| Lesson Plan |
| Name of the Faculty : Urmila Bhardwaj |
| Discipline : B.Tech. (CIVIL) |
| Semester : 5th |
| Subject : Numerical Methods |
| Lesson Plan Duration : 15 weeks (from August, 2018 to November, 2018 ) |
| Work Load (Lecture) per week (in hours) : Lectures - 03 |
| Weeks |
Theory |
|
Lecture |
Topic |
| Day |
(including assignment / test) |
| 1st |
1st |
SOLUTION OF NONLINEAR EQUATIONS: Bracketing methods for locating a root |
| 2nd |
Regula Falsi and Secant Method |
| 3rd |
Iteration Method |
| 2nd |
1st |
Newton- Raphson Method |
| 2nd |
Mullar's Method/Assignment of SOLUTION OF NONLINEAR EQUATIONS |
| 3rd |
SOLUTION OF LINEAR SYSTEMS: Gaussian elimination Method |
| 3rd |
1st |
Gauss Jordan Method/Test of SOLUTION OF NONLINEAR EQUATIONS |
| 2nd |
Matrix inversion, UV Factorization Method |
| 3rd |
Jacobi's Iterative Method |
| 4th |
1st |
Gauss Seidal Iterative Method |
| 2nd |
Relaxation Method/Assignment of SOLUTION OF LINEAR SYSTEMS |
| 3rd |
INTERPOLATION AND CURVE FITTING: Newton's Forward and Backward formulas |
| 5th |
1st |
Gauss Forward and Backward formulas |
| 2nd |
Stirling's and Bessel's Formulas |
| 3rd |
Laplace-Everett's Formulas/Test of SOLUTION OF LINEAR SYSTEMS |
| 6th |
1st |
Lagrange approximation |
| 2nd |
Newton Polynomials |
| 3rd |
Chebyshev Polynomials |
| 7th |
1st |
Least squares line, curve fitting |
| 2nd |
Interpolation by spline functions/Assignment of INTERPOLATION AND CURVE FITTING |
| 3rd |
SOLUTION OF DIFFERENTIAL EQUATIONS: Introduction to differential equations, Initial value problems and Euler’s method |
| 8th |
1st |
Heun’s method |
| 2nd |
Runge-Kutta methods |
| 3rd |
Taylor series method |
| 9th |
1st |
Predictor-Corrector methods |
| 2nd |
Systems of differential equations with Boundary valve problems: Finite-difference method/Assignment of SOLUTION OF DIFFERENTIAL EQUATIONS |
| 3rd |
NUMERICAL DIFFERENTIATION AND INTEGRATION:Approximating the derivative, Numerical differentiation formulas |
| 10th |
1st |
Introduction to Numerical quadrature |
| 2nd |
Test of SOLUTION OF DIFFERENTIAL EQUATIONS |
| 3rd |
Newton-Cotes formula |
| 11th |
1st |
Gaussion Quadrature/Assignment of NUMERICAL DIFFERENTIATION AND INTEGRATION |
| 2nd |
EIGEN VALUE PROBLEMS: Jacobi's Method for symmetric matrices |
| 3rd |
Given’s method for symmetric matrices |
| 12th |
1st |
Householder’s method for symmetric matrices |
| 2nd |
Test of NUMERICAL DIFFERENTIATION AND INTEGRATION |
| 3rd |
Rutishauser method for general matrices |
| 13th |
1st |
Power and Inverse power methods/Assignment of EIGEN VALUE PROBLEMS |
| 2nd |
ERRORS IN NUMERICAL CALCULATIONS: Introduction, Numbers and their accuracy, Absolute, relative and percentage errors and their analysis |
| 3rd |
Test of EIGEN VALUE PROBLEMS |
| 14th |
1st |
General error formula/Assignment of ERRORS IN NUMERICAL CALCULATIONS |
| 2nd |
PARTIAL DIFFERENTIAL EQUATIONS: Solution of hyperbolic equations |
| 3rd |
Test of ERRORS IN NUMERICAL CALCULATIONS |
| 15th |
1st |
Solution of Parabolic equations |
| 2nd |
Solution of elliptic equations |
| 3rd |
Test/Assignment of PARTIAL DIFFERENTIAL EQUATIONS |
