prentice-Hall Inc. Englewood Cliffs, New Jersey (USA) 1976.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 16
Code Subject Title Cr. Hrs Semester
PHY‐204 General Physics Lab‐II 2 IV
Year Discipline
2 Physics Interference of light Fresnel Biprism Measurement of wavelengths of sodium light, difference of wave lengths and thickness of thin film e.g. mica using Michelson interferometer. The determination of Cauchy’s constants using spectrometer. Determining the modulus of elasticity. Investigating the Fourier transforms: simulation of the Fourier analysis and synthesis. Determining resistances using a Wheatstone bridge.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 17
Code Subject Title Cr. Hrs Semester
PHY‐211 Physics‐III (Electricity & Magnetism) 3 III
Year Discipline
2 Chemistry‐II, Mathematics‐I, Statistics‐I Electrostatics Electric Charge; Conductors and Insulators; Vector form of coulomb’s law. Electric Field Electric field of continuous charged stribution; Point charge in an electric field; Dipole in an electric field. Gauss’s Law; Application of Gauss’s Law (Integral Form). Electric Potential Calculating the field from the potential; Capacitors and dielectrics; Capacitor with dielectric. Electric Current Electric Current; Ohm’s Law; Energy transfer in the electric circuit; Semiconductors; Super conductor. DC Circuits Calculating the current in a single loop, multiple loops; voltages at various elements of a loop; RC circuits. Magnetism Magnetic Field Effects Magnetic field, B. Magnetic force on a charged particle magnetic force on a charged particle magnetic force on a current; Torque on a current loop; Magnetic dipole. Ampere’s Law Biot-Savart Law; Ampere’s Law. Faraday’s Law of Electromagnetic Induction Faraday’s Law; Lenz’s Law; Motional E.M.F. Induced electric fields. Magnetic Properties of Matter Gauss Law for Magnetism; Origin of Atomic and Nuclear magnetization; Magnetic Materials. Inductance Inductance; LR Circuits; Energy stored in magnetic field; Electromagnetic; Oscillation. Alternating Current Circuits Alternating Current; Single loop RLC circuit; Power in a.c. circuits; Transformer. Maxwell’s Equations Summarizing ht electromagnetic equation; Induced magnetic fields & displacement current; Maxwell’s equations. Electromagnetic Waves Generating an electromagnetic wave; Traveling waves and Maxwell’s equation; Energy transport and the Poynting Vector. Electronics Semiconductor materials; Junction diode; Transistor; Transistor, biasing; Transistor as an amplifier; Amplification with feedback; Oscillators; Logic Gates Recommended Books: 1. Physics Vol. I & II (extended) by Resnick, Halliday and Karne, 4th and Sons Inc, New
York. 2. Fundamentals of Physics by Halliday Resnick and Krane, John Wiley and Sons Inc,
New York.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 18
3. University Physics 8th Edition by Sears, Zemansky and Young, Addison – Wesley, Reading (MA), USA.
4. Physics by Alonso and Finn; Addison-Wesley, Reading (MA) USA.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 19
Code Subject Title Cr. Hrs Semester
PHY‐212 Physics Lab‐III (Electricity & Magnetism) 1 III
Year Discipline
2 Chemistry‐II, Mathematics‐I, Statistics‐I 1. Measurement of resistance using a neon flash bulb and condenser 2. I-H Curve by Magnetometer 3. Conversion of a Pointer Galvanometer into a voltmeter 4. Conversion of a Pointer Galvanometer into an ammeter 5. Calibration of a meter and voltmeter by potentiometer 6. Low resistance by Carey Foster bridge 7. Charge sensitivity of a ballistic galvanometer taking into account Logarithmic decrement 8. Comparison of capacities by ballistic galvanometer 9. Determination of temperature coefficient of a resistance 10. Measurement of magnetic field by fluxmeter or by search coil method. 11. Measurement of H by earth inductor. Recommended Books: 1. Physics Vol. I & II (extended) by Resnick, Halliday and Karne, 4th and Sons Inc, New
York. 2. Fundamentals of Physics by Halliday Resnick and Krane, John Wiley and Sons Inc,
New York. 3. University Physics 8th Edition by Sears, Zemansky and Young, Addison – Wesley,
Reading (MA), USA. 4. Physics by Alonso and Finn; Addison-Wesley, Reading (MA) USA.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 20
Code Subject Title Cr. Hrs Semester
PHY‐213 Physics‐IV (Concepts of Modern Physics) 3 IV
Year Discipline
2 Chemistry‐II, Mathematics‐I, Statistics‐I Quantum Physics: Thermal Radiations (Black body radiation); The quantization of Energy; The Photoelectric effect; Einstein’s photon theory; The Compton effect; Line Spectra. Wave Nature of Matter: Wave behavior of particles; Testing De Broglie’s hypothesis; Waves, Wave packets and particles; Heisenberg’s uncertainty principle (HUP); Wave Function; Schrödinger Equation. States and Energy Levels: Trapped Particles and Probability; Densities; The correspondence principles; Dual nature of matter (waves & particles) Atomic and Nuclear Physics Atomic Structure of Hydrogen: Bohr’s Theory; Angular Momentum of Electrons; Electron Spin; X-ray Spectrum; X-Ray & Atomic number; Development of periodic table; Laser. Nuclear Physics: Discovering the nucleus; Some nuclear properties; Radioactive decay; Alpha decay; Beta decay; Measuring ionizing radiation (Units); Natural Radioactive; Nuclear Reactions; Energy from the nucleus; Nuclear fission; Nuclear Reactors; Thermonuclear Fusion (T.N.F.); Controlled Thermonuclear Fusion. Practical Paper: Mechanics, Thermodynamics, Sound, Optics and Electricity or Magnetism: Special theory of Relativity: Trouble with classical Mechanics; Postulates of Relativity; The Lorentz Transformation inverse transformation Consequences of Lorentz transformation; Relativistic momentum; Relativistic energy. Recommended Books: 1. Physics Vol. I & II (extended) by Resnick, Halliday and Karne, 4th and Sons Inc, New
York 2. Fundamentals of Physics by Halliday Resnick and Krane, John Wiley and Sons Inc,
New York. 3. University Physics 8th Edition by Sears, Zemansky and Young, Addison – Wesley,
Reading (MA), USA. 4. Physics by Alonso and Finn; Addison-Wesley, Reading (MA) USA.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 21
Code Subject Title Cr. Hrs Semester
PHY‐214 Physics‐IV (Concepts of Modern Physics) 1 IV
Year Discipline
2 Chemistry‐II, Mathematics‐I, Statistics‐I 1. Variation of photo-electric current with the intensity of light 2. Measurement of Planck’s constant using spectrometer 3. Determination of e.m. of electron by deflection method 4. Determination of ionization potential of mercury 5. Acceptor circuit 6. Rejecter circuit 7. Characteristic curves of G.M. Counter 8. Setting up half and full wave rectifiers and the study of the waveshape on oscilloscope
effect of smoothing circuit on ripple voltage. 9. To set up a transistor as an oscillator and to measure its frequency by an oscilloscope 10. Triode valve as a single stage voltage amplifier and measurement of its gain by an
oscilloscope 11. To draw the characteristics of a semi-conductor diode. 12. Setting up a single stage transistor amplifier and measurement of voltage gain 13. Determination of range of Alpha Particles 14. Stopping power for alpha particles in air equivalent of Mica, Ag, Cu and Al. 15. Absorption coefficient of Beta-particles, using and End-on-Geiger Counter 16. To study the voltage current characteristics of an electric Discharge in gases at low
pressures 17. Production of vacuum and its rought measurement with a monometer 18. Production of X-rays and the demonstration of their effect on a fluorescent screen. 19. To set up a High-Frequency Oscillator and measure its frequency, with a wave meter. Recommended Books: 1. Physics Vol. I & II (extended) by Resnick, Halliday and Karne, 4th and Sons Inc, New
York. 2. Fundamentals of Physics by Halliday Resnick and Krane, John Wiley and Sons Inc,
New York. 3. University Physics 8th Edition by Sears, Zemansky and Young, Addison – Wesley,
Reading (MA), USA. 4. Physics by Alonso and Finn; Addison-Wesley, Reading (MA) USA.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 22
Code Subject Title Cr. Hrs Semester
PHY‐301 Classical Mechanics 3 V
Year Discipline
3 Physics Historical development of classical mechanics, Newtonian mechanics and its limitations, Lagrangian formulation in generalized coordinates, calculus of variation, Hamilton’s principle, Lagrange’s equation, space time symmetries and conservation laws, homogeneity and isotropy, cyclic coordinates, integrals of motion. Central force, two-body central problem, Kepler’s problem, planetary orbits and their equations, perturbation of orbits. Legendre’s transformation, Hamiltonian and Hamilton’s equations of motion, Routhian, configuration space, phase space and state space. Canonical transformations and their properties, canonical transformation of the free particle Hamiltonian, Poisson brackets and their properties, Poisson’s theorems, invariance of Poisson’s brackets under canonical transformations. Books Recommended:
1. Classical Mechanics by H. Goldstein, Addison-Wesley, Reading, 1950. 2. Mechanics by L. D. Landau and E. M. Lifshitz, , Pergamon ,Oxford. 1960. 3. Classical Mechanics by J. W. Leech Methuen and Co. Ltd., London, 1958. 4. Classical Mechanics by V. D. Barger and M. G. Olsson, McGraw-Hill, New York,
1995. 5. Analytical Mechanics by L. N. Hand and J. D. Finch, Cambridge University Press,
Cambridge, 1998.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 23
Code Subject Title Cr. Hrs Semester
PHY‐302 Mathematical Methods of Physics‐I 3 V
Year Discipline
3 Physics Vectors, divergence theorem, Green’s theorem, Stokes’s theorem, curvilinear coordinates, orthogonal curvilinear coordinates, gradient in orthogonal curvilinear coordinates, divergence and curl in orthogonal curvilinear coordinates, Laplacian, spherical polar coordinates. Complex numbers, Euler’s formula, De Moivre’s theorem, elementary functions, analytic functions of complex variables, Cauchy-Riemann equation, harmonic functions, complex integration, Cauchy’s theorem, Cauchy’s integral formula, Taylor and Laurent series, Contour integrals, singularities and residues, residue theorem, poles on the real axis, branch points and integrals of multivalued functions. Tensors, coordinate transformation, rank of a tensor, covariant and contravariant tensors, Tensor algebra, metric tensor, Christoffel symbols, equation of geodesic, Riemann tensor. Books Recommended:
1. Advanced Engineering Mathematics by E. Kreyszig, Wiley, New York, 1999. 2. Mathematical Methods for Physicists by G. B. Arfken and H. J. Weber, A. Press,
New York, 1995. 3. Mathematical Methods for Physics and Engineering by K. F. Riley, M. P. Hobson and
S. J. Bence, ambridge University Press, Cambridge, 1997. 4. Complex Variable by Murray R Spiegel, Schaum’s outlines series, McGraw Hill
1974.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 24
Code Subject Title Cr. Hrs Semester
PHY‐303 Solid State Physics‐I 3 V
Year Discipline
3 Physics Crystal structure, periodic arrays of atoms, fundamental types of lattices, index system for crystal planes, simple crystal structures, direct imaging of atomic structure, non-ideal crystal structures, reciprocal lattice, Diffraction of waves by crystals, scattered wave amplitude, Brillouin zones, Fourier analysis of the basis, quasi crystals, crystal binding and elastic constants, crystals of inert gases, ionic crystals, covalent crystals, metals, hydrogen bonds, analysis of elastic strains, elastic compliance and stiffness constants, elastic waves in cubic crystals. Vibrations of crystals with monatomic basis, two atoms per primitive basis, quantization of elastic waves, phonon momentum, inelastic scattering by phonons, Phonon heat capacity, anharmonic crystal interactions, thermal conductivity, electronic heat capacity. Noncrystalline solids, diffraction pattern, glasses, amorphous ferromagnets and semiconductors Books Recommended:
