Computer Systems Engineering with a Foundation Year BEng

This module will introduce the application of engineering principles to foundation year students and give the student an appreciation of the breadth of engineering activities across the faculty and identify to students what knowledge areas and skills are needed in order to contribute to their development and be successful. It will also help create links with departments and draw on the other modules that students will take in the foundation year especially maths and physics.

The syllabus for MPS001 covers important material which appears on the A level maths and further mathematics A Level curriculum. The module is for students who are taking MPS002 and need a deeper background in mathematics for their degree course. The module covers advanced principles of algebra, geometry and calculus.  Following the introduction of new material, students have the opportunity of extensive problem solving, both in the problem classes with tutors and in their own time.

This module provides students with the foundations of Physics required to enter the first year of a regular Physics or other scientific degree course, or an engineering course where detailed knowledge of Physics is needed. Understanding will be developed in 3 lectures per week over a full academic year. Problem solving and example classes are integrated into lectures. The following topics will be covered: Dynamics/Mechanics; Electricity and Magnetism; Thermal Physics; Oscillations, Waves, and Optics; Properties of Matter; Atomic and Nuclear Physics. The greatest advances in technology have taken place in the last hundred years. In 1897 few would have imagined that the probing of materials at the atomic level would reveal so much. These early discoveries of atomic constituents and their structure would pave the way for semi-conductor electronics, develop key concepts in physical laws, and offer a replacement energy source for fossil fuels in the form of nuclear power. This course summarises key discoveries in early particle physics and combines historical background with the detailed physics understanding needed to fully appreciate the subject. These full modules aim to provide a sound foundation in Physics in preparation for Level 1 Physics modules. It introduces (i) Properties of Matter, (ii) Oscillations, waves and optics and (iii) Atomic and Nuclear Physics. (i) Properties of Matter discusses structural, mechanical and electrical properties in terms of simple models. (ii) treats vibration and waves introducing the concepts of wavelength, frequency and wave speed. (iii) discusses the physics of the atom, including historical aspects, the electron, the photo-electric effect, Bohr's atomic model, nuclear structure and radioactivity.

Students will study forces, motion and energy in 1 and 2 dimensions, in linear and circular motion. This will be applied in a programming context to develop logic and arithmetic operations, understanding of the stages of software development, memory allocation, data structures and testing. Students will then study electricity and magnetism, voltage, current and simple devices applied to the programming of a microcontroller, developing understanding of power supplies, digital and analogue I/O, and simple devices such as switches and LEDs. An understanding of physical limitations such as noise, processing speed and memory.

The syllabus for MPS002 covers the common core A Level curriculum. The unit is tailored for students who have been away from mathematics for a period of time, but who will have gained some A-Level or similar qualifications. The unit covers the basic principles of algebra, geometry and calculus. Following the introduction of new material in the lectures, students have the opportunity of extensive problem solving, both in the tutorial sessions with the lecturers and in their own time.

This module builds on the common core curriculum from A level maths (which is a prerequisite). This unit covers enhanced comprehension of topics in pure maths, statistics, probability, and numerical methods. These topics are chosen to further prepare students for their undergraduate studies in the science and engineering faculties.