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Faculty of Science Handbook, Session 2019/2020
5. J. Morrison, Modern Physics: for Scientists and Engineers, 2 ed. LEVEL 2
nd
(Academic Press, 2015)
6. P Amore, JD Walecka, Introduction to Modern Physics: Solutions
to Problems (World Scientific, 2013) SIF2001 QUANTUM MECHANICS I (3 CREDITS)
SIF1005 ELECTRONICS I (2 CREDITS) Basic principles: wave packets, eigen functions, superposition
principles, quantum mechanical postulates and probability density,
Circuit Theory: Kirchhoff’s law, Thevenin’s theorem, Norton’s theorem, uncertainty in measurements, Heisenberg uncertainty principles, space
Ohm’s law, circuit analysis technique, impedance matching. representation and momentum representation, measurement effect,
Semiconductor Diodes: Properties of semiconductor, pn junction, commutators and constant of motion, equation of flux continuity,
forward and reverse bias conditions, basic energy band diagrams, the probability, Ehrenfest theorem.
current-voltage characteristics and simple diode circuits; the use of Time independent Schroedinger equation: free particle, step potential,
diodes in power supply circuits: half-wave, full-wave, bridge rectifiers; square well potential and barrier potential, Harmonic oscillator.
transformer, capacitor-input and choke-input filters, special diodes– Hydrogen atom: quantum mechanics in 3-D, solution of Schroedinger
Zener diode, voltage regulators. equation, quantum numbers, eigen values and degenerates.
Bipolar junction Transistor (BJT): Characteristics of transistor, simple Angular momentum: angular momentum operators, orbital magnetic
transistor circuit, current and voltage gain, load line concept, biasing moment, spin and total angular momentum.
requirements, D.C analysis of the circuits and A.C analysis of the BJT
circuit. Assessment Method:
Final Examination: 60%
Assessment Method: Continuous Assessment: 40%
Final Examination: 60%
Continuous Assessment: 40% Medium of Instruction:
English
Medium of Instruction:
English Soft-skills:
CS3, CTPS3, LL2
Soft-skills:
CS2, CTPS2, CTPS3,LL1 References:
1. Franz Mandl, Quantum Mechanics (John Wiley & Sons, 2013)
References: 2. Albert Messiah, Quantum Mechanics (Dover Pubns, 2011)
1. R. Boylestad & L. Nashelsky, Electronic Devices and Circuit 3. Y.B. Band & Y vishal, Quantum Mechanics with Applications to
Theory, 11th ed. (Prentice Hall, 2012) Nanotechnology & Information Science (Elsevier Ltd, 2013)
2. T.L. Floyd & D. Buchla, Electronics Fundamentals: Circuits, 4. D. Griffiths, Introduction to Quantum Mechanics (Prentice Hall,
Devices, and Applications (Prentice Hall, 2013) 2004)
3. A.P. Malvino & D. Bates, Electronic Principles with simulation CD 5. W. Greiner, Quantum Mechanics. An Introduction (Springer, 2008)
(McGraw-Hill Education, 2015)
4. A.J. Diefenderfer & B.E. Holton, Principles of Electronic SIF2002 ELECTROMAGNETISM I (3 CREDITS)
Instrumentation, 3rd Edition (Saunders Coll. Publ., 1994)
charge, Coulomb’s law, continuous charge distribution, electric field,
SIF1006 PRACTICAL PHYSICS I (2 CREDITS) Gauss’s law, electric potential energy and potential, work done to move
charges, energy of point charge and continuous charge distributions,
Experimental data analysis: precision and accuracy, significant figures, conductors, induced charge.
systematic error, statistical error, propagation of uncertainties of Dielectrics, induced dipoles, polarization, bound charge, field in
measurement, uncertainty analysis, statistical analysis dielectrics; electric displacement, linear dielectrics, susceptibility,
Physics experiments on the topics of mechanics permittivity and dielectric constant, forces and torques using the
Physics experiments on the topics of heat electrostatic energy, capacitors and capacitance, RC circuit and RCL
Physics experiments on the topics of electricity circuit.
Physics experiments on the topics of magnetism Lorentz force law on charges and current in magnetic field and electric
Physics experiments on the topics of optics and modern physics field, Biot-Savart law, steady current, magnetic field of steady current,
Ampere’s law and displacement current.
Assessment Method: Magnetic dipoles, magnetic dipole moments, Diamagnet, paramagnet
Final Examination: 60% and ferromagnet, magnetization, bound current, Ampére law in
Continuous Assessment: 40% magnetized materials, magnetic susceptibility and permeability,
ferromagnetism, antiferromagnetism.
Medium of Instruction: Electromotive force (emf), motional emf; Faraday’s law and Lenz’s law,
English electromagnetic induction, mutual inductance, self-inductance, energy in
magnetic fields, displaced current, Maxwell’s equations.
Soft-skills:
CS2, CTPS2, LL1, TS1, LS1 Assessment Method:
Final Examination: 60%
References: Continuous Assessment: 40%
1. Douglas C. Montgomery, Introduction to Linear Regression
Analysis, (Wiley, 2012) Medium of Instruction:
2. S. V. Gupta , Measurement Uncertainties: Physical Parameters and English
Calibration of Instruments Hardcover , (Springer, 2012)
3. D. V. Skobel tsyn, Experimental Physics: Methods and Apparatus Soft-skills:
(The Lebedev Physics Institute Series) (Springer, 2012) CS2, CTPS2,CTPS3, LL2
4. J.R. Taylor, An Introduction to Error Analysis (University Science,
1997) References:
5. N.C. Barford, Experimental Measurements: Precision, Error and 1. S. Grant and W. R. Phillips, Electromagnetism, 2nd ed. (Wiley,
Truth (Wiley, 1991). 1990)
2. E. M. Purcell, D. J. Morin, Electricity and Magnetism, 3 ed.
rd
(Cambridge University Press, 2013)
3. J. Reitz, F. Milford, R. Christy, Foundations of Electromagnetic
theory, 4th ed. (Pearson, 2008)
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