1. Introduction to Solid State Physics by C. Kittle, 7th Edition, John Wiley & Sons, Inc. 1996.
2. Solid State Physics by Neil W. Ashcroft, N. David Mermin, CBS Publishing Asia Ltd. 1987.
3. Solid State Physics by J. S. Blakemore, Cambridge University Press, 1991.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 25
Code Subject Title Cr. Hrs Semester
PHY‐304 Electronic Devices and Circuits 4 V
Year Discipline
3 Physics BJT and FET Frequency Response: General Frequency Considerations, Low-frequency analysis-Bode Plot, Low-frequency Response in BJT and FET Amplifiers, The Miller effect, High-frequency Response in BJT and FE amplifiers, Multistage Effects. Negative Feedback and Oscillator Circuits: Feedback Concepts, Feedback Types, Practical Feedback Circuits, Oscillator Operation, Phase-shift Oscillator, Colpitts and Hartley Oscillator, Armstrong Oscillator, Wien Bridge Oscillator, Crystal Oscillator. Astable Multivibrator, Monosatble Multivibrator, Bistable Multivibrator, Schmitt-trigger circuit. Power Amplifiers: Class A, Class B and Class C Amplifiers, Class AB Amplifier, Other Power Amplifier Circuits, Power Transistor and Heat Sink. Operational Amplifiers: Differential Amplifier Circuit, Inverting and Non-inverting configuration, frequency response operational amplifier, OPAM Basics, Practical OPAM Circuits, Constant-gain Amplifier, Voltage Summing,Voltage Buffer. Power Supplies: Capacitor Filter, π-Filter, π-R Filter, Discrete Transistor Voltage Regulation, Regulation by Zener Diode. Special Diodes: Varactor, Light Emitting Diode, Zener Diode, Photodiode, Tunnel Diode, Shockley Diode, SCR, Light-activated SCR, Diac, Triac, Unijunction Transistor, LCD. Introduction to Digital Electronics: The Number Systems, combinational and sequential systems, adder circuits and flip-flops. Books Recommended:
1. Electronic Devices by Thomas L. Floyd: 5th Edition Prentice-Hall Inter. Inc., Englewood Cliffs, (USA), 1999.
2. Electronic Principles by Albert P. Malvino, 5th Edition Glencoe-McGraw-Hill Book Co., New York (USA) 1993.
3. Introductory Electronic Devices and Circuits by Robert T. Paynter, Prentice-Hall Intern. Inc. Upper Saddle River N.Y. USA, 1997
4. Electronic Devices and Circuit Theory by Robert Boylestad and Louis Nashelsky 6th Edition, Prentice-Hall International, Inc., (USA), 1996
5. Electronic Devices and Circuits, by Theodre F. Bogart, Jr. 4th Edition, Prentice-Hall, Upper Saddle River, NJ (USA) 1997.
6. Electronic Circuits and Systems, by J. D. Ryder, Charles M. Thomson, Prentice-Hall Inc. Englewood Cliffs, New Jersey (USA) 1976.
7. Digital Technology by Louis Nashesky, John Wiley and Sons, New york (USA), 1983.
8. Digital Fundamentals by Thomas L. Floyd, #rd Ed. Prentice-Hall Intern. Inc., Englewood Cliffs (USA), 1986.
9. Digital Systems by Ronald J.Tocci, Prentice-Hall Intern. Inc., Englewood Cliffs (USA), 1995.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 26
Code Subject Title Cr. Hrs Semester
PHY‐305 Quantum Mechanics‐I 3 V
Year Discipline
3 Physics Quantum Mechanics of One dimensional Problems: Review of concepts of classical mechanics, State of a system, Properties of one dimensional potential functions, Functions and expectation values, Dirac notation and Hermitian operators, Solutions of Schrodinger equations for free particles, The potential carrier problems, The linear harmonic Oscillator. Formalism of Quantum Mechanics: The state of a system, Dynamical variables and operators, Commuting observable, Heisenberg Uncertainty relations, Time evaluation of a system, Schrodinger and Heisenberg pictures, Symmetry principles and conservation laws. Angular Momentum: Orbital angular momentum, Angular momenta, The eigenvalues and eigen functions of L and Lz. Schrodinger Equation in Three Dimensions: Separation of Schrodinger equation in cartesian coordinates, Central potentials, The free particle, three dimensional square well potential, The hydrogenic atom, Three dimensional square well potential, The hydrogenic atom. Books Recommended:
1. Introductory Quantum Mechanic by B.H. Bransden & C.J. Joachain, Longman Scientific & Technical London, 1990.
2. A Modern Approach to Quantum Mechanics by J.S. Townsend, McGraw Hill Book Company, Singapore, 1992.
3. An Introduction Quantum Mechanics by W.Greiner, Addison Wesley Publishing Company, Reading Massachusetts, 1980.
4. Introductory Quantum Mechanics by R.L. Liboff, Addison Wesley Publishing Company, Reading Massachusetts, 1980.
5. Theory of Quanta by Bialynicki-Birula, M. Cieplak & J.Kaminski, Oxford University Press, New York, 1992.
6. Relativistic Quantum Mechanics by W.Greiner, Springer Veriag, Berlin, 1990. 7. Quantum Mechanics by F. Schwable, Narosa Publishing House, New Delhi, 1992.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 27
Code Subject Title Cr. Hrs Semester
PHY‐306 Physics Lab‐III (Modern Physics) 4 V
Year Discipline
3 Physics 1. Determining the specific Heat of Solids 2. To determine the characteristic of G. M. tube and measure the range and maximum
energy of β particles. 3. Characteristics of G.M. counter and study of fluctuations in random process. 4. Determining velocity of viscous fluids using a falling-ball viscometer. 5. Determining the specific heats of solids. 6. Measuring magnetic field of (i) a straight conductor and (ii) a pair of coils in the
Helmholtz configuration.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 28
Code Subject Title Cr. Hrs Semester
PHY‐307 Mathematical Methods of Physics‐II 3 VI
Year Discipline
3 Physics Special functions, Hermite polynomial, Legendre and associate Legendre polynomial, Laguerre polynomial, Bessel function, Neumann function, Hankel function, Modified and spherical Bessel function, Gamma function, error function. Fourier series, cosine and sine series, change of interval, Fourier integral, complex form of Fourier series, Fourier transform, Fourier transform of derivatives, convolution theorem, Laplace transform, Laplace transform of derivatives, applications of Fourier and Laplace transforms. Boundary value problem in physics, boundary value problems and series solution, the Sturn-Liouville problem, non-homogeneous boundary value problem and Green’s function, Green’s function for one-dimensional problem, eigenfunction expansion of Green’s function, Green’s function in higher dimensions, Green’s function for Poisson’s equation, quantum mechanical scattering problem. Book Recommended:
1. Advanced Engineering Mathematics by E. Kreyszig, Wiley, New York, 1999. 2. Mathematical Methods for Physicists by G. B. Arfken and H. J. Weber, A Press, New
York, 1995. 3. Mathematical Methods for Physics and Engineering by K. F. Riley, M. P. Hobson and
S. J. Bence, Cambridge University Press, 1997.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 29
Code Subject Title Cr. Hrs Semester
PHY‐308 Solid State Physics‐II 3 VI
Year Discipline
3 Physics Energy levels in one dimension, effect of temperature on the Fermi-Dirac distribution, free electron gas in three dimensions, heat capacity of the electron gas, experimental electrical resistivity of metals, umklapp scattering, motion in magnetic fields, Hall effect, thermal conductivity of metals, ratio of thermal to electrical conductivity, nanostructures. Nearly free electron model, origin of the energy gap, magnitude of the energy gap, Bloch functions, wave equation of an electron in a periodic potential, crystal momentum of an electron, solution of the central equation, empty lattice approximation, approximate solution near a zone boundary, number of orbital in a band, metals and insulators. Band gap, equation of motion, effective mass, physical interpretation of the effective mass, effective masses in semiconductors, silicon and germanium, intrinsic carrier concentration, intrinsic mobility, impurity conductivity, donor states, acceptor states, thermal ionization of donors and acceptors, thermoelectric effects, semimetals, superlattices. Books Recommended:
1. Solid State Physics by Blakemore: Cambridge University Press, 1991. 2. Solid State Physics by Neil W. Ashcroft and David Mermin: CBS Publ. Co. 1987. 3. Introduction to Solid State Physics by C. Kittle 7th Edition: John Wiley and Sons Inc.
1996.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 30
Code Subject Title Cr. Hrs Semester
PHY‐309 Quantum Mechanics‐II 3 VI
Year Discipline
3 Physics Matrix Mechanics: Linear vector space, orthogonal systems, linear transformations, matrices, change of basis, Hilbert space, Dirac Notation, matrix representation, diagonalization, examples. Identical Particles and Second Quantization: Indistinguishability of identical particles, Systems of identical particles, Quantum dynamics of identical particle systems. Angular momenta and spin 1/2 boson operators, Approximate Methods: Time independent perturbation theory for non degenerate levels, The variational method, The WKB approximation, Time dependent perturbation theory. The Theory of Scattering: Scattering experiments and cross sections, Potential scattering, The method of partial waves, The Bom approximation. Books Recommended:
