EM 2040: Numerical Methods for Civil Engineers

Basic Details:

Course Code: EM 2040
Credits: 2
Pre-requisites: None
Compulsory/Optional: Compulsory

Aim :

To introduce numerical methods for solving mathematical models of Civil Engineering problems.

Intended Learning Outcomes:

On successful completion of the course, the students should be able to;

Explain, apply and analyze numerical methods for finding roots of equations, interpolation and curve fitting.
Explain, apply and analyze numerical methods for solving ordinary and partial differential equations.
Select suitable algorithms and apply for solving partial differential equations related to Civil Engineering problems

Couse Content:

Error analysis

Solutions to nonlinear equations

Bisection method; method of false
position; fixed-point iteration; Newton-Raphson’s method; secant method.

Numerical solutions to systems of linear equations

Gaussian elimination; Jacobi method; Gauss Seidel method.

Interpolation

Newton interpolating polynomial, Lagrange interpolating polynomial, Spline interpolation.

Approximation and curve fitting

Linear regression, polynomial regression.

Numerical Quadrature

Gaussian Quadrature.

Numerical solutions to ordinary differential equations

Initial value problems: Euler method, Runge - Kutta methods, Boundary value problem, Finite difference method

Numerical solutions for partial differential equations

Finite difference method: Elliptic equations, 1D and multi-dimensional problems. parabolic problems,
Integral Equation Methods: Collocation method, Galerkin method and Weighted, Residual method

Time Allocation (Hours):

Lectures

Tutorials

Recommended Texts:

C. Chapra and R. P. Canale, (2010). “Numerical Methods for Engineers”, 6th edition, McGraw-Hill.

Assessment:

In - course:

Tutorials/Quizzes

20%

Mid Semester Examination

30%

End-semester:

50%