Numerical Analysis
This course will enable the students to -
- Understand different numerical methods to obtain approximate solutions to mathematical problems.
- Learn numerical methods to solve interpolation based problems, ordinary differential equations and various numerical root finding problems.
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Course |
Learning outcomes (at course level) |
Learning and teaching strategies |
Assessment Strategies |
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Course Code |
Course Title |
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24CMAT 513 |
Numerical Analysis(Theory)
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CO100: Apply various interpolation methods and finite difference concepts to solve interpolation problems for equal intervals. CO101: Outline the concept of central difference, and numerical differentiation and be able to solve interpolation problems for unequal intervals. CO102: Explain the concept of numerical integration and be able to solve related problems. CO103: Apply numerical methods to find the solution of algebraic equations using different methods under different conditions CO104: Solve the system of linear equations and ordinary differential equations by numerical methods. CO105: Contribute effectively in course-specific interaction.
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Approach in teaching: Interactive Lectures, Discussion, Power Point Presentations, Informative videos
Learning activities for the students: Self learning assignments, Effective questions, presentations, Assigned tasks |
Quiz, Individual and group projects, Open Book Test, Semester End Examination
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Differences, Relation between differences and derivatives, Difference of polynomials, Factorial notation, Newton’s forward and backward interpolation formula (with proof).
Newton’s and Lagrange’s divided differences formulae. Central differences: Gauss’s, Sterling’s and Bessel’s interpolation formulae, Numerical differentiation.
Newton-Cotes quadrature formula, Trapezoidal formula, Simpson’s 1/3rd and 3/8th formulae, Gaussian integration.
Inverse Interpolation , Bisection method, Regula-falsi method, Method of iteration and Newton Raphson’s Method, Newton’s iterative formula for obtaining square and inverse square root.
Direct method (Gauss elimination method, LU-decomposition method), Iterative methods (Jacobi and Gauss Seidal method, SOR method), Theorems based on iterative methods, Solutions of first order ordinary differential equations: Picard’s method, Euler’s method,Runge-Kutta method.
- J.L. Bansal and J.P.N. Ojha, Numerical Analysis, Jaipur publishing house, 2015.
- M.C. Goyal, D.C. Sharma and Kavita Jain, Numerical Analysis, RBD, 2015.
- M.K. Jain and Iyengar, Numerical Methods Problems and Solutions, New Age International Ltd., 2007.
- James B. Scarborough, Numerical Mathematical Analysis, Oxford and IBH publishing 1966.
- J.P. Chauhan, Numerical Analysis, Krishna Prakashan Meerut, 2014.
- Curtis F. Gerald and Patrick O. Wheatley, Applied Numerical Analysis, Pearson, 2003.
- Gourdin and Boumahrat, Applied Numerical Methods, Prentice Hall of India, 2004.
- Melvin J. Maron and Robert J. Lopez, Numerical Analysis a Practical Approach, Machmillon Publishing Company, New York, 3rd Edition ,1991.
- H.C. Saxena, Finite differences& Numerical analysis, S.Chand and Co. New Delhi, 2010.
- B.S. Goel and S.K. Mittal, Numerical Analysis, Pragati Prakashan, Meerut, 2007.
- Walter Gautschi, Numerical Analysis, Birkhauser Springer US, 2012.
e- RESOURCES
- https://nptel.ac.in/courses/111106101
- https://perhuaman.files.wordpress.com/2014/07/metodos-numericos.pdf
- http://www.ru.ac.bd/stat/wp-content/uploads/sites/25/2019/03/107_03_Scarborough_Numerical-Mathematical-Analysis.pdf
- http://www.math.science.cmu.ac.th/docs/qNA2556/ref_na/Katkinson.pdf
JOURNALS
- https://www.siam.org/publications/journals/siam-journal-on-numerical-analysis-sinum
- https://www.springer.com/journal/12258
- https://onlinelibrary.wiley.com/journal/10970207