1. Introductory Quantum Mechanic by B.H. Bransden & C.J. Joachain, Longman Scientific & Technical London, 1990.
2. A Modern Approach to Quantum Mechanics by J.S. Townsend, McGraw Hill Book Company, Singapore, 1992.
3. An Introduction Quantum Mechanics by W.Greiner, Addison Wesley Publishing Company, Reading Massachusetts, 1980.
4. Introductory Quantum Mechanics by R.L. Liboff, Addison Wesley Publishing Company, Reading Massachusetts, 1980.
5. Theory of Quanta by Bialynicki-Birula, M. Cieplak & J.Kaminski, Oxford University Press, New York, 1992.
6. Relativistic Quantum Mechanics by W.Greiner, Springer Veriag, Berlin, 1990. 7. Quantum Mechanics by F. Schwable, Narosa Publishing House, New Delhi, 1992.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 31
Code Subject Title Cr. Hrs Semester
PHY‐310 Digital Electronics 3 VI
Year Discipline
3 Physics Number Systems: Binary, octal, hexadecimal number system, conversion of different systems, Digital codes. Implementations of Logic Functions by Logic Gates: Boolean algebra, logic gates and their application in logic design, Karnaugh maps and its use in some design problems, code converter logic design. Analog to Digital Conversion: Digital to analog conversion, converter Specifications. Synchronous Logic: Sequential logic, Flip Flops; R-S, T, D, Master-Slave J-K Flip Flop, basic binary ripple counter, modulus counters, parallel and up-down counter application as digital time (clock), arithmetic functions, shift registers, semi-conductor memory, programmable logic devices, (GAL, PAL). Digital Computer: Concept of computer system Books Recommended:
1. Introduction to Digital Computer Technology by Mashelsky (Wiley), 2. Pulse Digital and Switching Wave forms by Millman and Taub (McGraw-Hill) 3. Electronic and Radio Engineering by F.E. Terman McGraw-Hill.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 32
Code Subject Title Cr. Hrs Semester
PHY‐311 Computational Physics‐I 3 VI
Year Discipline
3 Physics Physics problems solving using Numerical methods, Euler-Newton method for solving differential equations, the trapezoidal rule for numerical quadrature and applications of random number, brownian motion, solution of integral equations, linear algebra, solution of linear algebraic equations, sorting and curve fitting. Programming techniques in practical applications to advanced Physics problems. Introduction to simulation techniques and computer graphics, use of computation and computer graphics to simulate the behavior of complex Physical systems, computational techniques in investigating and visualizing fundamental physics, scientific packages, introduction to Scientific work bench for problem solving in electronics. Books Recommended:
1. Computational Physics by J.M. Thijssen, CUP (1999). 2. Computational Methods in Physic, Chemistry and Biology by P.Harrison, John Willey
and Sons (2001). 3. A First Course in Computational Physics by Paul L. Devries, John Willey and Sons.
N.Y. (1994). 4. Computational Physics by Henry J. Gardner, World Scientific, Singapore (1997). 5. Numerical Recipes: The Art of Scientific Computing by William H. Press, Brian P.
Flannery, Saul A. Teukolsky, and William T. Vetterling Cambridge University Press, (1988).
6. Mathematica for Physics: Robert L. Zimmerman Addison Wesley Publishing Company, 1994.
BS (4 Years) for Affiliated Colleges
Center for Undergraduate Studies, University of the Punjab 33
Code Subject Title Cr. Hrs Semester
PHY‐312 Physics Lab‐IV (Electronics) 4 VI
Year Discipline
3 Physics The students will have to perform at least EIGHT experiments from the list given below: 1. Design a full-wave rectifier and study its output without and with a capacitor filter. 2. Design a full-wave rectifier and study its output with a π-filter. 3. Design a regulated power supply using Zener diode and study its regulation. 4. Design clipper and clamping circuits and study the output waveshapes. 5. Design circuits for logic gates (NOT, OR, NOR, AND, NAND, XOR) using discrete
components. 6. Design differentiator and integrator circuits and study output waveshapes. 7. Design a CE amplifier and study its frequency response. Determine its low- and upper-
limit frequencies and also the bandwidth. 8. Design an emitter amplifier and determine its input and output impedance. 9. Design an RC phase-shift oscillator and determine its frequency by Lissajous figures. 10. Design an astable multivibrator and determine its frequency. 11. Design a transformer-coupled class A power amplifier and determine its ac power
delivered to the load and percent efficiency.
Code PHY-401
Ye4
Course O
Classical microsystensemble,Quantum Fermi-Dirtheorem, edegree ofEinstein c
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Code PHY-40
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Course O
Basic Proquadrupol
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Books Re
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Years) for
3 ear D4 P
Outlines:
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.H. Smith, PerWesley, 19801980. 1980.
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Cr. 3
magnetic dipol
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s Oxford, 196
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le moment, el
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Code PHY-40
Ye4
Course O
Special Rpostulatestensors, thlength conForce equ
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1. D2. In3. In
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4 ear D4 P
Outlines:
Relativity, Gs of special rhe light-conentraction, twi
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Subject TIVITY AND
tivity, conceorentz transfont, four-vectovelocity transass, kinetic an
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general relat
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Hrs Sem3 V
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time, anics,
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Code PHY-40
Ye4
Course O
Interactionmechanismship, EneCompton Productio
Radiothertherapy, Bassurance
Medical Ivolume eDoppler imaging (
Books Re
1. Intr2. Thw3. Diag
1994. Rad5. Fun6. Rad7. Pres8. Phy
Years) for
5 ear D4 P
Outlines:
ns of lonisinm of energy l
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on classificatio
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Imaging: Diaffect, Artifaceffect, RadioMRI), Contra
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diologic Scienndamentals ofdiation Detectss Health Phyysics of Medic
Affiliated
MEDICADiscipline Physics
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d:
Health Physicsherapy Physicging, by Pete
nce of Technof Radiation Dtion and Measysics by Dathcal Imaging, b
d Colleges
Subject AL PHYSIC
n with Matton and excitat
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development source thera
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ys, Productioagents in conaging, positrMRI.
s by Herman cs by sssJ.R. Wer Armstrong
logists by Steosimetry, by Jsurement, by ren, Pergamoby Edwin G.A
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of radiotheraapy, Requirem
n of X-rays, nventional ra
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tion; Beta-ratrahlung, Alpn, interaction integration,
apy, Radiothements for ac
Absorption oadiography ann tomography
Ed. McGraw H,OxfordUnivL. 4th Ed., B
hong , 5th Ed. ng, 2nd Ed. Ad
nd Ed. Willey,
mann, 1988.
Cr. 3
ays, range-enha-rays, RangmechanismsCombined
erapeutic aimccuracy and
of x-ray to otnd CT, Diagy (PET), M
Hill, New Yorersity Press, NBlackwell Sci
Mosby, 1993dam Hilger Ltd
New York, 1
Hrs Sem3 V
nergy relationg-energy relas, Pair produeffect, Neu
ms, External precision, Q
ther planes, Pnostic Ultrasagnetic reson
rk, 1996. New York, 19ience Ltd. Ox
. d., Bristol 19980.
mester VII
nship, tion –
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beam uality
Partial sound, nance
993. xford,
85.
BS (4 Y
Code PHY-40
Ye4
Course O
Students anuclear mare availa
1. X-ray2. Electr3. Gamm4. Mamm5. VarioThe stude
Years) for
6 ear D4 P
Outlines:
are required tmedicine and mable. The list
y Machine ro Cardiograpma Camera mography Ma
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Affiliated
MEDICADiscipline Physics
to study the fmedical physiof these mach
ph
achine used in Radioalso to learn
d Colleges
Subject AL PHYSIC
functioning anics. The studehines is as un
otherapy handling of r
Title CS-II (LAB)
nd data analyents have to wnder:
radioactive m
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material in diff
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BS (4 Y
Code PHY-40
Ye4
Course O
Particle C
The FundSymmetry(2), systetheorem.
The Electangular m
Books Re
1. N2. In
(13. C
(14. In5. N6. A
(17. Q
Years) for
7 ear D4 P
Outlines:
Classification:
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Nuclear and Pntroduction to1994).
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Nuclear and P Modern Intr
1992) Quarks and Le
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Quantum nu
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article Physic
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d Colleges
Subject PARTICLE P
umbers, lepton
electromagnnservation Laws, parity, isos
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cs by Burchamd Particle Phy
cs by Gottfrie
Particles by Gcs by William
Particle Physi
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Title PHYSICS-I
ns, hadrons, b
netic couplingws: Translatispin charge
and Maxwellhoton.
m, E. E. and Jysics by Das,
d, K. and We
Griffiths, D., ms, W.S.C., Oics by Fayyaz
artin A.D., W
baryons, meso
g, the strong cion in space, rconjugation,
l’s equations,
Jobes, M., LoA. and Ferbe
eisskopt, F., V
John Wiley aOxford Univerzudding and R
Wiley, (1984).
Cr. 3
ons, quarks.
coupling, the wrotation in sptime reversa
, polarization
ongman, (199el, T., Johan W
Vol. 1, Oxford
and Sons, (19rsity Press, (1Riazuddin, W
Hrs Sem3 V
weak couplingpace, the groual, G parity,
n and photon
95). Wiley and Son
d University P
87). 995). orld Scientifi
mester VII
g. up SU
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spin,
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BS (4 Y
Code PHY-40
Ye4
Course O
The Kleinnotation, relativisticapproach.
The Diracadjoint eqrelations,
Books Re
1. RelatvEditio
2. Quark3. Quan4. Introd
Years) for
8 ear D4 P
Outlines:
n-Gordan Eqthe Klein Goc perturbation
c Equation: Cquation, free bilinear cova
ecommended
vistic Quantuon reprinted inks and Leptontum Mechaniduction to Ele
Affiliated
PADiscipline Physics
quation: Nonordon equation theory (brie
Covariant formparticle spin
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d Colleges
Subject ARTICLE P
n relativistic on, the Feynef review), ru
m of the Diranors, anti pa
mass fermion,
s by Bjorken,
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Title PHYSICS-II
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ac Equation, articles, norm the two-com
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Hrs Sem3 V
ance and 4 v< 0 solutionseynman-Stuke
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1964) Internat
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vector s, non elberg
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BS (4 Y
Code PHY-40
Ye4
Course O
Amplitudassignable
AM translow level
AM radiocircuits: Ischematic
Frequencyfrequencystereo FM
Televisionreceiver F
Books Re
1. Electr2. Electr3. Essen
Found4. Introd
Wiley5. Electr6. Introd
1988.7. Digita
York,8. Persp9. Digita10. Digita
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Years) for
9 COear D4 P
Outlines:
e modulatione frequency s
mitters: Circumodulation.
o receivers anIF Amplifier
cs, loudspeake
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M, FM receive
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Affiliated
MMUNICADiscipline Physics
n principles:pectrum, ban
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n Principles:(Phase Modu
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principles, dor TV receive
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unication by Kmentals by Thmunication Eleabad, 1991. near Electrica
1988. s Handbook bectronic Desig
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d Colleges
Subject TION ELEC
: Modulationnd selection.
vel modulation
ers: Superhetectors, automeo.
Modulated ulation), carri
deflection syers.
Kennedy Geohomas L. Floyectronics by M
al Circuits an
by Michael Togn by F. H. M
ions by A. P.
by U.R. Rao,rangio, Prentic
By Malvino A
Duncan, Oxfo
Title CTRONICS-
n, AM, FM
n, double mo
terodyne recematic gain co
wave, FM ier phase in th
ystems, video
rge, McGrawyd, 2nd. Ed., MM. Slurzberg
nd Electronics
ooley, BPB PMitchell Jr. an
Malvino and
, Pub. World ce Hall, Lond. P. and Brow
ordUniversity
I (THEORY
M, pulse mod
odulation, AM
eiver, double ontrol, audio
radio frequehe frequency-
o camera tub
w Hill, 1992. Maxwell-Macand W. Oster
s by M. C. Ke
Publications, Nnd Mitchell Sr
D. P. Leach,
Scientific, 19don, Latest Edwn J.A., McGr
y Press.
