Key information
- Faculty
- Faculty of Mathematical and Physical Sciences
- Teaching department
- Mathematics
- Credit value
- 15
- Restrictions
-
This module is normally taken by (i) fourth year students on single or combined Mathematics degrees who have taken MATH0056 Mathematical Methods 4 (ii) students on the MSc in Mathematical Modelling.
- Timetable
-
Alternative credit options
There are no alternative credit options available for this module.
Modelling the propagation and scattering of acoustic and electromagnetic waves has proved a major challenge to mathematicians and physicists for many centuries, and its practical importance can be observed in many applications prevalent throughout our modern world. These include the mitigation of aircraft, rail and traffic noise in urban areas, sonar detection, wireless and fibre optic communication, baggage screening, medical diagnostics and the workings of the cochlea. This course aims to provide an introduction to linear and nonlinear wave theory and the approximate methods used to tackle wave reflection, transmission and scattering in inhomogeneous media.
Module deliveries for 2024/25 academic year
Intended teaching term:
Term 2 ÌýÌýÌý
Undergraduate (FHEQ Level 7)
Teaching and assessment
- Mode of study
- In person
- Methods of assessment
-
90%
Exam
10%
Coursework
- Mark scheme
-
Numeric Marks
Other information
- Number of students on module in previous year
-
8
- Module leader
-
Professor Valery Smyshlyaev
- Who to contact for more information
- math.ugteaching@ucl.ac.uk
Intended teaching term:
Term 2 ÌýÌýÌý
Postgraduate (FHEQ Level 7)
Teaching and assessment
- Mode of study
- In person
- Methods of assessment
-
90%
Exam
10%
Coursework
- Mark scheme
-
Numeric Marks
Other information
- Number of students on module in previous year
-
1
- Module leader
-
Professor Valery Smyshlyaev
- Who to contact for more information
- math.ugteaching@ucl.ac.uk
Last updated
This module description was last updated on 19th August 2024.
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