MAT-23306 Multivariate Mathematics Applied
Vak
Studiepunten 6.00
Onderwijstype | Contacturen |
Practical intensively supervised | 12 |
Tutorial | 48 |
Self-study |
Course coordinator(s) | dr. M de Gee |
Lecturer(s) | dr. M de Gee |
dr. JHJ van Opheusden | |
MSc M Apri | |
Examiner(s) | dr. M de Gee |
dr. JHJ van Opheusden |
Language of instruction:
English
Assumed knowledge on:
MAT-14903 and MAT-15003
Contents:
- linear algebra: matrices, eigenvalues and eigenvectors;
- complex numbers;
- ordinary differential equations: direction field and equilibria; separation of variables and variation of constants; systems of linear differential equations; systems of non-linear differential equations and classification of equilibria;
- numerical methods for ordinary differential equations: difference quotients and the Euler method; systems of differential equations; trapezoidal rule and Runge-Kutta; discretization errors; error propagation, stability and stiffness;
- integration in two or three dimensions: limits of integration; coordinate systems and the Jacobian;
- introduction to partial differential equations: flow models, diffusion and convection; boundary and initial conditions; stationary solutions;
- vector fields: flow fields and force fields; the gradient and the laws of Fick, Fourier and Darcy; the potential function; divergence and the Laplace operator;
- Fourier series for partial differential equations: separation of variables and the Sturm-Liouville problem; boundary value problems and Fourier series;
- use of computer software.
Learning outcomes:
After this course the student is expected to:
- have working knowledge of concepts, methods and techniques from linear algebra, calculus, vector calculus and numerical mathematics;
- be able to apply mathematical knowledge, insights and methods to solve problems in the technological sciences using a systematic approach;
- be able to critically reflect upon the results;
- be able to interpret and evaluate the results in terms of the (physical, chemical, biological) problem that was modelled mathematically;
- be able to use mathematical software in elaborating mathematical models.
Activities:
- preparing for lectures and tutorials by self-study and doing exercises;
- active participation in lectures and tutorials;
- doing the exercises;
- computer practical (compulsory).
Examination:
Written exam, with open questions and multiple-choice questions.
Literature:
1. Lecture notes: Time-dependent Systems. WURshop
2. Lecture notes: Processes depending on space and time. WURshop.
Opleiding | Fase | Specialisatie | Periode | ||
---|---|---|---|---|---|
Verplicht voor: | BSW | Soil, Water, Atmosphere | BSc | 1AF | |
BES | Environmental Sciences | BSc | C: Environmental Technology | 1AF | |
Keuze voor: | MES | Environmental Sciences | MSc | 1AF | |
MML | Molecular Life Sciences | MSc | C: Physical Biology | 1AF |