Cr. Y) 3
dulation, pow
M with pulse
conversion ro amplifiers,
ncy band, d-modulated w
bes, video pi
cmillan, Newrfield, Nation
elly and B. Ni
New Delhi, 19r., Prentice H
4th Ed., McG
987. dition raw Hill Scho
Hrs Sem3 V
wer relation
width modul
receivers, recsquelch, rec
direct and inwave,FM dete
icture, signal
w York, 1991.nal Book
ichols, John
994. all, London
Graw Hill, Ne
ool Publishing
mester VII
ships,
lation,
ceiver ceiver
ndirect ectors,
l, TV
n,
ew
g
BS (4 Y
Code PHY-41
Ye4
Course O
1. DesigInstruhalf –
2. Desig3. Desig
receiv4. Circu5. Desig
Years) for
0 Cear D4 P
Outlines:
gn and studumentation am–wave rectifiegn sinusoidal gn RF transistver (both for Auit study and fgn and constru
Affiliated
COMMUNICDiscipline Physics
dy the applmplifier, buffer etc.). oscillators antor oscillator,AM & FM). fault finding ouct an analog
d Colleges
Subject CATION ELE
ication of fer, voltage c
nd function ge, Convert it i
of audio-oscilto digital and
Title ECTRONIC
operational lamp, integra
enerators. into a transmi
llator/ commed digital to an
CS-II (LAB)
amplifier (cator, different
itter. detect th
ercial radio annalog converte
Cr. 3
current to vtiator, low an
he transmitte
nd T.V. ers using IC’s
Hrs Sem3 V
voltage convnd high pass
ed wave by a
s.
mester VII
verter, filter,
radio
BS (4 Y
Code PHY-41
Ye4
Course O
Operationamplifier,response o
CombinatArithmeti
Sequentia
Register conversio
Memory PLD, PLA
Control Lmicroproc
CPU addrmanipulatprocessing
Books Re
1. In2. P3. M4. M5. E6. In7. M8. C
Years) for
1 ear D4 P
Outlines:
nal amplifiers, offset error aof operationa
tional Digitalic circuits, De
al Logic; Flip-
and Counteron and digital
and programA and PAL.
Logic Designcessor unit.
ressing modestion instructiog.
ecommended
ntroduction toPulse Digital aMicrowave PrMicrowave MeElectronic andntegrated Elec
MicroprocessoComputer Eng
Affiliated
ADVANCEDiscipline Physics
s: Ideal operand voltages/
al amplifiers.
l Circuits andecoders/Encod
-flops, latches
rs; Shift regito analog con
mmable logic:
n: Microopera
s: Address fieons, program
d:
o Digital Comand Switchinginciples, by Reasurements bd Radio Enginctronics by Mors (principlesgineering, Har
d Colleges
Subject ED ELECTR
rational ampl/currents, ope
d Systems: Oder and multi
s, JK, T and D
isters, ripple nversion, conv
ROM and R
ations, shifte
eld and modesinterrupt. Inp
mputer Technog Wave formsReich-Skalmikby Gingston.neering by F.EMillman and H
s and applicardware desig
Title ONICS-I (TH
ifier, differenerational ampl
Overview of plexers.
D flip-flops, M
and Synchrversion errors
RAM, memor
er unit, micri
s, stack organput-output inte
ology by Mass by Millman k-Ordung-Kr
E. Terman MHalkias. ation) 2ndEddign by M. Morr
HEORY)
ntial amplifielifier paramet
number syst
Master-slave
ronous binars.
ry decoding,
iprogrammed
nization, data erface, design
shelsky (Wileand Taub (M
ranss.
McGraw-Hill.
ition by Gilmris Mano, Pre
Cr. 3
er, emitter coters and appli
tem, digital c
flip-flops.
ry counters,
error detecti
d control, AL
transfer instrn of a CPU, p
ey), McGraw-Hill)
ore, (1996). entice Hall (19
Hrs Sem3 V
oupled differications, frequ
codes and cir
Analog to d
on and corre
LU and contr
ructions, data pipeline
988)
mester VII
rential uency
rcuits,
digital
ection,
rol of
BS (4 Y
Code PHY-41
Ye4
Course O
1. Desigoutpu
2. Desigreceiv
3. Desigopera
4. DesigInstruhalf –
5. DesigRS, JK
6. Desig
Years) for
2 ear D4 P
Outlines:
gn of a UJT reut. gn RF transistver (both for Agn an invertinational amplifign and studumentation am–wave rectifiegn a fixed andK (Master sla
gn and study o
Affiliated
ADVANCEDDiscipline Physics
elaxation osci
tor oscillator,AM & FM). ng and non-ifier. dy the applmplifier, buffer etc.). d self bias traave), T and Dof a half and f
d Colleges
Subject D ELECTRO
illator of a var
, Convert it i
investing D.C
ication of fer, voltage c
nsistor binary flip-flops. full adder wit
Title ONICS-II (L
riable frequen
into a transmi
C. amplifier,
operational lamp, integra
y and triggeri
th different Bo
LAB)
ncy, measure
itter. detect th
measuremen
amplifier (cator, different
ing of binary,
oolean expres
Cr. 3
frequency an
he transmitte
nt of paramet
current to vtiator, low an
, using IC’s c
ssion using IC
Hrs Sem3 V
nd amplitude
ed wave by a
ters of a give
voltage convnd high pass
construct and
C’s.
mester VII
of the
radio
en IC
verter, filter,
study
BS (4 Y
Code PHY-41
Ye4
Course O
Introductimetallic mBonding, and prope
CrystallogMetallic CIndices foHexagonaLinear De
Non-MetaElectronic
Books Re
1. Intro2. Mate
19993. Princ
York4. Mate
Years) for
3 ear D4 P
Outlines:
ion to materiamaterials); SeVan der Waa
erties such as
graphy or cryCrystal Struc
for Crystallogal Unit Cellsensity Unit Ce
allic Materialc Materials.
ecommended
oduction to Pherials Science9. ciples of Matk, 1999. erial Science &
Affiliated
MATERDiscipline Physics
als; propertieselection of Mals Bonding, density, stabi
ystal structurectures, Atom graphic Plane, Comparisonell Calculatio
s: Composite
d:
hysical Metale and Engine
terials Scienc
& Metallurgy
d Colleges
Subject RIALS SCIEN
s of the materMaterials; Bon
Secondary Boility, melting
e; The SpacePosition in Ces in Cubic n of FCC, Hns, Polymorp
e Materials, C
lurgy by S.H.ering and Int
ce and Engin
y by O.P. Kha
Title NCE-I (THE
rials; Types onds in Solid; onding, & Mpoint, stiffne
of Lattice, CCubic Unit C
Unit Cells, HCP, and BCphism or Allo
Ceramic Mate
.Avner, McGtroduction by
neering by W
anna, Dhanpa
EORY)
of Materials (Ionic Bondinix bonding, Ess and electri
Crystal systemCells, Directio
CrystallograCC Crystal sttropy, Crysta
rials, Polyme
Graw-Hill Booy W.D. Clust
W.F. Smith, M
atRai& Sons D
Cr. 3
(i) metallic mng, Covalent Effect of Bondcal properties
ms and Brassons in Cubic aphic Planes tructures, Vo
al Structure A
eric Materials
ok Comp. Newer, John Wile
McGraw-Hill
Delhi, 1994.
Hrs Sem3 VII
materials & (ii)Bonding, Med type on strus.
s Lattice, PrinUnit cells, Mand directio
olume, Planarnalysis.
, Semi-condu
w York, 1999ey & Sons (U
Book Comp,
mester
) Non etallic ucture
ncipal Miller ons in r, and
uctor /
9. USA),
New
BS (4 Y
Code PHY-41
Ye4
Course O
Note: The
Classifica
To cla
a. M
b. F
c. F
1. St2. St3. St4. St5. Ta. Vb. Bc. R6. St7. T8. T9. T10. T
te11. T12. T13. T
an14. T15. T16. T17. T18. T
Years) for
4 ear D4 P
Outlines:
e students are
ation of Mater
assify the giv
Metals and allo
errous and No
errous and No
tudy of furnatudy/understatudy/understatudy the micr
To determine tVicker’s HardnBrinell HardneRockwell Hard
tudy the relatTo study the MTo perform meTo determine hTo perform theemperature.
To fabricate ceTo determine tTo study the tnalysis.(for re
To determine tTo calculate mTo determine tTo determine tTo determine t
Affiliated
MATEDiscipline Physics
required to d
rials,
en specimen
oys
on-Ferrous m
on-Ferrous al
ce (Heat-Treaanding and wanding and wrostructure of the hardness oness testing Mess Testing Mdness Testingtionship of Vi
Mechanical Prechanical testheat deflectioermogravimer
eramic materithe thermal shthermal changefractory spalthe % age los
moisture contethe %age watthe loss in ignthe porosity a
d Colleges
Subject ERIALS SCI
do at least ten
of materials i
metals
lloys
atment Furnaorking of a Morking of a M
f a given metaof a given meMachine.
Machine g Machine. icker’s, Brineroperties of a ting of polyethon temperaturertric analysis
ial by slip cashock resistancges occurringlling index). s of moisture
ents in the givter absorptionnition in the gand density of
Title IENCE-II (LA
experiments
into Metallic
ce) and a therMetallurgical MMetallurgical Mals/alloys. etallic materia
ell and Rockwgiven samplehene. e of given samof given poly
sting techniquce of the giveg in the given
of the given ven sample ofn in the given given sample of a given refra
AB)
from the foll
materials and
rmocouple pyMicroscope.Microscope.
al by
well hardness e.
mple of polymymeric materi
ue. en material. n clays on he
clay. f ceramics masample of refof clay. actory materia
Cr. 3
owing list:
d non-metallic
yrometer.
of given mate
mer (Acrylic)ials & determ
eating with d
aterial. fractory mater
al.
Hrs Sem3 V
c materials
erial.
. mine decompo
differential th
rial.
mester VII
osition
hermal
BS (4 Y
Code PHY-41
Ye4
Course O
Nature anand bondsbiologicalcells; Othbiomateri
Books Re1. R2. B3. M4. B5. B
Years) for
5 ear D4 P
Outlines:
nd scope of bs; Energy tranl systems; Fuher biotranspals.
ecommended:Radiation BiopBiophysics—AMolecular BiopBiophysics by Biophysical Th
Affiliated
BIODiscipline Physics
iophysics; Mnsfer and tranundamental cport processe
: physics by L.An Introductiophysics: StruGlaser Rowla
hermodynami
d Colleges
Subject OPHYSICS-I
Molecular Strunsformation inoncepts of thes; Long and
Alpen Edwaron. John Wileyctures in Motand (2001). Sics by T. Hayn
Title I (THEORY
ucture of Bioln photosynthehermodynamid short dista
rd, Academic y and Son, (2tion, OxfordU
Springer Verlanie Donald, C
Y)
logical Systemesis and bioloics, aqueous aance transpor
Press, (1988)2002). University Preag, Berlin. Cambridge, U
Cr. 3
ms; Chemicalogical membrand ionic equrts; Viscoele
).
ess UK, (1999
University Pre
Hrs Sem3 V
l binding, eneranes; Dynamuilibrium of lestic properti
9).
ess UK, (2001
mester VII
ergies mics of
living ies of
1).
