Page 235 - tmp
P. 235
Faculty of Science Handbook, Session 2017/2018
Soft-skills: Special Functions: Factorial functions, Gamma functions, Beta
CS2, CTPS3, LL2, EM1 functions, relationship between Beta and Gamma functions, error
functions, asymptotic series, Stirling formula and elliptical functions.
References: Series Solution for Differential Equations: Legendre equations, Leibnitz
1. Thomas L. Floyd, Digital Fundamentals, 11 edition (Pearson, 2014) rule, Rodriguez formula, generating functions for Legendre polynomial,
2. R.L. Tokheim, Digital Electronics: Principles and applications, 8th orthogonal functions, orthogonalization and normalization of Legendre
ed. (Glencoe McGraw-Hill, 2013) polynomials, Legendre series, Associate Legendre function, Frobenius
3. W. Kleitz, Digital and Microprocessor Fundamentals: Theory and method, Bessel equation, second solution of Bessel equation,
Applications, 4th ed. (Pearson Education Int’l, 2003) recurrence relationship, general differential equation with Bessel
4. P.P.W. Chandana, Digital systems fundamentals (Prentice Hall, function as a solution, orthogonalization of Bessel function, Hermite
2002) function, Laguerre function, step operator.
5. Anant Agarwal, Jeffrey Lang, Foundations of Analog and Digital Partial Differential Equation: Laplace equation, steady state temperature
Electronic Circuits (Morgan Kaufmann, 2015) in a square plate, Schrödinger equation, heat and diffusion equation.
6. Roger Tokheim, Digital Electronics: Principles and Applications Wave equation, vibrating string, steady state temperature in a cylinder,
(McGraw-Hill, 2013) steady state temperature in a sphere, Poisson equation.
Assessment Method:
SIF3010 MICROPROCESSOR (3 CREDITS) Final Examination: 60%
Calculation using various number systems- binary, octal, hexadecimal, Continuous Assessment: 40%
binary coded decimal, calculation using the ASCII code. Introduction to
microprocessors: Basic definitions, word length, concept of addresses, Medium of Instruction:
data bus, address bus, and control bus, programming, microprocessor English
systems and microcontrollers. Microprocessor architecture: internal
organization, programming models, the arithmetic and logic unit, Soft-skills:
registers, stack pointer, internal data bus and logic controller. Memory: CTPS3
types of memory, memory chips, connections to the microprocessor,
interfacing and expansion technique, using technique and secondary References:
storage. Communicating with the outside world, input and output (I/O), 1. Mary L. Boas, Mathematical Methods in the Physical Sciences, 3rd
connectivity and the timing diagram, programming the I/O chip, serial ed. (John Wiley & Sons, 2006)
and parallel connection techniques, analogue to digital and digital to 2. S. Hassani, Mathematical Methods: For Students of Physics and
analogue converters. Programming: algorithm and flowcharts, Related Fields, , 2rd Edition (Springer, 2009)
commands and its types, operation codes, addressing modes, flow of 3. K. F. Riley, M. P. Hobson, Essential Mathematical Methods for the
information, assembly language, loops and subroutines. Interfacing: Physical Sciences (Cambridge University Press, 2011)
serial and parallel techniques, functions and characteristics of UART, 4. G.B. Arfken, H.J. Weber, Mathematical Methods for Physicists: A
baud rate and it effects, serial data control word, interfacing standards, Comprehensive Guide, 7th Edition (Elsevier Acad. Press, 2012)
handshaking principles 5. G. N. Felder, K. M. Felder, Mathematical Methods in Engineering
and Physics (John Wiley & Sons, 2015)
Assessment Method:
Final Examination: 60%
Continuous Assessment: 40% SIF3011 QUANTUM MECHANICS II (3 CREDITS)
General formalism of quantum mechanics. Time-independent
Medium of Instruction: perturbation theory. Time-dependent perturbation theory. Scattering
English theory. Angular momentum. Additional of angular momentum.
Relativistic quantum mechanics.
Soft-skills:
CS2, CTPS3, LL2, EM1 Assessment Method:
Final Examination: 60%
References: Continuous Assessment: 40%
1. J. Uffenback, Microcomputers and Microprocessors (Prentice Hall,
2006) Medium of Instruction:
2. Ramesh S. Gaonkar, The Z80 Microprocessor: Architecture, English
Interfacing, Programming & Design, 2nd ed. (Merrill Publ. Co.,
2001) Soft-skills:
3. R.J. Tocci & F.J. Ambrosio, Microprocessors and Microcomputers: CS3, CTPS3, LL2
Hardware and Software, 6th ed. (Pearson Education Int’l, 2003)
4. Jon Stokes, Inside the Machine: An Illustrated Introduction to References:
Microprocessors and Computer Architecture (William Pollock, 1. James Binney, David Skinner, The Physics of Quantum Mechanics
2015) (Oxford University Press, 2014)
5. Subir Kumar Sarkar and Asish Kumar De,Foundation of Digital 2. Kurt Gottfried, Tung-Mow Yan, Quantum Mechanics:
Electronics and Logic Design (CRC Press, 2014) Fundamentals 2nd ed. (Springer, 2013)
6. M. Rafiquzzaman, Fundamentals of Digital Logic and 3. Reinhold Blumel, Advanced Quantum Mechanics: The Classical-
Microcontrollers (Wiley, 2014) Quantum Connection (Jones and Barlett, 2011)
4. David J. Griffiths, Introduction to Quantum Mechanics, 2nd ed.
(Pearson Prentice Hall, 2004)
SIF2022 MATHEMATICAL METHODS II (3 CREDITS) 5. S. Gasiorowicz,Quantum Physics, 3rd ed. (Wiley 2003)
Fourier Series and Transformation Series: Periodic functions, Fourier
series, average value of a function, Fourier coefficient, Dirichlet
condition, complex form of Fourier Series, general interval, even and odd SIF3012 COMPUTATIONAL PHYSICS (3 CREDITS)
functions, Parseval theorem. Fourier transformation, and Parserval Ordinary Differential Equations: boundary-value and eigenvalue
Theorem. problems, Sturm-Liouville problem.
Coordinate Transformation: Linear transformation, orthogonal Matrices: matrix eigenvalue problems, Faddeev-Leverrier method,
transformation, eigen value and eigen vector and diagonalization of Lanczos algorithm.
matrices. Curvilinear coordinates, scalar factor and fundamental vector Tranforms: Fast Fourier transform, wavelet transform, Hilbert transform.
for orthogonal system, general curvilinear coordinates, vector operator Partial Differential Equations: Elliptic, parabolic and hyperbolic
in orthogonal curvilinear coordinates. equations.
229
