What you will Study
This full time programme is of four years duration. The first two years are a combination of the main modules taken in both the mathematical sciences degree and the applied physics degree at UL.
In these first two years the fundamental aspects of physics and mathematics are established. Physical subjects will include such topics as Mechanics, Waves, Light, Thermal Physics, Electromagnetism, and Modern Physics, which spans the scope of current basic understanding in physics. In addition, more applied topics are Optics and Semiconductors which are essential to modern technology.
Mathematical subjects include Calculus, Algebra, Vector Analysis, Ordinary and Partial Differential Equations, Numerical Analysis, Fourier Analysis and Computer Software.
During the spring semester of the third year, a period of cooperative education (placement in industry) provides you with practical experience in a relevant work environment. This is organised by the University’s Cooperative Education Department in collaboration with representatives from various industries, both in Ireland and abroad. Students are interviewed by company representatives. On selection, they are offered full-time employment during the Cooperative Education period and are paid at a competitive rate.
The remainder of the modules taken during third and fourth year offer a more in-depth view of both mathematics and physics. The offered modules include: Quantum Mechanics, Solid State Physics, Atomic, Molecular and Laser Physics, Nano-technology, Numerical Solution of Partial Differential Equations and Mathematics of Natural Phenomena. These more advanced subjects will prepare you for both an industrial career and also for a career in research and development.
During the final year, a project is undertaken that allows you to analyse a particular problem in depth. This also gives students interested in postgraduate research an opportunity to carry out an exploratory investigation of a potential research topic.
Year 1
Semester 1
- Waves/Light/Modern Physics
- Semiconductor Devices
- Calculus 2
- Further Linear Algebra
- Introduction to Probability and Statistics
Year 2
Semester 3
- Optics
- Mechanics
- Methods of Linear Analysis
- Vector Analysis
- Ordinary Differential Equations
Semester 4
- Electromagnetism
- Modern Physics
- Thermal Physics
- Intro to Numerical Analysis
- Partial Differential Equations
Year 3
Semester 5
- Quantum Mechanics
- Physics of Solids
- Introduction to Fluid Mechanics
- Complex Analysis
Elective (choose 1)
- Atomic/Molecular/Laser Physics
- Numerical Solutions for PDEs
- Linear Algebra 2
- Probability Models
- Geometry
Year 4
Semester 7
- Solid State Physics 1
- Maths of Natural Phenomena
- Perturbation Tech. and Asymptotics
- Maths & Physics Project 1
Elective (choose 1)
- Nanotechnology 1
- Physics of Modern Measurement
Semester 8
- Solid State Physics 2
- Dynamical Systems
- Mathematical Modelling
- Maths & Physics Project 2
Elective (choose 1)
- Nanotechnology 2
- Medical Instrumentation