BS (4 Y
Code PHY-41
Ye4
Course O
The stude
1. Study2. Study3. Study4. Monit
Years) for
6 ear D4 P
Outlines:
ents are requir
y of transport y of membrany of germinatitoring studies
Affiliated
BIOPDiscipline Physics
red to perform
processes in pne potential anion and growts of body tem
d Colleges
Subject PHYSICS-II
m the followin
plants nd redox th biology ma
mperature in or
Title I (LAB)
ng experimen
agnetized andrganisms und
nts:
d irradiated seder stress
Cr. 3
eeds
Hrs Sem3 V
mester VII
BS (4 Y
Code PHY-41
Ye4
Course O
Synoptic elements, Atmosphepotential tmoist air,most air,diagram, a
Methods reduction,(Speci&M
Books Re
1. H2. A
193. St
204. M5. C6. D
197. Tr
198. Th9. Th
C10. A11. Ap12. Es13. A
Years) for
7 METEear D4 P
Outlines:
MeteorologyAir mass cla
eric thermodtemperature, thermodynamClausius-Clapanalysis of te
of Surface O, reading, s
Metar)
ecommended
Hand Book Of tmospheric C999. tatistical Ana001.
Meteorology byClimatology byDynamical & P
957. Tropical Mete
981. The AtmospherThe Status of CCentre, 1st Edi
tmospheric Ppplied Clima
Essentials of Mtmospheric S
Affiliated
EOROLOGYDiscipline Physics
y: Compositiossification, T
dynamics, FirThe second lmic propertiepeyron’squatphigram.
Observations &setting & m
d:
f Applied MeteChemistry & G
alysis In Clim
by Moran Mory OlixerHidorPhysical Met
eorology by C
re by FrederiClimate Variaition, 2004.
Physics by J.Vtology by Rus
Meteorology bScience by Joh
d Colleges
Subject Y AND CLIM
on & structurThermodynamrst law of thaw of thermo
es of the wateion,Aerologic
& Codes: Remaintenance
eorology by HGlobal Chang
ate Research
rgan (Publishre (Publisherteorology by H
Carlson (Pub
ick K. Lutgensation In Pakis
V.Irinarne (Pussell D. Thomby C. Donald hn M. Wallace
Title MATOLOGY
re of atmospmic characteris
hermodynamiodynamics, ener substance, cal diagrams
eading of rouof thermom
Hougton (Pubge by Guy. P
by Hans Von
her: Ma cMillr: Merrill), 1sHaltiner& Ma
blisher: The P
s (Publisher: stan & Its Imp
ublisher: D.Rempson (Publis
Ahrens (Puble (Publisher:
Y-I (THEOR
phere, ICAO stics, Generalics and enthntropy, thermphase transit
s, selection o
utine observateters, surfac
blisher: WileyP. Brasseur (P
nstorch (Publ
lion), 3rd Edist Edition, 198
Martin (Publish
Pennsylvania
Prentice Halpact by SMR
eidel Pub. Coher: Routledglisher: BrookAcademic Pr
Cr. RY) 3
standard atml Circulation. halpy, adiaba
modynamics oftion of water,of coord
tions, baromece codes, A
y), 1st EditionPublisher: Ox
lisher: Cambr
ition, 1991. 84. her: McGraw
State Univer
ll), InternatioRC.No.10 SAA
o.), 1st Editionge), 1st Editioks/Calc), 3rd Eress), 1st Edit
Hrs Sem3 V
mosphere, We
atic processesf water vapou, water vapoudinates, choi
etric correctioAeronautical
n, 1985. xford), 1st Ed
ridge), 1st Ed
w Hill), 1st Ed
rsity), 1st Ed
nal Edition, 1ARC Met. Res
n, 1980. on, 1997. Edition, 2001tion, 1997.
mester VII
eather
s and ur and ur and ce of
ons & codes
dition,
dition,
dition,
dition,
1998. search
1.
BS (4 Y
Code PHY-41
Ye4
Course O
The stude
1. Mean2. Upper3. Analy4. Recor
Years) for
8 MEear D4 P
Outlines:
ents are requir
n Sea Level Sur air map anaysis of polar &rding of obser
Affiliated
ETEOROLODiscipline Physics
red to do the f
urface Map Alysis, streaml
& geostationarvations, wind
d Colleges
Subject GY AND CL
following exp
Analysis, frontline-isotach anary satellite imd-vane, anem
Title LIMATOLO
periments:
tal analysis.nalysis.
mages. mometer, anem
OGY-II (LAB
mograph, hyet
Cr. B) 3
tograph.
Hrs Sem3 V
mester VII
BS (4 Y
Code PHY-41
Ye4
Course O
Introducti
The One-E
Effect of model (NFNFE, The
Methods omethod, thElectron Ithe HF eq
Books Re
1. SolidS2. Introd3. Eleme4. Quan5. Princ
Years) for
9 ear D4 P
Outlines:
ion: The solid
Electron App
Non-UniformFE) in one-di
e Bloch electr
of Calculatinghe concept ofInteractions: Tquation, probl
ecommended
State Physics duction to Solentary SolidStum Theory ofiples of the T
Affiliated
SODiscipline Physics
d state problem
proximation: F
m Crystal Potimension, theron, the conce
g Energy Banf pseudopotenThe self-consems.
d:
byAshcroft &lidState Physi
State Physics bof the SolidStaTheory of Solid
d Colleges
Subject OLID STATE
m, the Born-O
Free electron
ential: The B concept of en
ept of effectiv
nd Structures:ntials, sistent calcula
&Mermin, (19ics, 7thEdditioby M. A. Omatebyj. Callawds byJ. M. Zi
Title E PHYSICS-I
Oppenheimer
gas model (F
Bloch wave, thnergy band st
ve mass.
The LCAO m
ations, the Ha
976). on,by C. Kittl
mar, (1975). way, (1991).man, (1969).
I
approximatio
FEG), applica
he reciprocal tructure, the F
method, the A
artree-Fock eq
le, (1996).
Cr. 3
on.
ations of FEG
lattice, the nFermi surface
APW method,
quation, plan
Hrs Sem3 V
, failure of FE
nearly free elee, Fermi veloc
, the OPW
e-wave soluti
mester VII
EG.
ectron city in
ion of
BS (4 Y
Code PHY-42
Ye4
Course O
Optical Pcollisionlemolecular(EHD), Rsolid, sum
Supercond
Experimefields, MtheoreticaBCS theoof persisttunneling,temperatu
Dielectricfield, E1, constant aclassificatphase tranpiezoelect
Books Re1. Solid2. Intro3. Elem4. Qua5. Prin
Years) for
1 ear D4 P
Outlines:
rocesses and ess electron r crystals, wea
Raman effect mmary.
ductivity:
ental survey, eissner effec
al survey, therry of superco
tent currents, , Dc Joseph
ure supercond
cs and Ferroellocal electric
and polarizabtion of ferroensition, secontricity, ferroe
ecommendeddState Physicoduction to Smentary Solidantum Theorynciples of the
Affiliated
SOLDiscipline Physics
Excitons: Opgas, electron
akly bound (Min crystals, e
occurrence oct, heat capacrmodynamicsonductivity, B
type II supehson effect, ductors, critica
lectrics: Maxwc field at an bility, electroelectric crystand-order translasticity, opti
d: cs byAshcroft SolidState PhydState Physicsy of the SolidS
Theory of So
d Colleges
Subject LID STATE
ptical reflectan interband tMott-Wannieelectron spec
of supercondcity, energy s of the supercBCS ground sterconductors,
Ac Josephsal fields and c
well equationatom, Loren
onic polarizabals, displacivesition, first-orical ceramics,
&Mermin, (1ysics, 7th Edits by M. A. OmStatebyj. Callalids byJ. M. Z
Title PHYSICS-I
ance, Kramertransitions, er) excitons, e
ctroscopy wit
ductivity, desgap, microwconducting trtate, flux quaVortex stat,
son effect, Mcritical curren
ns, polarizatiotz field, E2, bility, structue transitions, rder transition summary.
1976). tion,by C. Kitmar, (1975). away, (1991).Ziman, (1969)
II
r-Kronig relatexcitations, Fxciton condenth X-rays, en
struction of swave and infrransition, Lonantization in a, estimation oMacroscopic
nts, Hall numb
on, macroscopfield of dipo
ural phase trasoft optical
n, antiferroel
ttle, (1996).
. ).
Cr. 3
tions, exampFrenkelexcitonnsation into e
nergy loss of
superconductrared propertndon equationa superconducof Hc1 and H
quantum inber, fullerene
pic electric files inside caansitions, ferrphonons, Lanectricity, ferr
Hrs Sem3 V
le, conductivns Alkali haelectron-hole
fast particles
tivity by magties isotope en coherence lecting ring, durHc2, Single panterference,
es, summary,
ield, depolarizvity, E3, dielroelectric cryndau theory oroelectric dom
mester VII
vity of alides, drops s in a
gnetic effect, ength, ration article high-
zation lectric ystals, of the mains,
BS (4 Y
Code PHY-42
Ye4
Course O
SimulatiodimensionNumerica
Laplace trand extraGeneratio
Books Re
1. C2. C
(23. A4. C5. N
S6. M
Years) for
2 ear D4 P
Outlines:
n techniques-nal, programmal solutions to
ransformationapolation, Spon and Monte
ecommended
ComputationalComputational2001). First Course
ComputationalNumerical Rec
aul A. TeukoMathematica f
Affiliated
COMPUDiscipline Physics
-II , Physics pming techniquo Schrodinger
n, Solution ofecial FunctioCarlo Integra
d:
l Physics by Jl Methods in
e in Computatl Physics by Hcipes: The Alsky, and Wil
for Physics: R
d Colleges
Subject UTATIONAL
problem solviues in quantu
r’s equations
f Linear Algeons, Differenation, Fourier
J.M. ThijssenPhysic, Che
tional PhysicsHenry J. GardArt of Scientiflliam T. Vette
Robert L. Zim
Title L PHYSICS-
ing, Motion oum mechanic, Numerical i
ebraic Equatintiation and Ir Transform S
n, CUP (1999)mistry and B
s by Paul L. Ddner, World Sific Computinerling Cambri
mmerman Add
-II
of falling objes, statistical mintegration an
ons, Sorting Integration o
Spectral Meth
). Biology byP.H
Devries, JohnScientific, Sinng by Williamidge Universi
dison Wesley
Cr. 3
ects, Motion imechanics annd Monte Car
and Curve fitof functions, hods
Harrison, John
n Willey and Sngapore (1997m H. Press, Bity Press, (19Publishing C
Hrs Sem3 VI
in single and nd nuclear phrlo Methods.
tting, InterpoRandom Nu
n Willey and
Sons. N.Y. (17). Brian P. Flan88).
