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Faculty of Science Handbook, Session 2017/2018
References 2. Fluid Mechanics, oleh S.M. Richardson, Hemisphere
1. David J. Griffiths, Introduction to Quantum Mechanics Pub. Corp. 1989.
(2nd Edition), Prentice-Hall, 2004 3. A First Course in Fluid Dynamics, A.R. Peterson, CUP
2. David K. Ferry, Quantum Mechanics: An Introduction 1987
for device physicists and electrical engineers, 2nd ed., 4. An Introduction to Fluid Dynamics, G.K. Batchelor,
Institute of Physics Publ., 2011. CUP 1967
3. A Survey of Computational Physics: Introductory 5. Computational Fluid Dynamics, J.D. Anderson,
Computational Science. Rubin H. Landau, M. J. Paez McGraw- Hill1995
and C. C Bordeianu (Princeton Press ) 2008 6. Computational Methods for Fluid Dynamics, Joel H.
4. Numerical Recipes 3rd Edition W. H. Press, S. A. Ferziger & Milovan Peric, Springer 2011
Teukolsky, W. T. Vetterling and B. P. Flannery
(Cambridge University Press) 2007
4. N. Zettili, Quantum Mechanics Concepts & SIN3004 ANALYSIS OF MATHEMATICAL MODELS
Applications, Wiley-Interscience (Wiley) 2009.
5. Alejandro Garcia, Numerical Methods for Physics, 2nd Building of Mathematical Models: identifying variables,
Edition, Prentice-Hall, 2000. obtain relationship between variables – ordinary differential
equations and systems of ode. Analysis of models
analytically and qualitatively. Bifurcations. Phase plane
SIN3002 CRYPTOGRAPHY analysis, stability.
Basic concept of cryptography, data security, complexity Assessment
theory and number theory. Encryption algorithms: Secret Continuous Assessment: 50%
key cryptography, public key cryptography, hash functions. Final Examination: 50%
Quantum cryptography. Applications of cryptographic
algorithms. Medium of Instruction:
Bahasa Malaysia/English
Assessment
Continuous Assessment: 40% Humanity Skill:
Final Examination: 60% CS4, CT5, TS2, LL3
Medium of Instruction: References
Bahasa Malaysia/English 1. R.K. Nagle, E.B. Saff and A.D.Snoder, Fundamentals
of Differential Equations and Boundary Value
Humanity Skill: Problems with IDE CD, 5 th Edition, Pearson Higher
CS3, CT3, LL2 Education, 2011.
2. R.I. Borelli & C.S. Coleman, Differential Equations: A
References Modeling Perspective, 2nd Edition, John Wiley 2004.
1. Trappe, W., and Washington, L.C., Introduction to
Cryptographywith Coding Theory, Pearson Prentice
Hall, 2014. SIN3005 NUMERICAL METHODS AND ANALYSIS
2. Stallings, W., Cryptography and Network Security:
Principles AndPractice. 4 edition, Englewood Cliffs Approximation methods: Discrete least square
(NJ): Prentice Hall 2006. approximation, orthogonal polynomials, Chebyshev
nd
3. Schneider, B., Applied Cryptography, 2 . Edition New polynomials.
York: John Wiley and Sons, 1996.
4. Martin, M.K, Everyday Cryptography, Oxford Eigenvalue problem: Power method, Householder’s
University Press, 2012 methods. The QR algorithm.
5. Stinson, D.R., Cryptography: Theory and Practice,
CRC Press, 1995. Initial value problem of Ordinary Differential Equations:
Euler’s method, higher order Taylor method, Runge-Kutta
methods. Multistep methods. Multistep methods.
SIN3003 COMPUTATIONAL FLUID DYNAMICS Convergence and stability analysis, error control.
Assessment
Derivation of conservation equations for mass, momentum Continuous Assessment: 40%
and energy. Scaling and simplification of Navier-Stokes Final Examination: 60%
equation to Bernoulli’s equation, Stokes’ equation and
boundary layer equation. Initial- and boundary-conditions. Medium of Instruction:
Simple analytical solutions and approximate solutions. English
Numerical solutions: finite-element, finite-difference and
finite-volume methods. Humanity Skill:
CS3, CT3, LL2
Assessment
Continuous Assessment: 40% References
Final Examination: 60% 1. K.E. Atkinson, Elementary Numerical Analysis, 2nd
Edition, John Wiley & Sons, 1993.
Medium of Instruction: 2. R.L. Burden & J.D. Faires, Numerical Analysis, 7th
Bahasa Malaysia/English Edition, Brooks/Cole, USA, 2001.
3. Brian Bradie, A Friendly Introduction to Numerical
Humanity Skill: Analysis, Pearson Education, New Jersey, 2011.
CS4, CT5, TS2, LL3
References
1. Fluid Mechanics, Yunus A. Chengel & John Cimbala,
McGraw- Hill 2014
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