Company, 199
mester III
multi hysics,
lation umber
d Sons
994).
nnery,
94.
BS (4 Y
Code PHY-42
Ye4
Course O
Maxwell’retarded splane wasuperpositelectromainternal rtransform
Plasma Phmagnetic
Lasers: Bpower anresonatorsrate laser,thresh-hol
Books Re
1. C2. E3. E4. In
Years) for
3 ear D4 P
Outlines:
s Equations scalar and veaves in a ction of wav
agnetic wavesreflection, ref
mation laws of
hysics: Introdmirrors, the h
Black body rad efficiency, s, giant pulse, ruby laser, gld current of d
ecommended
Classical ElecElectricity andElectromagnetntroduction to
Affiliated
CLASSICALDiscipline Physics
and their Aector potentiaconducting aves in one s at a plane inflection fromf electromagn
duction, electrhydromagneti
adiation, Induoptical reson
e techniques ogas laser, semdiode lasers,
d:
trodynamics bd Magnetism btism by I.S. Go Electrodyna
d Colleges
Subject L ELECTRO
Applications: als, radiation and non-cond
dimension, nterface betwe
m a conductinetic fields, th
rical neutralityic equations, p
uced emissionnators, fluctuoscillators-ammi-conductor applications o
by Jackson, Wby W. J. Duff
Grant and W. Ramics by D. G
Title ODYNAMIC
Green’s funfrom an osciducting med
boundary een dielectricng medium, e field of a un
y in a plasmapinch effect,
n and the gaiuation in lasermplifier lasers
diode laser, of lasers.
Wiley, 1975.fin, McGraw-R. Phillips W
Griffiths Prent
CS-II
nction for timillating dipole
dia, linear aconditions,
cs, waves polcovariant fo
niformly mov
a, particle orbiplasma oscill
in coefficientrs, solid state, power and etheory of p.n
-Hill, 1990. Wiley, 1990.
tice Hall, 198
Cr. 3
me dependene, plane elect
and circular reflection a
arization by rormulation ofving and accel
its and drift mlations and wa
t, oscillationse lasers, opticenergy supplin. junction la
89.
Hrs Sem3 VI
nt wave equtromagnetic wpolarization,
and refractioreflection andf electrodynalerated electro
motion in a plave motion.
s, output coucal coupling,ies, high repeser, efficienc
mester III
uation, wave, , and on of d total amics, on.
asma,
upling, laser
etition y and
BS (4 Y
Code PHY-42
Ye4
Course O
Nuclear Mlaws of nprotons, dfrom nucltheory, reNeutron Preactor asnuclear fineutrons r
Thermonunitrogen &
Books Re
1. N2. A3. N4. In5. C
Years) for
4 ear D4 P
Outlines:
Models: Liqunuclear reactdeutrons and lear reactionssonances, BrePhysics: Neuts a neutron sission, descripreleased, theo
uclear Reacti& oxygen cyc
ecommended
Nuclei and par Text Book of
Nuclear Physicntroductory N
Concepts of M
Affiliated
NUCDiscipline Physics
uid drop modtions, Q-valualpha particle
s, compound eit-Wigner fotron sources, source, slow ption of fissi
ory of fission
ons: Fusion acle, controlled
d:
rticles by E. Sf Nuclear Phycs by I. Kapla
Nuclear PhysiModern Physic
d Colleges
Subject CLEAR PHY
del, shell moe of nucleares, excited stnucleus theor
ormula, directradioactive sneutron dete
ion reaction, and spontane
and thermonud nuclear fusio
Serge, 1980. ysics by C.M.an, Addison-Wics by Krane, cs by Beiser, 1
Title YSICS-II
del, collectivr reaction, thates of nucleury of nucleart reactions. sources, photectors, fast ne
mass distribueous fission.
uclear proceson, D-D & D
.H. Smith, PerWesley, 19801980. 1980.
ve model. Nuhreshold enerus, energy lev
r reactions, lim
to neutron soueutron detectution of fissi
ss, energy rele-T reactions.
rgamon Press0.
Cr. 3
uclear Reactirgy, transmutvels, level wimitations of c
urces, chargetors, slowing ion energy, a
eased in nucl
s Oxford, 196
Hrs Sem3 VI
ions: Conservtation by phoidth, Cross secompound nu
ed particle soudown of neu
average numb
lear fusion, c
66.
mester III
vation otons, ection ucleus
urces, utron, ber of
arbon
BS (4 Y
Code PHY-42
Ye4
Course O
RadiationAbsorbedExposure Absorbedcalibration
Methods Dosimetry
Health PMaximizeexposure,pregnancyinhaled rregulation
Books Re
1. Intro2. Thwa3. Diag
19984. Radio5. Fund6. Radia7. Heal8. Phys
Years) for
5 ear D4 P
Outlines:
n Dosimetry: d Dose, Abso
measuremend dose in othens, The Bragg
of Dosimetryy (TLD), Pho
hysics : Care shielding, T whole-bodyy , Basic radradioactivity, ns.
ecommended
oduction to Heaits, Radiothegnostic Imagi8. ologic Sciencdamentals of ation Detectiolth Physics byics of Medica
Affiliated
MEDDiscipline Physics
History of Aorbed Dose Cnt with calibrer Materials, Fg-Gray Cavity
y: Calorimeteotographic Do
rdinal princiTime, Distancey non-occupadiation safety
derived air
d:
ealth Physics erapy Physicsing, by Peter
ce of Technolof Radiation Doon and Measu
y Dathren, Peral Imaging, by
d Colleges
Subject DICAL PHY
Absorbed DoCalorimeters, rated cavity Factors convey theory.
ers, lonisationosimeter, Scin
iples of radie and shieldinational expocriteria, effe
r concentrati
by Herman Cs by sssJ.R. Wr Armstrong
ogists by Stewosimetry, by Jurement, by Krgamon Pressy Edwin G.A
Title YSICS-III
ose, StochastiExposure anchamber. Therting Exposu
n Chambers, ntillation Dete
iation protecng, Maximumsure, partial
ective dose-eqion, Gastroin
Cember. 3rdEdWilliams, D.I ,
and Martin L
wart C. BushoJ. R. GreeningKnol G.F., 2nd
s. .Aird, Heinem
ic and Non-snd its measurhe concept ofure to Absorb
chemical Doectors, Other
ction, Minimm permissible
bodyoccupaquivalent, allntestinal trac
d. McGraw H,OxfordUniveL. 4th Ed., B
ong , 5th Ed. Mg, 2nd Ed. Adad Ed. Willey,
mann, 1988.
Cr. 3
stochastic qurements, Thef Kerma,absobed Dose to w
osimetry, ThDosimetric S
mize time, Mdose, whole-
ational expowable limit ct, Basis of
Hill, New Yorersity Press, N
Blackwell Sci
Mosby, 1993.am Hilger LtdNew York, 1
Hrs Sem3 VI
uantities, Uni free-air cha
orbed Dose iwake, High e
hermoluminesystems.
Maximize dist-body occupaosure, X-rayon intake (A
f radiation s
rk, 1996. New York, 19ence Ltd. Ox
d., Bristol 1981980.
mester III
ts for mber, in air, nergy
cence
tance, ational y and ALI) , safety
993. xford,
85.
BS (4 Y
Code PHY-42
Ye4
Course O
Students anuclear mare availa
1. X-ray2. Electr3. Gamm4. Mamm5. VarioThe stude
Years) for
6 ear D4 P
Outlines:
are required tmedicine and mable. The list
y Machine ro Cardiograpma Camera mography Ma
ous Machines ents will have
Affiliated
MEDDiscipline Physics
to study the fmedical physiof these mach
ph
achine used in Radioalso to learn
d Colleges
Subject DICAL PHYS
functioning anics. The studehines is as un
otherapy handling of r
Title SICS-IV (LA
nd data analyents have to wnder:
radioactive m
AB)
ysis obtained work in some
material in diff
Cr. 3
from varioushospitals whe
ferent hospita
Hrs Sem3 VI
s machines usere these mac
als.
mester III
sed in chines
BS (4 Y
Code PHY-42
Ye4
Course O
Hadron SpWigner re
The Quarspectrosco
The StandGlashow-
Books Re
1. Nucle2. Intro
(19943. Conc
(19864. Intro5. Nucle6. A Mo7. Quar
Years) for
7 ear D4 P
Outlines:
pectroscopy: esonance form
rk Model: Thopy, the quark
dard Model (Salam-Weinb
ecommended
ear and Partiduction to N4). cepts of Parti6). duction of eleear and Partiodern Introdurks and Lepto
Affiliated
PADiscipline Physics
Formation exmula, baryon r
he group SU konium mode
(qualitative trberg Model.
d:
icle Physics bNuclear and P
icle Physics b
ementary Paricle Physics buction to Partons by Halzen
d Colleges
Subject ARTICLE PH
xperiments, presonances, p
(3), quarks, hel.
reatment only
by Burcham, EParticle Phys
by Gottfried,
rticles by Grifby Williams, Wicle Physics b
n F and Martin
Title HYSICS-III
partial wave fphase space co
hadrons (bary
y): Unificatio
E. E. and Jobesics by Das,
, K. and Wei
ffiths, D., JohW.S.C., Oxfoby Fayyazuddn A.D., Wiley
formalism andonsiderations
yons, mesons
on of weak an
es, M., LongmA. and Ferb
isskopt, F., V
hn Wiley and ordUniversity ding and Riazy, (1984).
Cr. 3
d the optical t, production e
s in quark mo
nd electroma
man, (1995). bel, T., Johan
Vol. 1, Oxfor
Sons, (1987)Press, (1995
zuddin, World
Hrs Sem3 VI
theorem, the Bexperiments.
odel, heave m
agnetic interac
n Wiley and
rdUniversity P
. ).
d Scientific, (
mester III
Breit-
meson
ctions
Sons,
Press,
1992)
BS (4 Y
Code PHY-42
Ye4
Course O
Electrodymuon sca“spinless”invariant v
Electrodyscatteringscattering, e -μ- vectors, mreal and vfor propag
Books Re
1. RelaInter
2. Quar3. Quan4. Intro
Years) for
8 ear D4 P
Outlines:
ynamics of spattering, the c” electron – variables, the
ynamics of Spg e - e - e -
g and the proce -μ- in the
more on propvirtual photongators, Eeynm
ecommended
tivistic Quanrnational Editrks and Leptontum Mechanoduction to El
Affiliated
PADiscipline Physics
inless particlecross section
electron scae origin of the
pin ½ Particle- e -, the pro
cess e + e - μ+μlaboratory fr
pagators, the ns, Compton man rules QED
d:
ntum Mechaion reprinted
ons by Halzennics by Riazudlementary Pa
d Colleges
Subject ARTICLE PH
es: An “electrin terms of thttering, elect
e propagator.
es: An electrcess e -μ- μ-, helicity corame; kinemaelectron propscattering γe D.
nics by Bjoin (1995).
n, F. and Martddin and Fayyrticles by Gri
Title HYSICS-IV
ron” in an elehe invariant tron – positro
on interactinge -μ-, trace thnservation at
atics relevant pagator, the p
- γ e -, pair
orken, J. D.
tin, A.D., Johyazuddin, Woiffiths, D., Joh
ectromagneticamplitude Mon scattering
g with an eleheorems and high energieto the parto
photon propagr annihilation
and Drell,
hn-Wiley and orld Scientifichn-Wiley and
Cr. 3
c field Aμ ,”sp, the decay r
g: and applic
ectromagneticproperties o
es, survey of eon model, phogator, massiv
n e+ e- γγ, th
S. D., McG
Sons (1984).c, (1990). d Sons, (1987
Hrs Sem3 VI
pinless” electate in terms
cation of cro
c field Aμ , Mof γ matrices,e + e - e + e -
otons, polarizve vector parthe + is prescri
Graw-Hill, (
).
mester III
tron – of M, ssing,
Moller e -μ-
-, μ+μ- zation ticles, iption
1964)
BS (4 Y
Code PHY-42
Ye4
Course O
Satellite Corbits, mcommunic
Optical cotechnique
Digital Csource cowireless c
Communiremote se
Books Re
1. Elect2. Elect3. Esse
Foun4. Intro
Wile5. Elect6. Intro
19887. Digit
York8. Persp9. Digit10. Digit
Com11. Elect
Years) for
9 COMMear D4 P
Outlines:
Communicatimodulation ancation.
ommunicationes
Communicatiooding, data ccommunicatio
ication princinsing from sp
ecommended
tronic Commtronic Fundantial of Comndation, Islamoduction to Ley, New Yorktronic Circuit
oduction to E8. tal Principlesk, 1986. pectives in cotal Electronictal Computer
mpany, 1993. tronics for To
Affiliated
MUNICATIODiscipline Physics
on: Basic connd multiplex
n: Introductio
on: Spectral acompression ton system.
iples in earthpace, environ
d:
unication by mentals by Tmmunication mabad, 1991. Linear Electrik, 1988. ts Handbook
Electronic Des
s and Applica
ommunicationcs By C. E. Str Electronics
oday by Tom
d Colleges
Subject ON ELECTR
ncept, earth sxing, packet
on of Optical
analysis and techniques, d
h observationment and agr
Kennedy Geohomas L. FloElectronics
ical Circuits
by Michael Tsign by F. H.
ations by A. P
n by U.R. Raotrangio, PrentBy Malvino
Duncan, Oxf
Title ONICS-III (
station to earttiser and de
Fibers, Optic
filtering thedigital radio,
n: Remote sericultural appl
orge, McGrawoyd, 2nd. Ed.,
by M. Slur
and Electro
Tooley, BPB P Mitchell Jr.
P. Malvino an
o, Pub. Worldtice Hall, LonA. P. and Br
fordUniversity
(THEORY)
th station viaepacketises,
cal sources an
ory, communspectrum co
ensing, sensolications.
w Hill, 1992. Maxwell-Marzberg and W
nics by M. C
Publications, and Mitchell
nd D. P. Leac
d Scientific, 1ndon, Latest Erown J.A., M
y Press.
Cr. 3
a satellite, serspecial prob
nd detection o
nication chanommunication
ors for optica
acmillan, NewW. Osterfield
C. Kelly and
New Delhi, 1l Sr., Prentice
ch, 4th Ed., M
987. Edition McGraw Hill
Hrs Sem3 VI
rvice requiremblems in sa
optical modu
nnels, entropyn systems, m
al remote sen
w York, 1991d, National
d B. Nichols,
1994. e Hall, Lo
McGraw Hill,
School Publi
mester III
ments, atellite
ulation
y and mobile
nsing,
. Book
John
ondon,
, New
ishing
BS (4 Y
Code PHY-43
Ye4
Course O
1. Desigoutpu
2. To cologic
3. Desig4. Desig5. Desig6. Using
the in
Years) for
0 COMear D4 P
Outlines:
gn and study ut waveforms.onstruct and uoperations.
gn and construgn and constrign and constrig microprocesnformation fro
Affiliated
MMUNICATDiscipline Physics
of decoder, e. understand an
uct active filteicta infrared ticta ultrasonicssor based traom host perso
d Colleges
Subject TION ELEC
encoder, mult
n operation o
ers and study ransmitter dec transmitter aainer’s and stonal computer
Title CTRONICS-I
tiplexer and d
of arithmetic
their frequenetected the traand receiver. tudy the micrr.
IV (LAB)
demultiplexer
logic unit an
ncy response. ansmitted wav
rove and opti
Cr. 3
r circuits and
nd study of d
ve.
ical communi
Hrs Sem3 VI
compare the
different arith
ication and co
mester III
input
hmetic
ontrol
BS (4 Y
Code PHY-43
Ye4
Course O
ElectronicMESFET and the ba
Radio comwave and
ModulatioVestigial transmitte
Microwav(klystron,system.
Books Re
1. Intro2. Puls3. Micr4. Micr5. Elec6. Integ7. Micr8. Com
Years) for
1 ADVear D4 P
Outlines:
c Devices (opand MODFE
asic sweep cir
mmunication:space waves
on and DeteSideband an
er and superhe
ves: Microwa magnetron, t
ecommended
oduction to De Digital androwave Princrowave Measutronic and Ragrated Electroroprocessors
mputer Engine
Affiliated
VANCED ELDiscipline Physics
peration and cET and Hot-Ercuit, circuit t
: Production a, formation o
ction: AM and Single Setrodyne rece
ave spectrum atraveling wav
d:
Digital Compud Switching Wiples, by Reicurements by Gadio Engineeronics by Mill(principles an
eering, Hardw
d Colleges
Subject LECTRONI
characteristicsElectron devito generate tri
andpropagatiof Ionospheric
and FM modideband Mo
eiver.
and radar banve oscillator),
uter TechnologWave forms bych-Skalmik-OGingston. ring by F.E. Tlman and Halknd applicatio
ware design b
Title CS-III (THE
s): Tunnel anices. LED, Giggered sweep
on of radio wc layer and the
dulation, bandulation, Ph
nds, propertiegunn oscillat
gy by Mashely Millman andOrdung-Krans
Terman McGkias.
on) 2ndEdditioby M. Morris M
EORY)
nd IMPATT dGunn, and Lap.
waves, direct weir variations,
ndwidth of Fase-locked L
s of microwator, measurem
lsky (Wiley),d Taub (McGss.
Graw-Hill.
n by GilmoreMano, Prenti
Cr. 3
diodes, Quantaser diodes, p
waves, ground, skip distance
FM signal, ALoop, Digital
ves, productiment of micro
Graw-Hill)
e, (1996). ce Hall (1988
Hrs Sem3 VI
tum-effect dephotodetector,
d reflected, sue.
Angle Modull Communic
on of microwwave power,
8)
mester III
vices, , UJT
urface
lation, cation,
wave radar
BS (4 Y
Code PHY-43
Ye4
Course O
1. Synch2. Frequ3. Circu
multim4. Desig5. Desig
outpu6. To co
logic 7. To co
proce8. Using
comp
Years) for
2 ear D4 P
Outlines:
hronous and auency counteruit study and fmeter/comme
gn and construgn and study ut waveforms.onstruct and uoperations.
onstruct and sss of fetching
g microprocesuter.
Affiliated
ADVANCDiscipline Physics
asynchronousr and optionalfault finding oercial radio anuct an analog of decoder, e. understand an
study of data g an instructiossor trainer’s
d Colleges
Subject CED ELECT
s BCD countel digital clockof stabilized pnd T.V. to digital and
encoder, mult
n operation o
storage and ron and its ope
and study of
Title RONICS-IV
ers, Memory sk. power supply,
d digital to antiplexer and d
of arithmetic
etrieval usingerand with ALf microproces
V (LAB)
shift register w
, Audio-oscill
nalog convertedemultiplexer
logic unit an
g semiconducLU. ssor applicati
Cr. 3
with IC’s.
lator/ CRO,
ers using IC’sr circuits and
nd study of d
ctor memory a
ion working f
Hrs Sem3 VI
s. compare the
different arith
and understan
from host per
mester III
input
hmetic
nd the
rsonal
BS (4 Y
Code PHY-43
Ye4
Course O
Constituti
EquilibriuSystems, Systems, Compoun
Corrosion
Books Re
1. In2. M
(U3. P
Y4. M
Years) for
3 ear D4 P
Outlines:
ion of alloys:
um phase diaBinary EutecBinary Mono
nds, Introducti
n: Definition,
ecommended
ntroduction toMaterials ScieUSA), 1999.
Principles of MYork, 1999. Material Scien
Affiliated
MATERIDiscipline Physics
Metallic Soli
agrams; Iron-Ictic Alloy Syotectic Systemion to Ternary
Types, its det
d:
o Physical Meence and En
Materials Scie
nce & Metallu
d Colleges
Subject IALS SCIEN
id Solutions,
Iron Carbide stems, Noneq
ms, Invariant y Phase Diag
termination a
etallurgy by Sngineering an
ence and Eng
urgy by O.P. K
Title NCE-III (THE
Solid Solubil
diagram, Gibquilibrium SoReactions, Ph
grams.
and protection
S.H. Avner, Mnd Introducti
gineering by W
Khanna, Dhan
EORY)
lity, Phase Dia
bbs Phase Ruolidification ohase Diagram
n.
McGraw-Hill ion by W.D.
W.F. Smith, M
npatRai& Son
Cr. 3
agrams of Pu
ule, Binary Iof alloys, Bin
ms with Interm
Book Comp. Cluster, Joh
McGraw-Hill
ns Delhi, 199
Hrs Sem3 VI
ure Substances
somorphousnary Eutectic mediate Phase
New York, 1hn Wiley &
Book Comp,
94.
mester III
s.
Alloy Alloy
es and
1999. Sons
, New
BS (4 Y
Code PHY-43
Ye4
Course O
Note: The
1. To fin2. To pr3. To fab4. To de5. To de6. To de
SiO27. To me8. To de9. To stu10. To stu11. To me12. To de13. To de14. Deter15. Deter16. Deter17. To ap
Years) for
4 ear D4 P
Outlines:
e students are
nd out the corotect metals fbricate fiber-g
etermine and cetermine the petermine the 2 easure the gre
etermine the vudy the proceudy the proceeasure the the
etermine the thetermine the crmine the %agrmine the greermine the greepply the raw g
Affiliated
MATERDiscipline Physics
required to d
rrosion rate offrom corrosioglass reinforccompare the splasticity of theffect on pla
een strength oviscosity of a ess of enameliess of glazing.ermal conduchermal expan
crushing strenge linear shrinen compressioen compressioglaze and frit g
d Colleges
Subject RIALS SCIEN
do at least ten
f given specimon – electroplaced compositespecific heatshe given of clasticity of the
of the given cgiven sampleing. . tivity of the g
nsion coefficiength of the givnkage in the gon strength ofon strength ofglaze on a cer
Title NCE-IV (LA
experiments
men by loss inating &coloure material by s of metallic aay.
e given samp
eramic substae of glass by p
given sample ent of the givven material.given sample f sample of clf sample of clramics body.
AB)
from the foll
n weight methring using hand-la
and non-metal
ple of clay by
ance. penetrating m
of refractory ven sample.
of clay. lay. lay with the a
Cr. 3
owing list:
hod.
ay-up techniqllic materials
y adding (non
method.
material.
addition of im
Hrs Sem3 VI
que. .
n plastic) imp
mpurity.
mester III
purity
BS (4 Y
Code PHY-43
Ye4
Course O
The biomenvironmand othebiomechaevolution
Books Re
1. Radia2. Bioph3. Molec4. Bioph5. Bioph
Years) for
5 ear D4 P
Outlines:
mechanics of ent; Biophyser organismanics; Model
and neural pr
ecommended
ation Biophyshysics—An Incular Biophyshysics by Glashysical Therm
Affiliated
BIOPHYDiscipline Physics
human bodyics of hearins; Ionizing ls approacherocess.
d:
ics by L.Alpetroduction. Josics: Structurser Rowland (
modynamics b
d Colleges
Subject YSICS-III (T
y, blood circng, ifra and u
radiations; s for propa
en Edward, Aohn Wiley an
res in Motion,(2001). Spriny T. Haynie D
Title THEORY)
culation, swimultrasounds; B
Radiobiologagation, ecolo
Academic Presnd Son, (2002
OxfordUnivnger Verlag, BDonald, Camb
mming and fBiomagnetismgical reactioogical intera
ss, (1988). ). ersity Press U
Berlin. bridge, Unive
Cr. 3
flying; Physim: Magnetic eons; Vision, actions, grow
UK, (1999).
ersity Press U
Hrs Sem3 VI
ical factors oeffects on hu
biosensing wth, differnc
UK, (2001).
mester III
of the umans
and ciation
BS (4 Y
Code PHY-43
Ye4
Course O
The stude
1. Deter2. Ion up3. Study4. Study
Years) for
6 ear D4 P
Outlines:
ents are requir
rmination of optake and bal
y of biosensiny of threshold
Affiliated
BIOPHYDiscipline Physics
red to perform
osmotic potenance of charg
ng and bioindiof hearing, E
d Colleges
Subject YSICS-IV (L
m the followin
ntial, pressurege measuremeication ECG and bloo
Title LAB)
ng experimen
e potential andents
od pressure m
nts:
d water poten
monitoring in h
Cr. 3
ntial in plants
humans
Hrs Sem3 VI
mester III
BS (4 Y
Code PHY-43
Ye4
Course O
Dynamic
Meteorolorainfall &visibility radiosond
Climatoloof Asia; c
Climate c
Tropical variationseasterly wcyclones.Aassociatiovertical w
Books Re
1. Hand2. Atmo
19993. Statis
20014. Mete5. Clim6. Dyna
19577. Trop8. The A9. The
Cent10. Atmo11. Appl12. Esse13. Atmo
Years) for
7 MEear D4 P
Outlines:
Meteorology
ogical Instrum& snowfall m
measuremende equipment.
ogy: Climatic climates of the
hange: Meteo
Meteorologys of meteorowaves; intertroAviation Met
on with synopwind shear, Jet
ecommended
d Book Of Appospheric Che9. stical Analys
1. eorology by M
matology by Oamical & Phy7. pical MeteoroAtmosphere bStatus of Climtre, 1st Editionospheric Physlied Climatolontials of Meteospheric Scien
Affiliated
TEOROLOGDiscipline Physics
y: Circulation
ments: Meteomeasurement,
t, sunshine m
elements; prie sub-contine
orological fac
y: Tropical Llogical elemopical converteorology: mptic patterns, tstream forma
d:
pplied Meteoremistry & Gl
sis In Climate
Moran MorganOlixerHidore (hysical Meteo
logy by Carlsby Frederick Kmate Variation, 2004. sics by J.V.Iriogy by Russeleorology by Cnce by John M
d Colleges
Subject GY AND CL
&vorticity, S
orological inswind measu
measurement.
inciples of clint; the climat
ctors affecting
Launch Interents in the trgence zone.
meteorologicalaircraft icing
ation & struct
rology by Houlobal Change
e Research b
n (Publisher: (Publisher: Morology by H
son (PublisheK. Lutgens (Pon In Pakista
inarne (Publisll D. ThompsC. Donald AhM. Wallace (P
Title LIMATOLO
Stokes theorem
truments useurement, clou. introduction
imate classifite of Pakistan
g climate; gre
rnet Exploretropics, a suMonsoons, Tl aspects of fg, turbulence,ture.
ugton (Publishe by Guy. P.
by Hans Von
Ma cMillionMerrill), 1st EdHaltiner& Mar
r: The PennsyPublisher: Prean& Its Impa
sher: D.Reideson (Publisherhrens (PublishPublisher: Ac
GY-III
m, Vorticity e
d in thermomud measuremn to weather
cation; worldn.
enhouse gase
er Browser.lnurvey of low-Tropical cycloflight plannin, fog, thunde
her: Wiley), 1 Brasseur (P
nstorch (Publi
), 3rd Editiondition, 1984.rtin (Publishe
ylvaniaStateUentice Hall), Iact by SMRC
el Pub. Co.), 1r: Routledge)
her: Brooks/Ccademic Press
Cr. 3
equation, Ros
metry, baroment, evaporatradar system
d climate class
es; El-Nino, L
nkgeneral cir-latitude weaones, structureng, Aviation rstorms, dust
1st Edition, 1Publisher: Ox
isher: Cambr
n, 1991.
er: McGraw
University), 1nternational E
C.No.10 SAAR
1st Edition, 1, 1st Edition,
Calc), 3rd Edits), 1st Edition
Hrs Sem3 VI
sby waves.
etry, hygromtion measure
ms, introducti
sification; clim
La-Nina.
rculation, Dather disturbae and formatihazards and
t storms, low
985. xford), 1st Ed
ridge), 1st Ed
Hill), 1st Ed
st Edition, 19Edition, 1998RC Met. Res
980. 1997.
tion, 2001. n, 1997.
mester III
metery, ement, ion to
mates
iurnal ances; ion of
d their w-level
dition,
dition,
dition,
981. 8. search
BS (4 Y
Code PHY-43
Ye4
Course O
The stude
1. T2. A
pr3. Je4. In
Years) for
8 METear D4 P
Outlines:
ents are requir
Tephigram anaAtmospheric (
ressure. etstream analynterpretation o
Affiliated
TEOROLOGDiscipline Physics
red to do the f
alysis. (barometric &
ysis. of weather ra
d Colleges
Subject GY AND CL
following exp
& aneroid) p
dar rainfall &
Title LIMATOLOG
periments:
pressure, conv
& cloud analys
GY-IV (LAB
version of st
sis.
Cr. B) 3
tation level t
Hrs Sem3 VI
to mean sea
mester III
level
BS (4 Y
Code PHY-43
Ye4
Course O
Phonons: interactionionic crys
Optical Pdependentfield, inter
Transporttime, cond
Solids in in free eleHaas van
Books Re
1. Solid2. Intro3. Elem4. Quan5. Princ
Years) for
9 ear D4 P
Outlines:
Classical, En, renormalizstals, the polar
roperties: Mat dielectric craction of con
t Phenomenonductivity equa
External Magectrons, spin HAlphan effec
ecommended
dState Physicsoduction to Somentary SolidSntum Theory ociples of the T
Affiliated
SOLDiscipline Physics
instein and Dzation of the ron.
acroscopic deconstants, optnduction elec
n: Semiclassication.
gnetic Fields:Hamiltonian,
ct, the quantum
d:
s byAshcroft olidState PhysState Physics of the SolidStTheory of Soli
d Colleges
Subject LID STATE P
Debye modeleffective elec
escription andtical propertitrons.
cal model of
Free electronthe Hubbard
m Hall effect.
&Mermin, (1sics, 7thEdditiby M. A. Om
tatebyj. Callawids byJ. M. Z
Title PHYSICS-II
ls for specificctron mass, s
d microscopicies of semi-c
for conductio
n approximatd model, Pauli.
1976). ion,by C. Kittmar, (1975). way, (1991).iman, (1969)
II
c heat, Hamicreening of t
c model, mirconductors, q
on of metals,
tion in magnei paramegneti
tle, (1996).
.
Cr. 3
iltonian of ththe electron-p
rco-scopic thequantization o
Boltzmann e
etic field, Lanism of conduc
Hrs Sem3 VI
he electron-phphonon intera
eory of frequof electromag
quation, relax
ndau diamagnction electron
mester III
honon action,
uency-gnetic
xation
netism ns, De
BS (4 Y
Code PHY-44
Ye4
Course O
Ferromagtemperatumagnons,ferromagnorder, susanisotropyhysteresismagnetic
Magnetic hyperfine ferromagnelectron pthree-leve
Books Re
1. Solid2. Introd3. Elem4. Quan5. Princ
Years) for
0 ear D4 P
Outlines:
gnetism and Aure dependen quantizationnetic order, cusceptibility by energy, tras, single dombubble doma
Resonance: Nsplitting, ex
netic resonanparamagneticel maser, ruby
ecommended
dState Physicsduction to Soentary SolidS
ntum Theory ociples of the T
Affiliated
SOLDiscipline Physics
Antiferromagnce of the san of spin waurie temperatelow the Neansition regimain particle
ains, summary
Nuclear magnxamples: parance, shape efc resonance, y laser, summ
d:
s byAshcroft &lidState Phys
State Physics of the SolidStaTheory of Soli
d Colleges
Subject LID STATE P
gnetism: Ferroaturation maaves, thermature and suscel temperaturion between es, geomagny.
netic resonanamagnetic poffects in FMexchange na
mary.
&Mermin, (1sics, 7th Editioby M. A. Omatebyj. Callawds byJ. M. Zi
Title PHYSICS-IV
omagnetic oragnetization, al excitation eptibility of fre, antiferromdomains, so
netism and b
nce, equationsoint defects, k
MR, spin wavarrowing, zer
976). on, by C. Kittl
mar, (1975). way, (1991).iman, (1969).
V
rder, curie posaturation mof magnons
ferrimagnets, magnetic magolitons, originbiomanetism,
s of motion, lknight shift, ve resonancero-field splitt
le, (1996).
Cr. 3
oint and the magnetization
, neutron mairon garnets,
gnons. Ferromn of domain, magnetic f
line width, mnuclear quad
e, antiferromaing, priciple
Hrs Sem3 VI
exchange intat absolute
agnetic scatt, antiferromagmagnetic domns, coercivityforce micros
motional narrodrupole resonagnetic resonof master a
mester III
tegral, zero,
ering, gnetic mains, y and scopy,
owing, nance, nance, action,